Dr. Noor White Traces Evolution to Identify Genes Critical for Vision
The eye has existed in some form for roughly 600 million years. Its many intricate components and the general ability of organisms to sense light have continued to adapt and evolve over huge spans of time into what we know as vision today. By mapping out the evolution of vision, Noor White, Ph.D., hopes to shed light on the genetic causes of diseases that affect the retina, the part of the eye that turns light into electrical signals the brain can use to build an image of our surroundings.
“If we can take a step back and look at the bigger picture, then we can identify the critical genetic components of vision,” explains Dr. White, who was an IRP postdoctoral fellow for four years before becoming a Staff Scientist in March.
Nursing Research Leader Sheds Light on How Neighborhoods Influence Health
When you think about public health, city planning might not be the first thing that comes to mind. Yet where we live — the quality of the buildings, the availability of places to walk and play safely, and the types of schools and stores in the neighborhood — can profoundly affect our health. This relationship has been emphasized by the COVID-19 pandemic, as close, stuffy living conditions, the need to take public transportation to essential jobs, and inequities in access to testing and vaccination sites all contributed to the larger reduction in life expectancy for Black and Latino Americans compared to Caucasians over the last two years.
Shannon N. Zenk, Ph.D., M.P.H., R.N., F.A.A.N., Director of the National Institute of Nursing Research (NINR), was elected to the National Academy of Medicine in 2021 for her research into how neighborhood characteristics affect the health of residents and contribute to the health disparities seen between communities with different racial and ethnic makeups and different levels of income.
Pushing Cells to Their Limits Could Enable Earlier Diagnosis and Treatment
If the many stories of mothers lifting cars to save their trapped children prove anything, it’s that we cannot know the true capabilities of our bodies until they are put to the test. This concept, it turns out, could be the key to much earlier diagnosis for Parkinson’s disease. By stimulating specific neurons to push them to their limits, IRP researchers were able to detect Parkinson’s in mice in its very early stages, opening up the possibility that a similar test could one day allow human patients to begin treatment before the disease has caused too much damage.
IRP Researchers Aim to Regenerate Damaged Salivary Glands
It’s easy to take our saliva for granted. Most people have so much of it that they think nothing of spitting it out into a trash can when they finish chewing a stick of gum. Perhaps only people who have lived without it truly understand the great gift that is a perpetually moist mouth.
“Persistent dry mouth causes lots of problems with quality of life, and people forget how important saliva is until they lose it,” says IRP senior investigator Matthew Hoffman, B.D.S., Ph.D.
In honor of World Oral Health Day on March 20, a celebration of scientific efforts to reduce the burden of oral disease, I talked with Dr. Hoffman about his lab’s efforts to understand the biology of salivary gland dysfunction and translate that knowledge into treatments that bring relief to the many people suffering from it.
IRP Researchers Find Link Between Dementia and Byproducts of Cholesterol Breakdown
When most people think about Alzheimer’s disease, the liver is probably the organ least likely to come to mind. Yet recent IRP research suggests that molecules called bile acids, which are synthesized in the liver, may influence the development of Alzheimer’s disease. In honor of Brain Awareness Week this week, we’re diving into that work to learn how such an unlikely target could help lead to new treatments for Alzheimer’s and other forms of dementia.
To date, efforts to develop therapies for Alzheimer’s disease, which affects more than 6 million Americans over the age of 65, have achieved little success. Many scientists are focused on proteins in the brain as potential treatment targets, including the ‘amyloid-beta’ protein now infamous amongst Alzheimer’s researchers. In contrast, IRP senior investigator Madhav Thambisetty, M.D., Ph.D., has been exploring the role that cholesterol might play in the development of Alzheimer’s and vascular dementia, which is marked by microscopic bleeding and blood vessel blockage and is the second most common form of dementia.
IRP’s Ph.D. and Medical Students Present Research at Virtual Event
The IRP isn’t concerned only with discovering the secrets of how our bodies work and developing new therapies to treat disease. Senior scientists and many other employees at NIH also are actively involved in training the next generation of researchers. One place where the benefits of those efforts is strikingly clear is at NIH’s annual Graduate Student Research Symposium, where graduate students performing research in NIH labs show of the fruits of their partnerships with IRP researchers.
On February 16 and 17, more than 100 of the IRP’s graduate students presented their work virtually at the 18th edition of the event. These young scientists discussed the results of studies on a huge range of topics, from how hunger changes during pregnancy to how viruses cause cancer. Read on to learn about a small sampling of the projects they’ve been hard at work on.
Mouse Study Suggests Treatment Strategy Could Benefit Patients with Obesity
It’s bad enough that the excess abdominal fat carried by most individuals with obesity causes widespread inflammation throughout their bodies. To add insult to injury, that inflammation actually makes it harder to use up overloaded fat stores. However, a new IRP mouse study supports a two-pronged pharmaceutical approach that could break this vicious cycle and help improve the health of people with obesity.
IRP Researchers Discover Genetic Disorder Affecting the Brain and Skull
A baby is born with a birth defect every four and a half minutes in the United States, adding up to one in every 33 babies born each year in this country. While some birth defects can be corrected or treated, many result in life-altering disabilities, and sometimes the child doesn’t survive. In fact, birth defects account for about 20 percent of infant deaths in the U.S. World Birth Defects Day, celebrated on March 3 each year, honors the people and organizations who are working to understand, prevent, and treat birth defects.
One of these organizations is the Undiagnosed Diseases Program (UDP) at NIH, which connects experts across the IRP’s 23 Institutes and Centers in a joint effort to find explanations for the “most puzzling medical cases" referred to the NIH Clinical Center.
NIH History Office Highlights Contributions of Black Employees
Every February, we celebrate Black History Month to spotlight the huge contributions Black Americans have made to our nation’s culture, as well as commemorate their ongoing fight for fair treatment under the law. Just as Black individuals have had tremendous influence on the U.S. as a whole, they have also achieved great things at NIH, demonstrating the critical importance of diversity within the scientific community.
In honor of Black History Month, we’re highlighting people and programs that championed diversity at NIH. Read on to learn about just a few examples of how diversity has evolved at NIH and how Black employees have helped advance its mission.
Since the early days of the COVID-19 pandemic, IRP researchers have been hard at work learning about the virus and developing ways to prevent and treat infections. That research remains as important as ever, particularly as the new Omicron variant of the virus continues to spread rapidly.
Fortunately, NIH’s Intramural Targeted Anti-COVID-19 Program (ITAC) has been providing IRP scientists with millions of dollars to support their research on the pandemic virus, known as SARS-CoV-2. Last week, the “I Am Intramural” blog discussed ITAC-funded efforts to learn about the biology of the virus and how it affects the body. This week, we’ll look at IRP projects focused on ways to track, treat, and prevent infections.
This page was last updated on Friday, January 14, 2022