Monday, December 11, 2023

Milestones in Europe: First results in using new tools to tackle respiratory syncytial virus

Protecting infants from respiratory syncytial virus (RSV) with new tools: vaccines for pregnant women and use of monoclonal antibodies have been approved for use in the European Union to prevent RSV among young children. Are those tools working?

Peer-Reviewed Publication

EUROPEAN CENTRE FOR DISEASE PREVENTION AND CONTROL (ECDC)

Advancing understanding of respiratory syncytial virus through genomic surveillance — IMAGE:
PHYLOGENETIC TREE OF RESPIRATORY SYNCYTIAL VIRUS G AND F SEQUENCES PUBLISHED IN GISAID (N = 2,314 RSV A; N = 2,875 RSV B)
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CREDIT: EUROSURVEILLANCE

Each year, an estimated 101,000 children below the age of 5 years die across the globe due to infections caused by respiratory syncytial virus (RSV). Worldwide, RSV is a main cause of hospitalisation among young children. [1]

It took more than 60 years to develop and approve vaccines against RSV that can now be used to immunise both elderly people and pregnant women in the European Union (EU). In addition, a long-acting monoclonal antibody (nirsevimab) was licensed in the EU for use in infants end of 2022. Both events marked a milestone in the attempt to prevent RSV infections especially in very young children.

In an editorial in Eurosurveillance, Eeva Broberg and Hanna Nohynek [2] look at these recent advances and which supporting measures might be needed to understand the actual burden of RSV, its annual circulation patterns and genomic evolution.

For that understanding to improve, Broberg and Nohynek argue that “sequencing data need to be collected and reported to publicly accessible databases. As for other respiratory viruses and most infectious diseases, under-ascertainment will remain an issue for RSV surveillance in general as patients may present late for testing after the infection or not even be tested if they present with mild symptoms.”

Overcoming the challenges of sequencing RSV
To illustrate the current changes in tackling RSV infections across Europe, Broberg and Nohynek relate to the rapid communication in the same Eurosurveillance issue. Iglesias-Caballero et al. describe two PCR-based sequencing systems for RSV that can be used as methods to monitor the genetic diversity of the virus and with that inform molecular epidemiology, vaccine effectiveness and treatment strategies.

The authors show that their approach is less labour-intensive and less costly and presents the opportunity to increase laboratory capacities and probably also shorten throughput times. According to Broberg and Nohynek, the study from Spain demonstrates that the method outlined by Iglesias-Caballero et al. “can be used in retrospective molecular epidemiological studies of RSV and even with the simplified approach to sequence only the G and F gene genome, molecular evolution of RSV could be assessed.”

Complementing this RSV article from Spain, Martinón-Torres et al. [3] review first experiences in the autonomous community Galicia (northern Spain) following the implementation of universal RSV prophylaxis in infants with long-acting monoclonal antibodies. Both Spain and France have already introduced nirsevimab in their national immunisation programmes.

Based on the findings in Galicia, the early uptake of nirsevimab, which had a range of 81–98% in this region according to the study, has exceeded expectations. This immunisation achievement is the result of successful targeting and rationally designed immunisation logistics. According to the authors, the implementation and motivation of parents to immunise their children was likely facilitated by the quite intense RSV epidemic in Europe during the autumn 2022 in combination with awareness raising campaigns.

As Broberg and Nohynek put it, “the value of the work of Martinón-Torres et al. lies not only in the clear and meticulous description of how implementation challenges were approached, i.e. by distinguishing infants belonging to the seasonal and catch-up or high-risk groups, which provides an excellent example to other European countries, but also in the fact that Galicia will be able to answer the burning question on whether universal introduction of nirsevimab in the real- world setting is a cost-effective intervention on the short as well as the long run. If preventing RSV infection in early life can reduce asthma later in life, the impact of the intervention will be manifold.”

The European Centre for Disease Prevention and Control and the World Health Organization Regional Office for Europe have agreed on an integrated respiratory surveillance, which also includes RSV, and the weekly results are published in the European Respiratory Virus Surveillance Summary

----Ends----

References/notes to editors:
[1] Li Y, Wang X, Blau DM, Caballero MT, Feikin DR, Gill CJ, et al. Global, regional, and national disease burden estimates of acute lower respiratory infections due to respiratory syncytial virus in children younger than 5 years in 2019: a systematic analysis. Lancet. 2022;399(10340):2047-64. https://doi.org/10.1016/S0140-6736(22)00478-0 PMID: 35598608

[2] Broberg Eeva K, Nohynek Hanna. Respiratory syncytial virus infections – recent developments providing promising new tools for disease prevention. Euro Surveill. 2023;28(49):pii=2300686. https://doi.org/10.2807/1560-7917.ES.2023.28.49.2300686

[3] Martinón-Torres Federico, Mirás-Carballal Susana, Durán-Parrondo Carmen. Early lessons from the implementation of universal respiratory syncytial virus prophylaxis in infants with long-acting monoclonal antibodies, Galicia, Spain, September and October 2023. Euro Surveill. 2023;28(49):pii=2300606. https://doi.org/10.2807/1560-7917.ES.2023.28.49.2300606

[4] Respiratory syncytial virus (RSV) is a common respiratory virus that causes mild, cold-like symptoms. People who contract RSV usually recover in around a week without the need for medical treatment. However, in infants under six months of age, people over 65, and people with a compromised immune system, RSV can cause severe illness and death. Symptoms usually appear two to eight days after being infected. Read more: https://www.ecdc.europa.eu/en/respiratory-syncytial-virus-rsv

JOURNAL

Eurosurveillance

DOI

10.2807/1560-7917.ES.2023.28.49.2300606

METHOD OF RESEARCH

Commentary/editorial

ARTICLE TITLE

Respiratory syncytial virus infections – recent developments providing promising new tools for disease prevention

ARTICLE PUBLICATION DATE

7-Dec-2023

COI STATEMENT

Hanna Nohynek: Co-lead of Work package 2 of the Innovate Health Initiative’s Preparing for RSV Immunisation and Surveillance in Europe (PROMISE) project (https://imi-promise.eu), member of the National Immunization Technical Advisory Group of the Finnish Institute for Health and Welfare, and chair of the Strategic Advisory Group of Experts of the World Health Organization.

40 years after the discovery of HIV, research raises hopes of remission

Meeting Announcement

INSTITUT PASTEUR

One of the very first photographs of the HIV-1 virus — IMAGE:
ONE OF THE VERY FIRST PHOTOGRAPHS OF THE HIV-1 VIRUS (COLORIZED BLUE) TAKEN ON FEBRUARY 4, 1983.
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CREDIT: © INSTITUT PASTEUR/CHARLES DAUGUET

Nearly 39 million people worldwide are carriers of human immunodeficiency virus (HIV), and 1.3 million people contracted HIV in 2022[1]. Forty years after the virus was discovered at the Institut Pasteur, HIV research is still active – the aim is to elucidate the mechanisms of infection so that the virus can be eradicated. A concerted global effort has led to considerable progress in knowledge. The conference "40 years of HIV science," which took place from November 29 to December 1 at the Institut Pasteur in collaboration with ANRS | Emerging Infectious Diseases, was an opportunity to look back at the major advances that are now raising hopes of remission and a cure for HIV.

For the past 40 years, since HIV was identified at the Institut Pasteur, scientists have been working to describe the virus and to understand the different stages from initial infection to integration in the host cell genome. This knowledge has led to considerable scientific and medical progress to slow infection, and has also improved the life expectancy and quality of life of people living with HIV. The participants in the opening session of the conference "40 years of HIV science" share the observation that although there have been major breakthroughs, the battle against HIV is not over, even if they have high hopes of finding avenues for remission and a cure: "I salute all these years of research, medical progress and activism, but there are still many challenges to overcome. Despite all the progress made, 630,000 people died from AIDS in 20221 and new infections continue to occur. The fight against HIV is not over. This international battle continues, and no one will be left behind!" said Stewart Cole, President of the Institut Pasteur.

Forty years after the discovery of HIV, basic research continues to shed light on mechanisms of infection

In response to these challenges, several different fields of investigation are being actively explored, especially to elucidate the molecular mechanisms that underpin HIV replication and viral integration into the host cell genome. State-of-the-art techniques have led to the surprising discovery that the virus targets the cell nucleus. It exploits host cell mechanisms to multiply its genome and produce viral particles that infect other cells. This discovery that HIV targets the cell nucleus opens new avenues for tackling viral replication and persistence. Another approach under exploration is innate immunity, in other words the body's defenses, which can be harnessed to block the virus as soon as it enters the cell. It may be possible to stimulate this natural response by developing immunotherapy treatments.

Removing the virus from all the cells in the body where it is present is crucial to avoid viral persistence. Scientists are using new technologies to understand how the virus evades the immune system and antiretroviral treatments to remain in reservoirs, and to determine the location of these viral reservoirs. Lymph nodes and intestines are among the reservoirs that scientists are investigating closely.

Analyzing the natural ability of some individuals to suppress the virus

How is it that some people are able to suppress HIV without antiretroviral treatment, by slowing its progression or preventing the reactivation of viral reservoirs? These people are able to control HIV infection because of an optimal immune response that neutralizes the virus. One strategy that is being explored as a novel therapeutic solution to overcome HIV infection is to attempt to reproduce the particularities of the immune cells responsible for this optimal response.

"The identification of HIV control in some individuals has significantly boosted hopes of remission and cure and has given us a unique opportunity to study the underlying mechanisms," explains Asier Sáez-Cirión, Head of the Institut Pasteur's Viral Reservoirs and Immune Control Unit.

Scientists are also interested in people who, despite repeated exposure to HIV, have never been infected because they have a genetic mutation that stops the virus from entering their cells. This mutation could be induced by gene therapy. Developing molecular scissors to make the body resistant or targeting the virus to eliminate it after its integration in the cell are fields of study that might pave the way to a long-term cure.

Using social sciences to make sure therapeutic innovation is accessible to everyone

As well as the challenges in medical research to improve our understanding of the mechanism of action of HIV infection, there are also societal challenges. Patient organizations, scientists and researchers in social sciences have been working together for the past 40 years to change attitudes to HIV and AIDS by tackling discrimination and the stigma attached to people living with HIV and by calling on authorities to help improve prevention and early diagnosis. The availability of rapid diagnostic tests is one of the tangible results of this collective effort. Therapeutic innovation alone is not enough – it needs to go hand in hand with targeted, relevant programs that will reach people at risk of HIV infection. The aim of the community-based research that has developed as part of the fight against HIV is to complement existing knowledge to reduce inequalities in access and to tailor strategies to patients' real-life circumstances. 9.2 million people living with HIV still did not have access to antiretroviral treatment in 2022. Access to antiretroviral treatment and infection prevention methods like PrEP (pre-exposure prophylaxis) is also a social battle that is being fought by stakeholders in the war against HIV.

To achieve the goal of eradicating HIV, the members of the international community that attended the conference confirmed that we need to double down on our efforts to explore all the scientific avenues that are opened with each new discovery related to the virus, and to step up work on prevention and access to therapies.

Finally, it is worth noting that the expertise that has developed in the field of HIV research over the past 40 years has also helped us tackle other diseases, including the recent COVID pandemic.

[1] UNAIDS

Engaging heterosexual men more effectively could slash HIV infections in Uganda

Peer-Reviewed Publication

IMPERIAL COLLEGE LONDON

Football event — IMAGE:
COMMUNITY LEADERS IN SOUTHERN UGANDA AND RAKAI HEALTH SCIENCES PROGRAM RESEARCH STAFF PARTICIPATE IN A COMMUNITY FOOTBALL TOURNAMENT TO RAISE AWARENESS FOR HIV
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CREDIT: RAKAI HEALTH SCIENCES PROGRAM

A study looking at 15 years of HIV transmission and suppression in Uganda reveals how closing gender gaps in treatment could slash infection rates.

Providing more heterosexual men with easy access to HIV treatment and care could help to suppress the virus and rapidly cut transmission to their female partners, shows a new study published in Nature Microbiology.

The research, led by scientists from Imperial College London and the Rakai Health Sciences Program in Uganda, analysed 15 years of data from 2003-2018, during which the US President’s Emergency Plan For AIDS Relief (PEPFAR) has delivered an extensive programme of HIV/AIDS testing, prevention, and treatment.

This included distributing Antiretroviral Therapy (ART) drugs, which supress the virus so a person is no longer infectious. The analysis shows that the PEPFAR program and other services have greatly reduced new infections among young women and heterosexual men, but that reductions were less substantial in women aged 25 and above.

This is thought to be because women are more likely to reach viral suppression through uptake and effective use of HIV treatment, preventing them from passing HIV to their male partners, but that the same is not true the other way around.

Gender disparity

The analysis showed that the number of women reaching and maintaining undetectable (non-transmissible) levels of HIV infection were 1.5 to 2 times higher than men across all ages by the year 2018. The analysis shows that had men reached the same levels of virus suppression as women, around half the new infections that occurred between 2016 and 2018 could have been avoided.

The team also reconstructed transmission networks based on the genetic code of the virus from thousands of participants, which confirmed that overall, the proportion of transmissions from men is increasing and is now at 63% of all transmissions in the area – even though a greater number of women are living with HIV than men.

The team say the disparity could be because men need to travel for work, that clinics are closed when they are back home, or for other reasons, including social stigma.

Dr Oliver Ratmann, senior author of the study from the Department of Mathematics at Imperial, said: “In this evolving battle against HIV, it is critical we adapt our strategies, bridge gaps in care, and ensure that individuals, regardless of their gender, have access to the lifesaving benefits of ART.

“It is important to design services in a way that everybody who would like to use them is able and feels empowered to do so. By routinely monitoring the changing dynamics of the epidemic and striving for equity in HIV care, we can move closer to the ultimate goal of controlling and, one day, eliminating HIV transmission.”

Dr Kate Grabowski, a co-author of the study from the Johns Hopkins School of Medicine, added: “The continued success of the President's Emergency Plan for AIDS Relief (PEPFAR) in reducing infections and saving lives is crucial for ending HIV transmission. With United States Congress currently evaluating PEPFAR funding, our evidence strongly supports the program's efficacy and provides a clear roadmap to ending the pandemic through enhanced HIV treatment coverage, particularly among men.”

Closing the gap in transmission

The team used data from the Rakai Community Cohort Study (RCCS) in southern Uganda, a region where more than 9% of adults are living with HIV – approximately 20 times higher than in the US. Since 2003, a period predating the widespread availability of ART in Africa, RCCS has enrolled nearly 37,000 individuals, tracking changes in HIV infection as new interventions came on board.

The analysis tracked evolving heterosexual HIV epidemic dynamics in 36 communities over a 15-year span of RCCS surveillance data, including records of new infections, deep sequence HIV genomic data, HIV treatment uptake, viral suppression, and behavioural information.

Analyses in earlier years showed that the highest number of new HIV cases in southern Uganda was among adolescent girls and young women aged 15-24 years. In more recent years tracked in the new study, women 25-34 years old have become a new focal group, experiencing a slower decline in new infections than other age groups. This is alongside a significant difference in the declines in new infections between men and women, with those among boys and men declining much faster.

To estimate the likely impact of getting men to the same level of viral suppression, the team applied statistical models based on the data about transmission dynamics. The resulting projections indicate that closing the viral suppression gap in men could have effectively halved rates of new infections among women and eliminated gender disparities in acquiring HIV.

Dr Joseph Kagaayi, previous director of the Rakai Health Sciences program and senior co-author of the study, said: “Our study findings emphasise the importance of addressing disparities in ART uptake and viral suppression between men and women. By doing so, we can not only reduce HIV infections among women but also work towards closing the gender gap in HIV transmission. Achieving these goals will require concerted efforts, informed policies, and strengthened healthcare services.”