Monday, August 29, 2022

LAUGHING GAS

Key mechanisms of airway relaxation in asthma revealed in new study

Novel role for nitric oxide in treatment of asthma and other obstructive airway diseases detailed by team at University Hospitals and Case Western Reserve University

Peer-Reviewed Publication

UNIVERSITY HOSPITALS CLEVELAND MEDICAL CENTER

CLEVELAND--Many therapeutics for asthma and other obstructive lung diseases target the β2-adrenergic receptor (β2AR), a G protein-coupled receptor (GPCR) that rapidly supports airway relaxation when stimulated. Yet, overuse of these agents is associated with adverse health outcomes, including death, which has limited their utility as frontline therapies.  

Now, a mouse model study published in today’s issue of Molecular Cell, from investigators at University Hospitals (UH) and Case Western Reserve University, identifies a novel strategy to isolate the beneficial effects of β2AR stimulation. This suggests a new therapeutic approach to airway diseases as well as numerous other conditions involving the aberrant function of GPCRs.

“Not only is the β2-adrenergic receptor the mainstay for keeping airways open, it's often studied as a prototype for how GPCRs work, which constitute the targets of 50% of all drugs,” explained Jonathan S. Stamler, MD, President, Harrington Discovery Institute at UH, Robert S. and Sylvia K. Reitman Family Foundation Distinguished Professor of Cardiovascular Innovation, and Professor of Medicine and Biochemistry at UH and Case Western Reserve School of Medicine.

“Our discovery highlights an obvious benefit to asthma and it's exemplary of what to expect in GPCR regulation. It opens the area for broad-based research in maximizing the therapeutic benefits of GPCRs.”

All GPCRs, including the β2AR, operate via a feedback loop in which the same molecules that the receptors help generate can circle back and turn the receptors “off” or inactivate them. In the new study, the research team reveal nitric oxide to be a key molecule in the β2AR feedback loop, showing that the production of nitric oxide after β2AR stimulation mediates airway relaxation, but overproduction of the molecule also inactivates β2AR, leading to bronchoconstriction.

“If you prevent that feedback, you’re left with a very powerful airway relaxant that before now had not been thought to be that important in airway relaxation,” said Dr. Stamler.

The study also demonstrates that mice harboring a specific mutation in the β2AR gene that prevents nitric oxide from binding to and inactivating the receptor are resistant to bronchoconstriction, inflammation, and asthma.

Other GPCR receptors shown in the study to be regulated by nitric oxide-based protein modification include the βadrenergic receptor and the angiotensin II receptor 1.

“Nitric oxide should be thought of as a key new player in how this class of receptors works,” Dr. Stamler added. “It’s responsible for both the beneficial effects of the receptors and for turning them off. And if you can understand how they're being turned off--how that nitric oxide is popping on to the receptor--and you can block that, you're going to be left with a new pathway for opening airways. The next step in our research will focus on leveraging this new pathway therapeutically.”

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Fonseca, F. V., Stamler, J.S., et al. S-nitrosylation is required for β2AR desensitization and experimental asthma. Molecular Cell (2022). DOI: 10.1016/j.molcel.2022.06.033.

About University Hospitals / Cleveland, Ohio
Founded in 1866, University Hospitals serves the needs of patients through an integrated network of more than 20 hospitals (including five joint ventures), more than 50 health centers and outpatient facilities, and over 200 physician offices in 16 counties throughout northern Ohio. The system’s flagship quaternary care, academic medical center, University Hospitals Cleveland Medical Center, is affiliated with Case Western Reserve University School of Medicine, Northeast Ohio Medical University, Oxford University and the Technion Israel Institute of Technology. The main campus also includes the UH Rainbow Babies & Children's Hospital, ranked among the top children’s hospitals in the nation; UH MacDonald Women's Hospital, Ohio's only hospital for women; and UH Seidman Cancer Center, part of the NCI-designated Case Comprehensive Cancer Center. UH is home to some of the most prestigious clinical and research programs in the nation, with more than 3,000 active clinical trials and research studies underway. UH Cleveland Medical Center is perennially among the highest performers in national ranking surveys, including “America’s Best Hospitals” from U.S. News & World Report. UH is also home to 19 Clinical Care Delivery and Research Institutes. UH is one of the largest employers in Northeast Ohio with more than 30,000 employees. Follow UH on LinkedInFacebook and Twitter. For more information, visit UHhospitals.org.

About Case Western Reserve University
Case Western Reserve University is one of the country's leading private research institutions. Located in Cleveland, we offer a unique combination of forward-thinking educational opportunities in an inspiring cultural setting. Our leading-edge faculty engage in teaching and research in a collaborative, hands-on environment. Our nationally recognized programs include arts and sciences, dental medicine, engineering, law, management, medicine, nursing and social work. About 5,800 undergraduate and 6,300 graduate students comprise our student body. Visit case.edu to see how Case Western Reserve thinks beyond the possible.

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