New Receptors and Radioactively Labeled Molecules Could Provide Useful Tools for Research and Medicine
Wednesday, March 17, 2021
Genetically modifying neurons to enable scientists and clinicians to influence brain activity probably sounds like the stuff of science fiction. However, the technology has existed for more than a decade, allowing scientists to make important leaps in understanding how neurons communicate with one another in healthy individuals and those with psychological and neurological conditions. What’s more, recent improvements to these tools developed by researchers led by IRP investigator Mike Michaelides, Ph.D., may allow neurologists to use them to deliver drugs to just the right brain cells to treat those ailments effectively without the side effects caused by current treatments.
Alteration Helps Prospective Drug Persist Longer in Rodents’ Bodies
Tuesday, February 4, 2020
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.
Therapeutic Strategy Enhances Natural Blood Sugar Control
Tuesday, October 1, 2019
Just like Sonny needed Cher to achieve music super-stardom and Stephen Curry needed Kevin Durant to win back-to-back NBA championships, sometimes a cell or molecule in the human body needs a partner’s assistance to work optimally. IRP researchers recently showed that a synergy between a lab-designed drug and a molecule naturally produced in the body could make for a promising therapy for type 2 diabetes.
Thursday, January 24, 2019
“That machine? You’re gonna have to get up close and personal with it,” Josh, my fellow postbac, told me. I looked at this small metal contraption and nodded, trying to appear as if I understood, while thinking: he just means that people spend so much time sectioning organs on the microtome that it’s like spending an extended amount of time with a loved one, right?
Fast forward a few days, and I find myself breathing warm, moist air onto a paraffin-embedded mouse lung to soften the wax, just before I slice four-micrometer sections of mouse lung tissue that will later be stained and examined under a microscope. “He wasn’t kidding,” I muttered.
Thursday, December 13, 2018
It was picture day, and I sat stiffly in front of a wrinkly blue curtain, nervously patting my hair into place. “You can smile, but just make sure no teeth are showing,” the person taking my picture told me. I laughed at that, and she also laughed, adding, “Everyone gets a good chuckle out of that one,” as she snapped my photo. A few days later, I picked up my photo, printed (not so) nicely with a vertical stripe running down my face. I didn’t even notice. I thought, this is real, as I proudly held up my official NIH ID badge.
Monday, May 7, 2018
On Wednesday, May 2, hundreds of researchers gathered at NIH’s Natcher Conference Center to show off their recent discoveries. But unlike a typical scientific conference, the letters “M.D.” and “Ph.D.” were noticeably absent from these scientists’ credentials. Instead, the event — NIH’s annual Postbac Poster Day — celebrated the accomplishments of individuals participating in the NIH Postbaccalaureate Intramural Research Training Award (IRTA) Program.
Friday, April 8, 2016
Like many in the second wave of women scientists at the National Institutes of Health, Dr. Margaret Kelly began as a technician and got her PhD while she was working. Kelly focused on what caused cancer and what drugs could be used to fight it.
Tuesday, March 8, 2016
From genetic studies to pharmacology, the Orloff Science Awards honor the remarkable work and responsibilities our researchers undertake every day to make a difference in the world—science that truly matters and impacts human health.