Narrower Research Focus Could Aid Treatment for Autoimmune Diseases
Police pursuing a dangerous criminal rely on witness descriptions of the suspect’s specific traits — height, weight, hair color, tattoos — to pick out the perpetrator from a vast population of mostly innocent individuals. Scientists can likewise distinguish between highly similar cell types using cutting-edge laboratory procedures. Using such techniques, IRP researchers have identified a particular variety of cell in a specific stage of its life cycle as a primary culprit behind the autoimmune disease known as lupus.
NIH Researcher Recognized for Enhancing the Molecular Understanding of Immune Responses
The National Academy of Sciences (NAS), established in 1863, is comprised of the United States’ most distinguished scientific scholars, including nearly 500 Nobel Prize winners. Members of the NAS are elected by their peers and entrusted with the responsibility of providing independent, objective advice on national matters related to science and technology in an effort to advance innovations in the United States.
IRP senior investigator Michael Lenardo, M.D., is one of four IRP researchers elected to the NAS over the past two years. At the NIH, Dr. Lenardo serves as Chief of the Molecular Development of the Immune System Section at the NIH’s National Institute of Allergy and Infectious Diseases (NIAID), where he studies how the cells in the immune system mount protective responses to various pathogens, including viruses and bacteria. A major focus of Dr. Lenardo’s work is the investigation of genetic abnormalities in the immune system, which have the potential to cause life-threatening diseases.
Volunteering for Studies Allows Me to Help Myself and Others
Watching my dad carry the luggage to the car has become an all-too-familiar sight. It’s time for my mom and me to head to the NIH again, another trip in a lifelong journey for answers. I give my dad a long hug goodbye, and then I watch him stand alone in the driveway as we back away. The gravel arduously aches and crunches under our tires, a sound as uncomfortable as my symptoms even on my good days — few as there are.
Event Spotlights Students Completing Their Ph.D. Research in IRP Labs
The NIH provides an extraordinarily rich environment for learning and honing the skills needed to pursue a scientific career. It’s no wonder, then, that Ph.D. students from institutions all across the United States and the rest of the world come here to conduct their dissertation research under the mentorship of the IRP’s many renowned investigators.
Nearly 150 of those students presented the fruits of their scientific work at the NIH’s 16th annual Graduate Student Research Symposium on Thursday, February 20. The insights they have produced on topics from cancer to autoimmune disease to environmental contaminants were supremely impressive and will likely contribute to important improvements in medical care in the future. For anyone who missed this exciting event, read on to learn about a few of the many research projects that were on display.
Decreased Energy Production Could Contribute to Cancer-Related Fatigue
We all know the feeling of being wiped out after a hard workout or a grueling day at the office — you just want to flop down on the couch and not move, or even think. For many cancer patients, the treatment for their disease can trigger that sort of physical and mental exhaustion for weeks or months. New IRP research has found evidence linking this phenomenon, known as cancer-related fatigue, to a slow-down in cells’ energy-producing mitochondria.
Our friend and former colleague Phil Leder, among the world's most accomplished molecular geneticists, died on Sunday, February 2, at age 85. His work with Marshall Nirenberg — namely, the famed Nirenberg and Leder experiments starting at the NIH in 1964, which definitively elucidated the triplet nature of the genetic code and culminated in its full deciphering — helped set the stage for the revolution in molecular genetic research that Phil himself would continue to lead for the next three decades.
Alteration Helps Prospective Drug Persist Longer in Rodents’ Bodies
Even the best construction crew cannot repair a building if it is called away from the site before it can begin its work. Similarly, while the body’s ability to cleanse itself of chemicals can prevent the buildup of toxins, it can also stymie the therapeutic effects of medications. IRP researchers recently found that modifying a prospective treatment for heart failure to help it persist longer in the body boosted its beneficial effects in mice.
As happens with every new year, many people around the world woke up on January 1 committed to improving their health through eating well and exercising. These lifestyle changes have the potential to significantly improve the well-being of the 32 percent of American adults who are overweight and the 40 percent who are obese. Due to the staggering number of individuals struggling with obesity, as well as its serious health consequences, the condition has long been a main priority for researchers at the NIH. As a result of this focus, investigators have made significant strides in identifying biological signals that trigger hunger, understanding genetic influences that play a role in weight gain, and uncovering environmental and behavioral factors that influence obesity.
Study Shows How Molecular Trespasser Gains Entry into Cells’ Energy Producers
As a fan of the long-running animated sitcom The Simpsons, I’ve witnessed the bumbling Homer Simpson cause several near-meltdowns at the nuclear power plant where he works. Serious problems can arise at such facilities when the wrong person gains access to them, and the same applies to the energy-producing mitochondria that power our cells. A new IRP study has revealed how a protein known to harm neurons gains entry into mitochondria in order to wreak cell-killing havoc.
Smoking While Pregnant Affects a Woman’s Genes Differently From Her Baby’s
Decades of public health campaigns have made the health consequences of smoking common knowledge. However, for the few women who smoke while pregnant, the habit can affect not only their own bodies but also those of their unborn children. Intriguingly, according to a new study led by IRP researchers, so-called ‘epigenetic’ changes to DNA that can alter the behavior of genes differ significantly in smoking mothers compared to their babies, suggesting that maternal smoking may have unique, long-lasting effects on the way a child’s body functions.
This page was last updated on Friday, January 14, 2022
