STEM-Talk

By: Dawn Kernagis and Ken Ford
  • Summary

  • The most interesting people in the world of science and technology
    Florida Institute for Human and Machine Cognition
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Episodes
  • Episode 174: Rudy Tanzi talks about genetics, aging and the hallmarks of Alzheimer’s
    Oct 25 2024
    Today we have Dr. Rudolph E. Tanzi, who is perhaps best known for co-discovering all three familial early-onset Alzheimer's disease genes. In addition, Rudy’s lab was the first to use human stem cells to create three-dimensional human brain organoids and three-dimensional neural-glial culture models of Alzheimer’s disease, which became known as “Alzheimer’s-in-a-Dish.” These models were the first to recapitulate all three of the key pathological hallmarks of Alzheimer’s disease and have made drug screenings faster and cheaper. Rudy is the director of the Genetics and Aging Research Unit as well as the director of the Henry and Allison McCance Center for Brain Health. Rudy is also co-Director of the Massachusetts General Institute for Neurodegenerative Disease at Massachusetts General Hospital and serves as the Joseph P. and Rose F. Kennedy Professor of Neurology at Harvard Medical School. Rudy has published more than 700 research papers and is one of the top 50 most cited neuroscientists in the world. He is author of “Decoding Darkness,” and a co-author of two books with Deepak Chopra, “Super Brain” and “The Healing Self.” Show notes: [00:03:18] Ken opens the interview mentioning that Rudy began playing the accordion when he was just seven years old. Ken goes on to ask Rudy about the time his father gave him a Jimmy Smith album and some advice. [00:05:51] Ken mentions that, in addition to Rudy’s musical talents, he was also interested in science growing up. Ken asks about Rudy’s participation in the Westinghouse Science Talent Search and what that experience was like. [00:07:09] Ken asks Rudy about growing up in Cranston, Road Island. [00:08:39] Rudy talks about how he ended up at the University of Rochester after high school. [00:09:51] Ken mentions that both Rudy’s grandfather and father passed away at the age of 45. Ken asks Rudy if this played a role in his pursuit of a career in genetics research. [00:10:57] Rudy explains how he chose Harvard Medical School for his Ph.D. [00:12:47] Ken pivots to ask Rudy about his time working with Jim Gusella in the early 80’s at Mass General, where they were the first to ever find a disease gene. Family studies at the time had shown that the Huntington's disease gene was linked to a polymorphic DNA marker. Rudy talks about this discovery and how the chromosomal localization of the Huntington's disease gene was the first step in using recombinant DNA technology to identify the primary genetic defect in this disorder. [00:16:07] Ken asks Rudy about his work in 1987, when he discovered the first Alzheimer’s gene, recombinant DNA technology, which causes the production of amyloid. Ken goes on to explain that mutations in the APP gene can cause a rare form of early onset Alzheimer’s. Rudy talks about the paper that came out in “Science” that detailed this discovery. [00:18:38] Rudy discusses his personal philosophy and approach to research. [00:19:43] Ken mentions that in Rudy’s book, Decoding Darkness, he writes that few nightmares on Earth can compare to Alzheimer’s disease. Ken asks Rudy to talk more about this book. [00:21:50] Ken explains that in the same way our physical capabilities will suffer some form of decline with age, it is also expected that we have some decline in memory and cognitive ability as we age as well. However, Ken goes on to say that when people begin to experience age-related memory lapses, it can lead to a lot of anxiety about their genetic predisposition to Alzheimer’s. Ken asks Rudy to talk about the lifestyle factors that play into whether someone predisposed to develop Alzheimer’s can stave off or avoid disease development. [00:26:09] Ken explains that aging appears to intensify when people stop challenging themselves with new things. Given this, Ken asks Rudy what his thoughts are on challenging our brains as they age to protect our cognitive abilities. [00:29:08] Ken asks Rudy about the principal advances in...
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    1 hr and 9 mins
  • Episode 173: Anurag Singh on urolithin-A’s ability to optimize mitochondrial efficiency
    Sep 23 2024
    Our guest today is Dr. Anurag Singh, the chief medical officer at Timeline Nutrition, a Swiss life-science company that focuses on ways to improve mitochondrial and cellular health. Anurag is particularly known for his research into the gut metabolite, urolithin-A, which has been shown to improve muscle strength, protect immune systems and optimize mitochondrial efficiency. Anurag is an MD in internal medicine with a Ph.D. in immunology. He has led more than 50 randomized clinical trials, many of them focusing on urolithin-A over the past decade. In today’s episode we talk to Anurag about his investigations into urolithin-A and the role it plays as a postbiotic that enhances mitochondrial function. Foods that contain the polyphenols needed to produce urolithin-A include pomegranates, strawberries, raspberries and walnuts. Show notes: [00:02:48] Marcas starts the interview by mentioning that Anurag grew up in India, in Lucknow, and asks what Anurag’s childhood was like. [00:03:56] Marcas follows up, asking Anurag what he was like as a kid, given the competitive environment he grew up in. [00:04:47] Ken asks Anurag if it is true that, at an early age, his parents noticed he was gifted in biology and encouraged him to think about pursuing medical school. [00:05:47] Ken asks if Anurag started medical school at only 18 years of age. [00:06:28] Marcas explains that Anurag went to India’s Armed Forces Medical College for training in internal medicine and asks if it is true that this is one of India’s top medical schools. [00:07:07] Marcas explains that it is typical for graduates from the India Armed Forces Medical College to serve a few years in the Indian army after graduation. Marcas asks Anurag to tell the story of how he was able to go to the U.S. post-graduation rather than serving time in the army. [00:08:00] Ken asks if Anurag’s interest in medical research led him to pursue a Ph.D. in immunology. [00:08:56] Ken asks Anurag what his Ph.D. research was on. [00:09:37] Marcas mentions that in 2009, Anurag accepted a position at Nestlé at a time when the company was entering into the space between food and pharma. Marcas asks Anurag how this move came about. [00:11:20] Ken explains that Anurag quickly became medical director at Nestlé and started initiating clinical trials around food and allergies, as well as research on aging and how the immune system declines with age. Ken asks Anurag to explain what his time at Nestle was like. [00:12:53] Marcas mentions how the shift from practicing physician to research scientist is an interesting course and asks Anurag to talk about a mentor who gave him the advice that led to his career shift. [00:13:55] Ken mentions that in 2014 Anurag joined a Swiss company, Amazentis, as chief medical officer, and later became the lead for their medical and clinical research strategies. Ken asks Anurag to talk about the company and the work he does. [00:15:00] Ken asks Anurag to describe the relationship between Amazentis and Timeline. [00:15:42] Marcas asks Anurag to elaborate on his biotech approach to nutrition science, and how hard biology is used in his nutritional approaches at Amazentis. [00:18:02] Marcas asks Anurag to give listeners an overview of the function and importance of mitochondria. [00:19:15] Ken asks Anurag if there are any other benefits to good mitochondrial health, other than an increased energy supply. [00:20:24] Ken asks Anurag to define the terms “mitochondrial biogenesis” and “mitophagy.” [00:22:13] Marcas pivots to discuss age-related frailty and healthspan, specifically bringing up a study Anurag conducted on a Dutch population comparing active seniors to sedentary seniors. [00:25:09] Ken mentions that Marcas likes to refer to exercise as medicine, given its potent effects on a wide variety of biomarkers. Ken asks Anurag to discuss the importance of exercise. [00:26:59] Following up on the Dutch study,
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    1 hr and 21 mins
  • Episode 172: Kevin Tracey on neuro-immunology and the treatment of inflammatory diseases
    Sep 5 2024
    Few people know as much about inflammation and neuroscience as Dr. Kevin Tracey does. In this episode of STEM-Talk, we learn much from Tracey, who was the first to identify the inflammatory reflex, a physiological mechanism that regulates the body’s immune response to injury and invasion. He is a neurosurgeon, a pioneer in bioelectrical medicine and president and CEO of the Feinstein Institutes for Medical Research in Manhasset, N.Y. The conversation in this episode covers a career spent working on “producing tomorrow’s cures today” in the treatment of inflammatory diseases, including: How the death of his mother from a brain tumor when Tracey was 5 years old ultimately influenced his scientific journey. How the death of a young patient of his from sepsis further fueled his path, leading him to the insight that “good science begins with hard questions,” as Tracey shared in a TedTalk. The molecular mechanisms of inflammation and the use of vagus nerve stimulation to treat it. His 1987 discovery of tumor necrosis factor (TNF), which contributed to a new class of drugs for inflammatory and autoimmune diseases. Another discovery that allowed him and his colleagues to merge neuroscience and immunology. His work on “The Inflammatory Reflex”, which emphasized the basic neural pathway that reflexively monitors and adjusts the inflammatory response. A sketch he drew while having lunch, which laid out how treating inflammatory diseases using a bioelectronic device might be possible. What advances in bioelectronic medicine he envisions in the next decade, and much more. [00:03:04] Dawn asks Kevin to tell the story of how he developed an interest in science that evolved into him becoming a neurosurgeon. [00:04:56] Dawn mentions that Kevin was a curious youth and asks if it is true that after getting his first car, Kevin removed the entire engine because he wanted to better understand how to do a valve job. [00:06:33] Ken mentions that after Kevin graduated from high school, he enrolled in Boston College where he earned a bachelor’s degree in chemistry. Ken explains that Kevin went to Boston University Medical School for his M.D. and asks Kevin about the transition. [00:08:41] Ken asks if it is true that during Kevin’s first year at medical school his classmates had better luck finding him on the golf course than in the classroom. [00:10:42] Dawn asks Kevin about his transition from medical school to the neurological surgery training program at New York Hospital, home of the Cornell University Medical College. [00:13:11] Dawn pivots to talk about sepsis, which kills more than 350,000 people annually. She asks Kevin to discuss his tragic story of treating a patient with sepsis as a young neurosurgeon and how that changed the trajectory of his career. [00:16:38] Ken explains that since the aforementioned incident, Kevin has focused on determining why septic shock occurs. Ken refers to a Ted Talk of Kevin’s in which he says, “good science begins with hard questions.” Ken asks Kevin to elaborate on this point. [00:20:49] Dawn mentions that Kevin often describes himself as a brain surgeon who is fascinated by inflammation. Dawn asks Kevin how he responds when people ask him what inflammation is. [00:22:29] Ken follows up by explaining that in 1987 Kevin made progress investigating inflammation with his discovery of tumor necrosis factor (TNF), which contributed to a new class of drugs for inflammatory and autoimmune diseases. Ken asks Kevin to discuss this discovery. [00:25:56] Dawn mentions that in the late ‘90s, Kevin made another discovery that allowed him and his colleagues to merge neuroscience and immunology. Before getting into that discovery, Dawn asks Kevin to explain how humans have simple reflex circuits that harmonize the activity of our organs. She also asks him to talk about Charles Sherrington’s Nobel Prize-winning research, which laid the groundwork for contemporary neuroscience by...
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    1 hr and 34 mins

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