Monday, November 09, 2020

expert reaction to Pfizer and BioNTech reporting interim results from phase 3 COVID-19 vaccine trial

NOVEMBER 9, 2020

Pfizer and BioNTech have announced that their vaccine candidate against COVID-19 achieved success in the first interim analysis from the phase 3 COVID-19 vaccine trial.

 

Prof Robin Shattock, lead for Imperial’s COVID-19 vaccine, said:

“Really encouraged to see this exciting announcement.  Assuming it’s supported by the data then this not only represents a potential breakthrough for Pfizer/BioNTech, but also for vaccines in general.  It also demonstrates the speed and utility of RNA vaccines technology.  There is still much to be done including gaining regulatory approvals, scaling up manufacture and working out the logistics of massive vaccination programs.  Hopefully this is the first of many vaccine candidates to be seen to work.  This announcement certainly gives a boost to our own self-amplifying RNA vaccine program.  Not yet the end game, but hopefully the beginning of global efforts to control this pandemic.  A significant light at the end of the tunnel.”

 

Dr Jeremy Farrar, Director of Wellcome, said:

“These interim results offer some very positive news in what has been an immensely difficult year.  It is important that we look closely at the data, and there are critical questions that remain to be answered.  This vaccine could be more effective than we ever hoped for from the first generation of Covid-19 vaccines.

“We have said many times that science has moved at incredible pace in response to this pandemic.  To have this news less than a year since Covid-19 emerged is a remarkable achievement and testament to the extraordinary global research response.  Effective vaccines, alongside tests and treatments, will change the fundamentals of this pandemic and bring us closer to a sense of normality.

“The first doses of any effective vaccines must, however, be prioritised for those most in need across the world – this includes those at greatest risk of severe illness and frontline healthcare workers.  If large parts of the world remain shut down because rich countries hoard supplies, we will all continue to suffer.

“This year has been unbelievably tough, and the coming weeks will still be exceptionally difficult, but these results remind us that this current situation is not forever.  To help bring this pandemic under control we must continue to respect the current lockdown measures with this at the forefront of our minds.

“Any Covid-19 vaccine will face the largest and fastest vaccine manufacturing scale-up and roll-out in history.  We must not underestimate the phenomenal logistical challenge that lies ahead – nor the importance of building public understanding, trust and confidence among all communities.  In all countries this will be most effective if it is locally led.  Success will depend on unparalleled global collaboration, greater even than we have seen so far.  But I am increasingly optimistic we will get there, that there is light at the end of the very dark tunnel the world is in.”

 

Prof Eleanor Riley, Professor of Immunology and Infectious Disease, University of Edinburgh, said:

“With the best will in the world, this vaccine – or any other vaccine currently in trials – isn’t going to change things for the majority of us this winter.

“If we can start vaccinating the elderly and otherwise vulnerable, as well as NHS and care home staff, before the end of the year at the very earliest, it will still take time to roll it out to enough people to substantially reduce the pool of highly vulnerable people.  Also, this vaccine needs two doses, three weeks apart and it will take at least a week after the second vaccination before you are fully protected.  So even if you were vaccinated today, you couldn’t be confident you were immune for at least a month.  Finally, we don’t know if the vaccine simply reduces symptoms or whether it prevents infection?  If not, maybe it nevertheless prevents or substantially reduces transmission?  We don’t know yet.

“So, we all need to accept that the current public health measures are going to remain in place at least until the end of the winter, possibly longer.  But if this vaccine lives up to this early promise, and other vaccines work equally well, we may be able to look forward to a much better summer and autumn in 2021.”

 

Prof Rowland Kao, the Sir Timothy O’Shea Professor of Veterinary Epidemiology and Data Science, University of Edinburgh, said:

“This evidence of protection as high as 90% would, if confirmed to offer widespread and long lasting protection against transmission, be sufficient to in the future, but not yet, allow a return to near normal social interactions, with likely only sporadic outbreaks to deal with, if the uptake was high enough.  However, there remain many hurdles to overcome even should the trial results be robust.  First, even at point of approval, providing sufficient production for proper population coverage will take some time.  Second, vaccine uptake will rely on a public confident of both its efficacy and safety, in order to minimise the effect of vaccine refusal and hesitancy.  Most importantly, it must be available broadly and globally, aiming to protect those who are likely to be affected most all around the world.  Despite these caveats, even smaller numbers of an approved vaccine with a lower efficacy than these results indicate would be an extremely useful tool to protect health workers and the vulnerable, thereby also reducing the number of non-pharmaceutical interventions we need to deploy.  As such, should the results of these late stage trials be confirmed, they are very good news.”

 

Dr Zania Stamataki, Viral Immunologist, University of Birmingham, said:

“The knowledge that a protective vaccine is possible should boost hope in people to continue to abide by the safety guidelines for a while longer, until the vaccines become widely available.

“There is no data shared in this press release so we cannot scrutinise, but Pfizer report prevention of COVID-19 in 90% of cases based on 94 volunteers.  This means that 90% of vaccinated people did not develop the disease when exposed to the virus after vaccination.  It is important to understand what sort of symptoms the vaccinated people were spared, did they develop any symptoms at all or did they develop mild disease?  It is remarkable that we have promising vaccines already for a disease that emerged less than a year ago, this is cause for celebration.  The numbers will change when the study is completed and this is expected, we are looking forward to receiving the complete data set from this promising trial.”

 

Dr Rupert Beale, Group Leader, Cell Biology of Infection Laboratory, Francis Crick Institute, said:

“This is exceptionally good news.  Most scientists expected that the vaccines would work, but 90% effective is right at the top end of expectations.  It’s likely that some of the other leading vaccine candidates will also be successful.  Until these can be deployed, we must redouble our efforts to suppress transmission of the virus – but we can do this knowing there’s light at the end of the tunnel.”

 

Dr Ohid Yaqub, Senior Lecturer in the Science Policy Research Unit (SPRU) at the University of Sussex Business School, said:

“These *interim* phase 3 results are extremely encouraging, and far exceed many of our expectations and regulatory hopes that specified a minimum of 50% efficacy.

“However, they are interim results, and we need to await full trial results.

“Moreover, the prospect of ultra-cold-chain distribution is likely to pose challenges.  Many of the other potential vaccine options being developed are likely to be more thermostable.

“The need for effective test and trace will likely remain for long after a vaccine begins deployment.

“Masks, distancing, and improving the test and trace system remain vital priorities, and they are likely to remain so for the majority of 2021.

“The JCVI recommended plan is to immunise high risk individuals first, mainly by age group (over 85s, then over ion in 75s and so forth).

“This means that the supply of vaccine, particularly a two dose one, won’t be available for all immediately, even after approval, if it is granted.

“And the logistics would centre around getting these individuals clustered into tight scheduled appointments.”

 

Dr Pauline Paterson, Co-director of The Vaccine Confidence Project, and Assistant Professor in the Department of Infectious Disease Epidemiology, London School of Hygiene & Tropical Medicine, said:

“I was delighted to hear that preliminary results from one of the covid-19 vaccine trials is suggesting 90% effectiveness.  Since covid-19 vaccines are being developed and produced much faster than any previous vaccines, it is really key that government and public health officials reassure the public that any covid-19 vaccines taken forward have been thoroughly tested for safety and efficacy, and are only taken forward if proved to be safe and effective.  If and when a covid-19 vaccines are available, we will need equitable distribution of vaccines according to need and it is key that low and middle income countries are not forgotten.”

 

Dr Stephen Griffin, Associate Professor in the School of Medicine, University of Leeds, said:

“Whilst we must of course be optimistic and buoyed by the news of the Pfizer vaccine, we must not allow it to seed complacency.  It will likely be several months following a potential emergency regulatory approval until the manufacture and roll out of the vaccine have reached enough of our population to have an impact.  It is also essential that we fully evaluate the complete trial data set and understand which patients might not benefit from vaccination as much as others.

“We must remember that tens of thousands of people are being infected with this virus every day within the UK, putting immense strain on our healthcare systems and causing hundreds of deaths on a daily basis.  Whilst the economic and societal costs of lockdown and the measures that will inevitably follow are severe, they sadly at present remain necessary as the only means at our disposal to avert a crisis as bad, or potentially worse than we endured in spring.”

 

Prof Gary McLean, Professor in Molecular Immunology, London Metropolitan University, said:

“The vaccine is still some way off yet and will not immediately replace the established control measures currently in place.  What must be remembered is that rolling out such a vaccine to the general population will be done in stages, with the most vulnerable and front-line responders first in line.  Such a roll out also depends on how many doses of vaccine can be manufactured and storage conditions – two doses are required and cold-chain must be observed.  This will take time and effort so will likely be well into 2021 before we see general availability.”

 

Prof Stephen Evans, Professor of Pharmacoepidemiology, London School of Hygiene & Tropical Medicine, said:

“These provisional results look promising and this is a great encouragement for all the vaccines under trial.  However, once again we have a press release without detailed data, even on the provisional result, but 90% efficacy is definitely good news, but there is some uncertainty.  It is not known whether the efficacy is constant across age groups, and it is results in the elderly that are required for the first use of the vaccine in high risk people.

“It seems difficult in the light of an encouraging finding to raise concerns.  The fact that the DSMB should release results but also continue the trial recruitment is unprecedented in my experience.  It is going to make recruitment more difficult and the ethics of continuing to randomise people to placebo within this trial may be questioned.  It may also lead to pressure to vaccinate the placebo group with the Pfizer vaccine.  This will mean that the longer term follow-up within the properly randomised trial will become difficult, and it may be the longer term where the true benefit and harm balance will need to be assessed.”

“It’s encouraging news, but the process does not seem to have followed usual procedures, and that might leave some concerns.”

Dr Andrew Preston, Reader in Microbial Pathogenesis, University of Bath, said:

“The press release from Pfizer reporting the preliminary estimation of the efficacy of their RNA-based COVID-19 vaccine offers great promise for changing the course of the pandemic.  Pfizer report an efficacy of greater than 90% for protecting individuals from COVID-19.  This is excellent news, and very welcome.

“However, the actual data from the trial is not publicly available for full scrutiny, and it is noted that the trial is not yet complete.  There is growing concern about public attitudes towards COVID-19 vaccines, with increasing numbers of people expressing doubts as to whether they would receive a vaccine when ones becomes available.  Lack of vaccine uptake could greatly compromise the effectiveness of global vaccine programmes, regardless of how good the vaccines are.

“Tackling public concern over vaccine safety and vaccine effectiveness requires full transparency about the vaccines and the processes leading to their use.  Until we have full transparency – the data available for independent scrutiny – we can’t be sure how much of a success this really is.  Leaving a number of obvious questions unanswered in the release (for example what counts as protection – what are the criteria used to identify cases?) also creates needless uncertainty.  Pfizer also state that they will apply for an Emergency Use Authorisation before the end of this month which to some will appear a premature move given the required 2 months of safety data are not yet in, and the trial still in process.

“None of this means that the vaccine is not as effective or as safe as Pfizer indicate and this initial result is certainly promising.  But there have been a number of claims made for COVID developments, including treatments (remember hydroxychloroquine, and even remdesivir) that have been dogged by claims of use of selective data, or ignoring caveats.  This cannot happen for COVID-19 vaccines if we are to encourage the high levels of vaccine uptake required for vaccines to be the intervention measure that we need them to be. Companies should avoid these unnecessary pitfalls in the coming months as we near the point of roll out of vaccination.”

Prof Andrew Pollard, Professor of Paediatric Infection and Immunity, and Director of the Oxford Vaccine Group, University of Oxford, said:

“We welcome these initial results announced today by Pfizer, which represent great news for the world as we face a global pandemic.  Ideally we need several of these to be successful for the best possible results for humanity.

“We continue to work on the ChAdOx1 nCov-2019 vaccine and anticipate early efficacy readings in the coming months should the transmission rates remain high.

“Furthermore, these results indicate that it is possible to make a vaccine against this disease, which until this point has not been certain.”

Prof Azra Ghani, Chair in Infectious Disease Epidemiology, Imperial College London, said:

“Whilst the news of this vaccine is very welcome, it is important to bear in mind that in the short-term the vaccine doses will be limited.  As noted by Pfizer, there will be 50 million doses available in 2020, and 1.3 billion doses in 2021.  It is likely that in most settings these doses will be allocated to the highest risk groups – including elderly and vulnerable populations, health care workers, and other highly exposed groups.  Vaccination will take time; and importantly the vaccine requires 2 doses 21 days apart before it is efficacious.  We also do not yet know how efficacious the vaccine is over a longer time period, or in particular high-risk groups.  As the process of vaccination evolves over the coming months it will be important to maintain social distancing and other mitigating measures to avoid overwhelming the health system and putting those who are not vaccinated at risk of disease.”

Prof Paul Hunter, Professor in Medicine, UEA, said:

“Promising indeed.

“The press release from Pfizer suggests that at the interim analysis the vaccine is greater than 90% effective from 7 days after the second dose at preventing infection.  If this remains the case after the final analysis and the paper passes peer review, then this is a remarkable result.  The press release suggests that the 90% effectiveness is at preventing infection and not just serious illness.  A vaccine that prevents infection would also dramatically reduce transmission of the virus providing that immunity lasts for at least a year or more.

“If this statement is supported by the data then it is a remarkable result.  I have not seen the data so only based my opinion on the press release not on the data.  I have had to take the press release on trust so ultimately people need to see the data before any definitive conclusions can be made.  It is too early to say whether this is a vaccine that will require regular annual boosters, but even if it does this would fit well with the annual influenza vaccine campaigns.  Providing that the results hold up in the final analysis, the vaccine is deployed effectively and post marketing surveillance finds no untoward effects then this would have a huge benefit on reducing the damage that the current pandemic is having on society.”

Dr Simon Clarke, Associate Professor of Cellular Microbiology at the University of Reading, said:

“In the absence of any data from Pfizer and BioNTech, we have to take these very exciting claims at face value.  It seems highly unlikely that a major pharmaceutical company would get such eagerly awaited news wrong.  The trials are not over yet and the manufacturers are right to remind people that more data on effectiveness and safety are needed, plus there are production and distribution problems to be overcome, but these should not be beyond the wit of human ingenuity.  If this vaccine makes it to the clinic, it will be the first instance of this strategy (an mRNA vaccine) being effective and could open up many other avenues for diseases where there currently is no vaccine.”

Prof Fiona Watt, Executive Chair of the Medical Research Council, said:

“This is very encouraging news – and provides grounds for optimism that other vaccines will also show benefits.  What really strikes me though is the fantastic contribution of the many volunteers who have taken part in the trial, including over 40% from diverse backgrounds – without their altruism the trial could not have gone ahead.”

Dr Alexander Edwards, Associate Professor in Biomedical Technology, Reading School of Pharmacy, University of Reading, said:

“The enormous effort that has gone into producing a candidate vaccine and testing at this scale should be celebrated, and achieving impressive interim phase three results like these is a great relief.  The next stage, assuming safety and efficacy continues to be seen over longer times with ever larger groups, will still be a monumental undertaking.  With all vaccines, ensuring that they are stored distributed and administered properly is essential, and huge efforts are underway to ensure this is possible for new vaccines.

“For example, the task of producing substantial amounts of a new vaccine and disturbing widely will be a challenge, not least for this particular formulation where ensuring that it can be appropriately frozen until needed and must not be allowed to thaw in transit.  Some reports have indicated this particular vaccine requires storage at -80 centigrade, needing specialist storage and distribution.

“I’m confident that institutions and businesses will be reacting rapidly with efforts similar to what we saw in the Spring when they stepped up to support increasing testing and PPE production.  Medicine manufacturing and distribution networks and the healthcare professions (pharmacists, nurses, GPs as well as manufacturers and distributors) who together deliver vaccine services will be under pressure and we must invest in and support these vital sectors wherever possible.”

Prof Gary McLean, Professor in Molecular Immunology, London Metropolitan University, said:

“This is very promising indeed.  Whilst the interim results do only investigate a relatively small number of confirmed cases (not clear the proportion of these 94 confirmed cases in vaccine vs placebo groups) this is a good sign and encouraging that the vaccine is apparently protecting against infection rather than only protecting against symptom severity.  More to come when further results are released but looking good so far with tens of thousand in the study and no safety concerns at this stage.”

Prof Eleanor Riley, Professor of Immunology and Infectious Disease, University of Edinburgh, said:

“At face value, this is exceptionally good news: a vaccine that is 90% effective at preventing symptomatic cases of COVID-19 and with millions of doses available by the end of the year.

“However, the full data set on which the claim is based has not yet been released and so we don’t know exactly what has been found.  The two companies are at pains to point out that the trial participants are ethnically diverse, which is good, but say nothing about the age of people in the trial.  If a vaccine is to reduce severe disease and death, and thus enable the population at large to return to their normal day-to-day lives, it will need to be effective in older and elderly members of our society.  We also know nothing yet about the severity of cases that were seen in the trial, whether infection or infectiousness was prevented, or how long the immunity is expected to last.

“But, I think we have reason to be cautiously optimistic.”

Prof Peter Horby, Professor of Emerging Infectious Diseases and Global Health in the Nuffield Department of Medicine, University of Oxford, said:

“This news made me smile from ear to ear.  It is a relief to see such positive results on this vaccine and bodes well for COVID-19 vaccines in general.  Of course we need to see more detail and await the final results, and there is a long long way to go before vaccines will start to make a real difference, but this feels to me like a watershed moment.”

Prof Brendan Wren, Professor of Microbial Pathogenesis, London School of Hygiene & Tropical Medicine, said:

“A 90% efficacy for a phase 3 trial is excellent for a new vaccine that could make a huge difference, but more confirmatory safety and efficacy studies are required.  The RNA-based vaccine requires two doses and its true efficacy over a longer period of time remains to be evaluated.  These are encouraging results and it is a case of so far so good.”

Prof Lawrence Young, Professor of Molecular Oncology, Warwick Medical School, said:

“This is a very timely and encouraging development in the race to get an effective vaccine.  It is difficult to fully evaluate the interim data without more information but it appears that

the vaccine is able to protect against COVID-19 disease.  The big question is whether the vaccine can block virus infection and subsequent transmission.  This additional data will be generated as further confirmed cases are identified and analysed.  This trial is using a mRNA-based vaccine containing the SARS-CoV-2 spike protein combined with a lipid nanoparticle.  Almost all of the other vaccines using different technology platforms are focussing on the same virus spike protein.  So it is likely that some of these other vaccines will also be able to prevent COVID-19.  The challenge with the distribution of the

Pfizer vaccine is the need to store and maintain the vaccine at very low temperatures (-70 to -80 degrees C).”

Dr Michael Head, Senior Research Fellow in Global Health, University of Southampton, said:

“This cautiously sounds like an excellent result from the phase 3 trials, but we should remain a little cautious.  The provisional findings are made available in a press release, and the study is ongoing.  However, if the final results show an effectiveness of anywhere near 90% with response in elderly and ethnic minority populations, that is an excellent result for a first generation vaccine.  This has been seen before – the rapidly-produced Ebola vaccine generated very high levels of effectiveness and exceeded all expectations.  Equally, billions of dollars and numerous clinical trials have struggled to produce any form of vaccination against HIV.  Science can be unpredictable.

“If this Pfizer vaccine candidate is licensed, there will be difficulties around logistics and distribution.  It has been reported that the vaccine requires storage at -70 degrees centigrade, and that is not necessarily routinely available in most health centres even in the UK, let alone globally.”

Prof Azra Ghani, Chair in Infectious Disease Epidemiology, Imperial College London, said:

“These new results represent the first demonstration of substantial efficacy of a vaccine candidate against COVID-19 disease which is very welcome news.  It is important to bear in mind that these are early results based on a relatively small number of cases.  In addition, the efficacy estimate is based on 7 days of follow-up of participants following the second dose; further data in the coming weeks and months will provide a better picture of longer-term vaccine efficacy.”

Prof Ian Jones, Professor of Virology, University of Reading, said:

“Of all the current vaccine currently in development the BioNtech product always looked like the most bang-per-buck as it is entirely focused on the part of the virus that binds to the human cell, the receptor binding domain.  The questions around its use were about the ability to manufacture at scale and the possible toxicity associated with a directly injected RNA product.  The trial data show excellent results in both of those areas, really impressive protection and no reported adverse events.  The only things we will not know for some time is the longevity of the response in all age groups, but assuming antibody titres are high that should be at least as good as any other vaccine currently in trial.  More generally this would appear to indicate that this approach has legs and is likely to useful for other emerging disease.”

https://www.pfizer.com/news/press-release/press-release-detail/pfizer-and-biontech-announce-vaccine-candidate-against


All our previous output on this subject can be seen at this weblink:

www.sciencemediacentre.org/tag/covid-19

Declared interests

Prof Robin Shattock: “Robin Shattock is leading Imperial College’s self-amplifying RNA COVID-19 vaccine project.  He is a co-founder of VacEquity Global Health, a social business committed to making Imperial’s self-amplifying vaccine globally available at affordable costs should it be shown to be effective.”

Dr Jeremy Farrar: “Jeremy Farrar is a member of the UK Vaccine Task Force.”

Prof Rowland Kao: “No competing interests.”

Dr Zania Stamataki: “I have no conflict of interest to declare.”

Dr Rupert Beale: “No COIs.”

Dr Stephen Griffin: “No conflicts.”

Prof Stephen Evans: “No conflicts of interest.  I am funded (one day per week) by LSHTM.  They get funding from various companies, including Astra Zeneca and GSK but I am not funded by them, I have no involvement in obtaining funding from them and I am not an investigator on any grants obtained from them.  I am the statistician to the ‘meta-Data Safety and Monitoring Board’ for CEPI.  I am paid for my attendance at those meetings and will be paid expenses for travel if that occurs.”

Dr Andrew Preston: “I am part of a project on which Sanofi and GSK Vaccines are partners, and that receives funding from BMGF, but it is in pertussis vaccine pre clinical platforms, nothing to do with COVID.”

Prof Paul Hunter: “No financial conflicts that I know of and I do not work in vaccine development or advise anybody on vaccines.”

Dr Simon Clarke: “None.”

Prof Fiona Watt: “None.”

Dr Alexander Edwards: “I can confirm I have no conflicts of interest around vaccine development.”

Prof Gary McLean: “No conflict of interest to declare.”

Prof Eleanor Riley: “Eleanor Riley is a member of the UKRI Covid-19 research taskforce and the UK Vaccines Network.”

Prof Peter Horby: “Chief Investigator of the RECOVERY trial.”

Prof Brendan Wren: “None at all.”

Prof Lawrence Young: “I have no conflicts of interest.”

Dr Michael Head: “I have no conflicts of interest to declare.”

Prof Azra Ghani: “I don’t think I have any conflicts but note that I am providing advice to WHO and WHO-Europe on vaccine modelling to support allocation.”

Prof Ian Jones: “No conflicts.”

None others received.

Pfizer Avoided R&D Funding From Trump's Operation Warp Speed Because of Bureaucracy, Politics

Pfizer clarified its relationship with Operation Warp Speed on Monday afternoon, after earlier comments from the pharmaceutical company's research-and-development chief seemed to indicate it did not have ties to the White House program. Donald Trump's administration launched the initiative near the onset of the coronavirus pandemic. It was designed with intentions to produce and distribute 300 million doses of safe, effective COVID-19 vaccines by January, in coordination with contracted companies.
© KENA BETANCUR/AFP via Getty Images 
Pfizer's global headquarters building is photographed on November 9 in New York City. The pharmaceutical company shared early results of its late-stage COVID-19 vaccine trial on Monday, which indicated the candidate was "more than 90 percent effective."

Although Pfizer did agree to distribute at least 100 million doses of its vaccine, if proven safe and effective, to the U.S. government for nearly $2 billion under Operation Warp Speed, company personnel have made a point to note that it financed research and development independently.

"Pfizer is proud to be one of various vaccine manufacturers participating in Operation Warp Speed as a supplier of a potential COVID-19 vaccine," a Pfizer spokesperson said in a statement sent to Newsweek Monday afternoon. "While Pfizer did reach an advanced purchase agreement with the U.S. government, the company did not accept BARDA [Biomedical Advanced Research and Development Authority] funding for the research and development process," the statement continued.

Pfizer declined the R&D funding in order to "liberate" scientists from bureaucratic limitations as they worked to develop a COVID-19 vaccine, the pharmaceutical company's CEO, Dr. Albert Bourla, said in a September interview with CBS News' Margaret Brennan.

"If [Pfizer's vaccine program] fails, it goes to our pocket," Bourla said, responding to a question from Brennan about why the company risked shouldering the financial burden of research and development when it could have received BARDA funding through Operation Warp Speed.

"At the end of the day, it's only money. That will not break the company, although it is going to be painful because we are investing one billion and a half at least in COVID right now," the CEO added. "But the reason why I did it was because I wanted to liberate our scientists from any bureaucracy."

Later, Bourla told Brennan he wanted to ensure researchers were able to focus on "scientific challenges" exclusively, and allow the company to pursue a potential vaccine candidate without pressures that accompany outside intervention or oversight.

"When you get money from someone that always comes with strings. They want to see how we are going to progress, what type of moves you are going to do. They want reports," he finished. "And also, I wanted to keep Pfizer out of politics, by the way."

Bourla's September comments circulated on social media Monday, after Pfizer shared results of an early examination into its vaccine program, developed in coordination with German biotechnology company BioNTech. According to Pfizer's latest update, preliminary trial data indicated the immunization candidate was "more than 90 percent effective" in protecting against COVID-19.

There are 3 critical areas where we must demonstrate success before filing for EUA of our #COVID19 vaccine

Evidence of efficacy in most vaccinated patients

Evidence of safety w/ data from thousands of patients

Manufactured consistently at the highest quality standards— Pfizer Inc. (@pfizer) November 9, 2020


The report was not yet published by a peer-reviewed publication at the time of Pfizer's announcement, which ushered in a wave of questions from scientists upon release Monday. The company said it plans to apply for regulatory approval from the U.S. Food and Drug Administration during the third week of November, once additional data is collected.

The announcement was met with celebratory messages from Trump and Vice President Mike Pence, who credited "the public-private partnership forged by President @realDonaldTrump" in a tweet responding to Pfizer's update.

Kathrin Jansen, the head of vaccine research and development at Pfizer, subsequently distanced the immunization program from Operation Warp Speed in comments to The New York Times.

"We were never part of the Warp Speed," she told the newspaper. "We have never taken any money from the U.S. government or from anyone."

In Pfizer's follow-up statement, the company said Jansen "was emphasizing" the fact that "all the investment for R&D was made by Pfizer at risk."
General Motors to add 3,000 tech jobs

© Reuters/Edgard Garrido FILE PHOTO: Logo of General Motors is pictured at its plant in Silao

(Reuters) - U.S. automaker General Motors Co said on Monday it would hire 3,000 employees across its engineering, design and IT divisions to increase diversity and contribute to its electric vehicle platform.

The hiring is expected to take place from now, through the first quarter of 2021, the company said.

"This will clearly show that we're committed to further developing the software we need to lead in EVs," GM President Mark Reuss said.

General Motors' Chief Executive Mary Barra said https://www.reuters.com/article/us-gm-results-idCAKBN27L1N0 last week the automaker will boost capital spending over the next three years to speed up development of electric vehicles.
Virgin Hyperloop hosts first human ride on new transport system

By Eric M. Johnson
Virgin Hyperloop (formerly Hyperloop Technologies, Hyperloop One and Virgin Hyperloop One) is an American transportation technology company that works to commercialize the high-speed technology concept called the Hyperloop. The company was established on June 1, 2014 and reorganized and renamed on October 12, 2017.

VIDEO Virgin transports passengers in high-speed pod
https://www.reuters.com/video/?videoId=OVD3UPOY3&jwsource=em

SEATTLE (Reuters) - Richard Branson’s Virgin Hyperloop has completed the world’s first passenger ride on a super high-speed levitating pod system, the company said on Sunday, a key safety test for technology it hopes will transform human and cargo transportation.

Virgin Hyperloop executives Josh Giegel, its Chief Technology Officer, and Sara Luchian, Director of Passenger Experience, reached speeds of up to 107 miles per hour (172 km per hour) at the company’s DevLoop test site in Las Vegas, Nevada, the company said.

“I had the true pleasure of seeing history made before my very eyes,” said Sultan Ahmed Bin Sulayem, Chairman of Virgin Hyperloop and Group Chairman and Chief Executive of DP World.




Los Angeles-based Hyperloop envisions a future where floating pods packed with passengers and cargo hurtle through vacuum tubes at 600 miles an hour (966 kph) or faster.

In a hyperloop system, which uses magnetic levitation to allow near-silent travel, a trip between New York and Washington would take just 30 minutes. That would be twice as fast as a commercial jet flight and four times faster than a high-speed train.



The company has previously run over 400 tests without human passengers at the Nevada site.

The test comes a month after Reuters first reported that Virgin Hyperloop picked the U.S. state of West Virginia to host a $500 million certification center and test track that will serve as a proving ground for its technology.

The company is working toward safety certification by 2025 and commercial operations by 2030, it has said.
Canada’s Transpod and Spain’s Zeleros also aim to upend traditional passenger and freight networks with similar technology they say will slash travel times, congestion and environmental harm linked with petroleum-fueled machines.


Reporting by Eric M. Johnson, Editing by Rosalba O’Brien






The Very First Forms of Life May Have Been More Animal-Like Than We Ever Realised

(Momir Futo/RuÄ‘er BoÅ¡ković Institute) 
Catholic University of Croatia.
NATURE

TESSA KOUMOUNDOUROS
18 OCTOBER 2020

Early life may have been far more like animals than we thought, suggests new research that shows bacteria can 'develop' like an embryo.

When bacteria band together, they ooze out a protective communal home of slime to form thriving, densely packed colonies known as biofilms. Together these teeny organisms are more powerful.

Within the safety of the biofilm, they can better withstand environmental changes, communicate long-range to cells outside their communities, and even share a collective memory of sorts – essentially behaving like one multicellular organism.

Now an international team of researchers led by evolutionary geneticist Momir Futo from the Ruđer Bošković Institute in Croatia has discovered biofilms develop like a multicellular organism, too.

Most cells on Earth live in the form of these biofilms. They can be composed of multiple species, and we're increasingly finding more ways in which they act like multicellular beings – including division of labour, programmed cell death, and self-recognition.

Bacillus subtilis biofilms. (Momir Futo/Ruđer Bošković Institute)
Catholic University of Croatia.

In the lab, Futo and the team investigated rod-shaped Bacillus subtilis, which is commonly found in soil, cows, and us. The researchers established a timeline of gene expression across the whole biofilm as it developed, from a few initial cells until it was two months old.

They also compared the products of the bacteria's genes with those of others in its family tree, mapping out a timeline for their evolutionary relationships.

"Surprisingly, we found that evolutionary younger genes were increasingly expressed towards the later timepoints of biofilm growth," explained geneticist Tomislav Domazet-Lošo from the Catholic University of Croatia.

The order of gene expression during biofilm growth mirrors the timing of these genes' evolution - just like the expressions of genes in developing animal embryos.

And that is not the only way the biofilms mimicked embryogenesis (the development of an animal embryo). The step-by-step organisation of the gene expression observed is also seen in embryos, as is a big increase in communication between cells during the middle of development, which in the biofilm coincides with growing 3D wrinkles.

"This means that bacteria are true multicellular organisms just like we are," said Domazet-Lošo. "Considering that the oldest known fossils are bacterial biofilms, it is quite likely that the first life was also multicellular, and not a single-celled creature as considered so far."

The phylostratigraphy method the researchers used is relatively new and still has some questions around its reliability, so the team double-checked their results using older genetic tools, and found they supported their findings.

The team cautions these results are limited to single-species biofilms in laboratory conditions, so more research is required to see if the findings also hold true in the natural environment with multi-species interactions.

It also remains to be seen if other embryogenesis features – like localised waves of new gene expressions – are also present in biofilms. But the similarities they have observed are quite striking.

As biofilms are responsible for more than 80 percent of microbial infections in our bodies, they would certainly also play a large role in how our friendly bacteria function too, so understanding how these not-so-single organisms develop and work together could help with a myriad of medical problems.

"It is indisputable that the cell is the basic unit of life; however, that does not readily imply that the first life was strictly unicellular," the researchers concluded.

This research was published in Molecular Biology and Evolution.

Geologists Solve Crucial Mystery Surrounding The Deposits of Rare Earth Elements



A small piece of neodymium. (Images of Elements/CC BY 3.0)
NATURE


PETER DOCKRILL
12 OCTOBER 2020

An international team of scientists has helped to unravel a longstanding mystery about how rare earth element deposits form underground – and sometimes seem to disappear without a trace.

Rare earth elements (REEs) are a set of 17 valuable chemical elements that are incredibly important in manufacturing technological devices, being used as critical raw materials in everything from smartphones to disk drives, wind turbines, satellites, electric vehicles, medical equipment, and more.

Although their name suggests they are rare, they can in fact be relatively abundant resources in Earth's crust; their scattershot dispersion makes them difficult to isolate and extract from under the surface, let alone in environmentally friendly ways.

Because of this, concentrated REE deposits are a highly coveted natural resource, and scientists are continually looking into devising new and better ways of finding and securing the valuable minerals.

In a new study led by geologist Michael Anenburg from Australian National University, researchers wanted to explore the chemical mechanisms by which REEs form under the surface, specifically in and around the igneous carbonatite rock closely associated with the elements.

"These rare rocks and their altered and weathered derivatives provide most of the world's REE," the researchers explain in their new paper.

"No unified model explains all features of carbonatite-associated REE deposits, strongly impairing exploration required to secure future supply."

To investigate the mineralisation processes behind carbonatite-associated REE deposits, Anenburg and his team simulated what happens when carbonatite rock heats up under high pressure, before cooling and depressurising much like it would in natural magmatic processes.

Putting small amounts of synthetic carbonatite into silver or nickel capsules in a piston-cylinder apparatus, the researchers subjected the samples to temperatures of up to 1,200 °C (2,192 °F) at pressures up to 2.5 gigapascals (GPa), before gradually decompressing and cooling them down to 200 °C (392 °F) and 0.2 GPa.

"The aim was to understand what concentrates REE from an entire carbonatite body to a high grade localised deposit," Anenburg explained on his Twitter account.

"So we decided let's put a carbonatite in a capsule and test it ourselves."

Before now, it had been thought that certain ligands – molecules capable of binding to REEs, including chlorine and fluorine – were necessary to make REEs soluble, capable of mobilising the chemicals into crystallised concentrations capable of extraction.

But that's not what the experiment showed. Instead, the results suggest that alkaline chemicals are required for REE transport in and around carbonatites as a precursor for economic-grade mineralisation, with the experiment showing that sodium and potassium helped to render the REEs soluble.

According to the researchers, alkali-bearing carbonatites are capable of forming REE-rich fluids that can migrate long distances in magmatic-like conditions, while retaining high REE solubilities.

Of course, just because we've seen this in lab conditions, doesn't necessarily mean we'd observe the same exact reactions in the open systems of nature, in which the presence of water and all other sorts of chemicals in the environment could change things.

Still, it's a step forward, and one that overhauls our knowledge on the background processes involved in REE formation and concentration.

"This is an elegant solution that helps us understand better where 'heavy' rare earths like dysprosium and 'light' rare earths like neodymium may be concentrated in and around carbonatite intrusions," explains senior author and geologist Frances Wall from the University of Exeter in the UK.

"We were always looking for evidence of chloride-bearing solutions but failing to find it. These results give us new ideas."

The findings are reported in Science Advances.

Daycares in Finland Built a 'Forest Floor', And It Changed Children's Immune Systems


(Halfpoint Images/Getty Images)

CARLY CASSELLA
22 OCTOBER 2020

Playing through the greenery and litter of a mini forest's undergrowth for just one month may be enough to change a child's immune system, according to a small new experiment.

When daycare workers in Finland rolled out a lawn, planted forest undergrowth such as dwarf heather and blueberries, and allowed children to care for crops in planter boxes, the diversity of microbes in the guts and on the skin of young kids appeared healthier in a very short space of time.

Compared to other city kids who play in standard urban daycares with yards of pavement, tile and gravel, 3-, 4-, and 5-year-olds at these greened-up daycare centres in Finland showed increased T-cells and other important immune markers in their blood within 28 days.

"We also found that the intestinal microbiota of children who received greenery was similar to the intestinal microbiota of children visiting the forest every day," says environmental scientist Marja Roslund from the University of Helsinki.

One daycare before (left) and after introducing grass and planters (right).
 (University of Helsinki)

Prior research has shown early exposure to green space is somehow linked to a well-functioning immune system, but it's still not clear whether that relationship is causal or not.

The experiment in Finland is the first to explicitly manipulate a child's urban environment and then test for changes in their micriobiome and, in turn, a child's immune system.

While the findings don't hold all the answers, they do support a leading idea - namely that a change in environmental microbes can relatively easily affect a well-established microbiome in children, giving their immune system a helping hand in the process.

The notion that an environment rich in living things impacts on our immunity is known as the 'biodiversity hypothesis'. Based on that hypothesis, a loss of biodiversity in urban areas could be at least partially responsible for the recent rise in immune-related illnesses.

"The results of this study support the biodiversity hypothesis and the concept that low biodiversity in the modern living environment may lead to an un-educated immune system and consequently increase the prevalence of immune-mediated diseases," the authors write.

The study compared the environmental microbes found in the yards of 10 different urban daycares looking after a total of 75 kids between the ages of 3 and 5.

Some of these daycares contained standard urban yards with concrete and gravel, others took kids out for daily nature time, and four had their yards updated with grass and forest undergrowth.

Over the proceeding 28 days, kids in these last four daycares were given time to play in their new backyard five times a week.

When researchers tested the microbiota of their skin and gut before and after the trial, they found improved results compared to the first group of kids that played in daycares with less greenery for the same amount of time.

Even in that short duration of the study, researchers found microbes on the skin and guts of children who regularly played in green spaces had increased in diversity - a feature which is tied to an overall healthier immune system.

Their results largely matched the second group of kids at daycares who had outings for daily nature time.

Among kids who got outside, playing in the dirt, the grass and among the trees, an increase in a microbe called gammaproteobacteria appeared to boost the skin's immune defence, as well as increase helpful immune secretions in the blood and reduce the content of interleukin-17A, which is connected to immune-transmitted diseases.

"This supports the assumption that contact with nature prevents disorders in the immune system, such as autoimmune diseases and allergies," says Sinkkonen.

The results aren't conclusive and they will need to be verified among larger studies around the world. Still, the benefits of green spaces appear to go beyond our immune systems.

Research shows getting outside is also good for a child's eyesight, and being in nature as a kid is linked to better mental health. Some recent studies have even shown green spaces are linked to structural changes in the brains of children.

What's driving these incredible results is not yet clear. It could be linked to changes to the immune system, or something about breathing healthy air, soaking in the sun, exercising more or having greater peace of mind.

Given the complexities of the real world, it's really hard to control for all the environmental factors that impact our health in studies.

While rural children tend to have fewer cases of asthma and allergies, the available literature on the link between green spaces and these immune disorders is inconsistent.

The current research has a small sample size, only found a correlation, and can't account for what children were doing outside daycare hours, but the positive changes seen are enough for scientists in Finland to offer some advice.

"It would be best if children could play in puddles and everyone could dig organic soil," encourages environmental ecologist Aki Sinkkonen, also from the University of Helsinki.

"We could take our children out to nature five times a week to have an impact on microbes."

The changes are simple, the harms low, and the potential benefits widespread.

Bonding with nature as a kid is also good for the future of our planet's ecosystems. Studies show kids who spend time outdoors are more likely to want to become environmentalists as adults, and in a rapidly changing world, that's more important than ever.

Just make sure everyone's up to date on their tetanus vaccinations, Sinkkonen advises.

The study was published in the Science Advances.
The Mystery of The Platypus Deepens With The Discovery of Its Biofluorescent Fur

(Anich et al., Mammalia, 2020)
NATURE

CARLY CASSELLA
31 OCTOBER 2020

Scientists are seeing the Australian platypus in a whole new light. Under an ultraviolet lamp, this bizarre-looking creature appears even more peculiar than normal, glowing a soft, greenish-blue hue instead of the typical brown we're used to seeing.

The recent discovery has not been found in any other monotreme species, and it has scientists wondering: Have we been overlooking an ancient world of fluorescent fur?

"Biofluorescence has now been observed in placental New World flying squirrels, marsupial New World opossums, and the monotreme platypus of Australia and Tasmania," the authors write.

"These taxa, inhabiting three continents and a diverse array of ecosystems, represent the major lineages of Mammalia."

(Anich et al., Mammalia, 2020)

Over the centuries, biofluorescence has been reported in various plants, fungi, fruits, flowers, insects, and birds. It's only recently, however, that scientists have begun to actively track down examples in the animal kingdom. Many discoveries to date were simply happenstance.

In 2015, for instance, scientists chanced upon the first fluorescent sea turtle while looking for glowing coral. Two years later, the first fluorescent frog was found unexpectedly, and the team advised others to "start carrying a UV flashlight to the field".

Among mammals, the first example of biofluorescence was reported in 1983 in the Virginia opossum, the only marsupial in North America. But it wasn't until 2017, and by complete accident, that researchers uncovered something similar in North America's flying squirrels (Glaucomys), which are categorized as placental mammals.

While conducting a night survey of lichens, researchers were amazed to turn their LED torch on a bright, bubble-gum pink flying squirrel.

One of the only things the opossum and squirrel share in common is their nocturnal lifestyles. This is also when biofluorescence is at its strongest, which suggests the trait might be common among mammals most active at night, dawn, or dusk.

Like flying squirrels and opossums in North America, platypuses in Australia are also active at night. However, they are separated from these other animals by some 150 million years of evolution.

Australia's hidden glows

Relatively little attention has been paid to biofluorescence in Australia's animals. But if they also have glowing fur, the trait might be far more ancient and potentially more common among mammals than we thought.

"It was a mix of serendipity and curiosity that led us to shine a UV light on the platypuses at the Field Museum," recalls biologist Paula Spaeth Anich from Northland College.

"But we were also interested in seeing how deep in the mammalian tree the trait of biofluorescent fur went."

Researchers began with two stuffed museum specimens, a male and a female collected in Tasmania. These creatures' fur was found to absorb short UV wavelengths and then emit visible light, fluorescing green or cyan.

Examining another platypus specimen collected from New South Wales, researchers found the same thing.

"The pelage of this specimen, which was uniformly brown under visible light, also biofluoresced green under UV light," the authors write.

To their knowledge, the team says this is the first time biofluorescence has been reported in monotremes. However, in June of this year, a member of The Queensland Mycological Society claimed to have discovered a road-killed platypus with a similar glow.

"The fur of the platypus mostly appeared dark/purple as expected under the UV light, but some of it turned moss green, although not brightly so," writes Linda Reinhold in the society's non-peer-reviewed newsletter.

Reinhold also found two northern brown bandicoots on the road with fluorescent pink fur, and she did manage to snap those.
Lighting up the dark

It's still too early to say what advantage this trait might give nocturnal mammals – our sample sizes are too small – although scientists have a few ideas.

In 2017, when the flying squirrels were discovered with biofluorescent fur, some thought it might have to do with camouflage since many trees are covered in biofluorescent moss and lichen.

However, the bandicoots found by Reinhold are ground-dwelling mammals, and their fluorescence may make them stick out.

This be an advantage, depending on the circumstances. For some birds, their biofluorescent feathers play a part in mating rituals. Fish use the trait to communicate among themselves.

Yet in the platypus, both the male and female specimens showed similar fluorescence, suggesting the trait isn't sexually dimorphic. What's more, because the platypus usually swims with its eyes closed, the glow in its fur probably isn't there to communicate with others of its kind.

Instead, researchers think it might help camouflage the platypus from other UV-sensitive nocturnal predators or prey by absorbing UV light instead of reflecting it.

Further study is needed in the wild before we can say for sure what is going on. We don't even know how the biofluorescence of this fur even works, and the benefits of this trait might vary from species to species.

Still, the fact that this strange glow exists across the fur of egg-laying monotremes, marsupials, and placental mammals suggests it has deep roots.

If nothing else, the discovery is a nice reminder of our sheer ignorance.

The study was published in Mammalia.
Latino Democrats tell Mexican president to get with the program and back Biden

By Anthony Esposito
NOVEMBER 8, 2020

MEXICO CITY (Reuters) - The Mexican president’s hesitation over congratulating Joe Biden on his U.S. presidential election win drew flack from several Latino Democratic lawmakers, warning it risked souring a restart to bilateral ties after years of tension under Donald Trump.

In an apparent bid to avoid friction with Trump, who has often used Mexico as a veritable political piñata, Mexican President Andres Manuel Lopez Obrador said on Saturday that he was going to wait until “all the legal matters have been resolved” before commenting on the results of the U.S. election.

Democratic Texas lawmaker Joaquin Castro, head of the House of Representatives Foreign Affairs Committee’s oversight subcommittee, took to Twitter to categorize the move as “a stunning diplomatic failure.”

Lopez Obrador’s decision comes “at a time when the incoming Biden administration is looking to usher in a new era of friendship and cooperation with Mexico,” said Castro, who was a member of President Barack Obama’s cabinet.

A Biden presidency is seen as a chance to reset ties under stress since Trump made his first White House bid, tarring Mexican migrants as rapists and gun-runners and vowing to keep them out with a border wall.

Castro was one of at least a half dozen Democratic lawmakers who criticized the Mexican president, including Arizona state senator Martin Quezada who said “this is beyond disappointing.”


Mexico’s foreign minister Marcelo Ebrard said the government had been in touch with Biden’s and Trump’s teams in recent hours and would remain in contact in the coming days.

“Whether it’s keeping the (relationship) with Trump or establishing it with Biden, who has known President Lopez Obrador since 2012, the objective will be to have the best possible relationship,” Ebrard was quoted as saying by local newspaper Reforma.

Ebrard said Mexico’s ties to the United States were strategic, and that Lopez Obrador had demonstrated since taking office how seriously he took the bilateral relationship.

Lopez Obrador has needed to walk a fine line with Trump, whose term is scheduled to end on Jan. 20. Under Trump’s administration, Mexico has had to navigate abrupt demands to stem illegal migration or face trade tariffs.

Lopez Obrador came into office in late 2018 promising a more humane touch with the tens of thousands of migrants, mostly Central Americans fleeing from entrenched violence and poverty, that traverse Mexico to get to the U.S. southern border.

But after Trump threatened to upend $600 billion in annual bilateral trade with Mexico, Lopez Obrador used the newly created National Guard military police to help stem the flow of migrants and acquiesced to have migrants wait for their U.S. court dates on Mexican soil.

“AMLO has been a co-conspirator in Donald Trump’s efforts to undermine the human rights of vulnerable asylum seekers,” said Congresswoman Veronica Escobar, using an acronym for Lopez Obrador’s name.

His reluctance to comment on the U.S. election results stands in contrast to the wave of congratulations for Biden from other world leaders despite Trump’s protests that the election is not over.

Trump has filed a raft of lawsuits to challenge the election results, but electoral officials in states across the country say there has been no evidence of significant fraud, and legal experts say Trump’s efforts are unlikely to succeed.

“President Lopez Obrador, American voters have spoken and Joe Biden is our President Elect. He won fair and square. Don’t get left behind by the train,” warned Mexican-born Congressman Jesus “Chuy” Garcia.

Reporting by Anthony Esposito, Dave Graham and Frank Jack Daniel; Additional reporting by Raul Cortes Fernandez, Editing by Chizu Nomiyama and Kenneth Maxwell