From The NIH: The Director’s Blog
The National Institutes of Health (@NIH), a part of the U.S. Department of Health and Human Services, is the nation’s medical research agency — making important discoveries that improve health and save lives.
About the NIH Director
Francis S. Collins, M.D., Ph.D. (@NIHDirector) was appointed the 16th Director of NIH by President Barack Obama and confirmed by the Senate. He was sworn in on August 17, 2009. In this role, Dr. Collins oversees the work of the largest supporter of biomedical research in the world, spanning the spectrum from basic to clinical research. Here are some excerpts from the his latest blog posts with links to read in entirety.
New Clues to Delta Variant’s Spread in Studies of Virus-Like Particles
About 70,000 people in the United States are diagnosed with COVID-19 each and every day. It’s clear that these new cases are being driven by the more-infectious Delta variant of SARS-CoV-2, the novel coronavirus that causes COVID-19. But why does the Delta variant spread more easily than other viral variants from one person to the next?
Now, an NIH-funded team has discovered at least part of Delta’s secret, and it’s not all attributable to those widely studied mutations in the spike protein that links up to human cells through the ACE2 receptor. It turns out that a specific mutation found within the N protein coding region of the Delta genome also enables the virus to pack more of its RNA code into the infected host cell. As a result, there is increased production of fully functional new viral particles, which can go on to infect someone else.
Early Data Suggest Pfizer Pill May Prevent Severe COVID-19
Over the course of this pandemic, significant progress has been made in treating COVID-19 and helping to save lives. That progress includes the development of life-preserving monoclonal antibody infusions and repurposing existing drugs, to which NIH’s Accelerating COVID-19 Therapeutic Interventions and Vaccines (ACTIV) public-private partnership has made a major contribution.
But for many months we’ve had hopes that a safe and effective oral medicine could be developed that would reduce the risk of severe illness for individuals just diagnosed with COVID-19. The first indication that those hopes might be realized came from the announcement just a month ago of a 50 percent reduction in hospitalizations from the Merck and Ridgeback drug molnupiravir (originally developed with an NIH grant to Emory University, Atlanta). Now comes word of a second drug with potentially even higher efficacy: an antiviral pill from Pfizer Inc. that targets a different step in the life cycle of SARS-CoV-2, the novel coronavirus that causes COVID-19.
Teaching the Immune System to Attack Cancer with Greater Precision
To protect humans from COVID-19, the Pfizer and Moderna mRNA vaccines program human cells to translate the injected synthetic messenger RNA into the coronavirus spike protein, which then primes the immune system to arm itself against future appearances of that protein. It turns out that the immune system can also be trained to spot and attack distinctive proteins on cancer cells, killing them and leaving healthy cells potentially untouched.
While these precision cancer vaccines remain experimental, researchers continue to make basic discoveries that move the field forward. That includes a recent NIH-funded study in mice that helps to refine the selection of protein targets on tumors as a way to boost the immune response. To enable this boost, the researchers first had to discover a possible solution to a longstanding challenge in developing precision cancer vaccines: T cell exhaustion.
Israeli Study Shows How COVID-19 Immunity Wanes over Time
The winter holidays are approaching, and among the many things to be grateful for this year is that nearly 200 million Americans are fully vaccinated for COVID-19. That will make it safer to spend time with friends and family, though everyone should remain vigilant just to be on the safe side. Though relatively uncommon, breakthrough infections are possible. That’s why the CDC recommends booster shots for several at-risk groups, including folks 65 years and older, those with underlying medical conditions, and people whose occupations place them at high risk of exposure.
One of the main studies providing the evidence for CDC’s recommendation was recently published in the New England Journal of Medicine. It found that vaccine-induced immunity, while still quite protective against infection and severe illness from COVID-19, can wane after several months.