Lessons in Lifespan Health
is an author, coach and teacher who leads a yoga class at the USC Leonard Davis School. He joined us to talk about his book, The Art of Conscious Aging and how to redefine yourself and find fulfillment as you age. Transcript I hear all the time, I used to do yoga, but now my body doesn't like it. Well, find a new yoga class. If you remember how it made you feel, then doing it in a new way, maybe a gentler class, maybe a hot yoga class that's in the dark, that's slow, where you hold the poses and no one's looking at you because you may be self-conscious, maybe that's the...
info_outline Studying how the brain’s blood vessels affect cognitive healthLessons in Lifespan Health
Dan Nation is a professor of gerontology and medicine at USC. His research focuses on vascular factors in the brain and how they affect memory decline and dementia in older adults. He joined us to talk about studying blood vessels in the brain to identify early signs of dementia and potential therapies to treat it. Transcript Speaker 1 (): The variability in your blood pressure day to day, month to month, year to year, and sometimes even beat to beat–the variability in your blood pressure is predictive of dementia risk. So higher levels of blood pressure variability are bad, even if you have...
info_outline Deprescribing and medication management for older adultsLessons in Lifespan Health
Michelle Keller is an assistant professor of gerontology and the Leonard and Sophie Davis Early Career Chair in Minority Aging at the USC Leonard Davis School. She spoke to us about her research focused on improving patient-clinician communication, medication management, and the identification of dementia in minority older adults. Here are highlights from our conversation. On polypharmacy “When it comes to older adults and medications, it's important to understand that while medications can be incredibly beneficial for treating various conditions, they can also present really unique risks in...
info_outline Improving the health and well-being of family caregiversLessons in Lifespan Health
Francesca Falzarano is an assistant professor of gerontology at the USC Leonard Davis School. Her research is inspired by her personal experience as a caregiver to her parents and explores how to improve the mental health and well-being of family caregivers, including through the use of technology. On young caregivers “I think right now it's estimated that five and a half million individuals are under the age of 18 are caring for a parent or some family member with chronic illness, mental health issues, dementia-related illnesses, and other age-related impairments. So, this is something...
info_outline Aging among Black AmericansLessons in Lifespan Health
Lauren Brown is an assistant professor at the USC Leonard Davis School. Her research uses publicly available data to uncover the unique difficulties Black Americans face in maintaining physical and psychological well-being as they age. Her lab both challenges the methods used to study older Black adults and strives to increase diversity in data science research with the goal of increasing the visibility of Black and Brown people via data and storytelling. Quotes from the episode On the role of racism in biomedical and statistical sciences and disease prediction If you think about the...
info_outline Using dance to ease Parkinson’s symptomsLessons in Lifespan Health
Patrick Corbin is an associate professor of practice at the USC Gloria Kaufman School and an internationally renowned dance artist whose career has spanned over 30 years and bridged the worlds of classical ballet, modern and contemporary dance. He recently spoke to us about his work, exploring the positive effects that dance can have on neurology. On movement and movement therapy Well, on a neurological level movement is cognition. Movement stimulates cognition. So that's sort of the sciencey part. The other part is that dance is a multifaceted, multilingual way of movement, and...
info_outline The effects of exercise on the brainLessons in Lifespan Health
Connie Cortes is an assistant professor of gerontology at the USC Leonard Davis School. Her work straddles the fields of neuroscience and exercise medicine, and she recently spoke to us about her research seeking to understand what is behind the beneficial effects of exercise on the brain with the goal of developing what she calls “exercise in a pill” therapies for cognitive decline associated with aging and neurodegenerative diseases. On brain plasticity and brain aging Brain plasticity we define as the ability of the brain to adapt to new conditions. And this can be mean...
info_outline Tips for healthy agingLessons in Lifespan Health
and instructional associate professor of gerontology at the USC Leonard Davis School, and a specialist in geriatric medicine, joins us for a conversation about healthy aging, including tips on how to keep the body and mind functioning for as long as possible. Quotes from this episode On the importance of setting small goals "People may have all the good intentions, but they might set up goals that are too ambitious and then when they don't reach that goal, they feel frustrated, and they quit… We have to let them understand that goals must be small…So, an apple a day. We have to eat the...
info_outline Cellular balance across the lifespanLessons in Lifespan Health
Dion Dickman, associate professor of neuroscience and gerontology, joins George Shannon to discuss how the nervous system processes and stabilizes the transfer of information in healthy brains, aging brains and after injury or disease. Quotes from the episode: On synaptic plasticity: “Synapses are essential, fundamental units of nervous system function and plasticity is this remarkable ability to change. And throughout early development into maturation and even into old age, synapses just have this amazing resilience to change and adapt to different situations and injury disease,...
info_outline A balancing act: homestasis under stressLessons in Lifespan Health
is a Distinguished Professor of gerontology, molecular and computational biology, and biochemistry and molecular medicine at USC. Over the course of his career, he has played a central role in defining the pathways and mechanisms by which the body is able to maintain balance under stress and in uncovering the role aging plays in disrupting this balancing act. He recently joined Professor George Shannon to discuss his research on how the body is able to maintain balance under stress and the implications it could have for preventing age-related disease and decline. Quotes from this...
info_outlineRong Lu is an associate professor of stem cell biology and regenerative medicine, biomedical engineering, medicine, and gerontology at USC. She joins George Shannon to discuss her research into the complex and surprising behavior of individual blood stem cells and what it could mean for treating diseases associated with aging.
Quotes from this episode
On stem cells and what makes them so promising for medical research
Stem cells are the special cells in the body that can produce other type of cells. So in particular there are two type of stem cells, one called embryonic stem cells that only exist in the embryonic stages. And the other type of stem cells are called somatic stem cells that are also exist in adulthood. And these somatic stem cells can produce only a specific subset of the cell types in the body. For example, skin stem cells can only produce skin cells and blood stem cells can only produce blood and immune cells. But all the stem cells share the general special property called self-renewal and differentiation. So differentiation describes their ability to produce a different type of cells and self-renewal refers to their ability of making more of themselves over time and sustain the long-term differentiation and tissue regeneration.
On the ability of stem cells to regenerate as we age
…that's what makes stem cells super special because they are the only long-lasting cells in the body that continuously regenerate and sustain the tissue. But over time, stem cells capacity in terms of self-renewal are reducing and therefore the tissue as homeostasis decline when the body ages.
On whether stem cells might offer protection against age-related immune decline
Sure. So over aging stem cells become less and less competent in producing immune cells. And, the hope is if we can maintain the stem cells capacity over time then we could make the stem cells offer the protection. Again, this is very much a research in progress and many research labs are working on this important question, including my own lab.
On the focus of research in her lab
In our lab, we're interested in understanding how are individual stem cells different from each other and how different stem cells work together to maintain an overall balanced blood pool. And in particular, over aging, we want to understand how individual blood stem cells change during aging and how their change lead to the aging phenotype of the animal. And what we found is that there are a specific subset of blood stem cells that age, particularly faster than the others. And there's also another group of stem cells that actually can change in the opposite way during aging and provide more immune cells and their presence really correlate with the delayed aging phenotype of the animal. So we're very excited about this finding and we're following up on this study using our bar coding tool to track these anti-aging stem cells and study what make them so special.
On the development and use of a tool to label individual cells with unique “barcodes”
The barcoding tool was developed a couple of decades ago by several labs simultaneously. At that time they used the viral insertion site as a marker to track individual cells.
So about 10 to 20 years ago, high throughput sequencing technology started to emerge. And at that time, I started to combine the new capacity of this high throughput sequencing to quantify the cellular behavior at a single cell level. So instead of using viral insertion site, I provide a particular DNA barcode sequence into the virus and use that as a marker to track individual cells. And what this allow us is a high precise quantification of the cellular behavior and also the high throughput that is needed to track hundreds and thousands of stem cells in the body.
We can use this tool to study cancer cells and understand the heterogeneity among individual cancer cells. For example, a recent study from my group used it to track the primary acute lymphoblastic leukemia cells in xenograph mouse model. And what we found is that individual leukemia cells have different ability to grow to metastasize and to respond to the drug treatment. And we found that some cancer stem cells that are particularly resistant to drugs to drug treatment In particular, some leukemia cells that are particular resistant to chemotherapy treatment, exhibit distinct gene expression signature compared to others.
On gene expression signatures
The gene expression signature means these particular subset of cells express a distinct subset of genes that make them different and potentially may cause their specific drug response behavior. So these particular gene expression signature can allow us first to identify these cells and to detect whether these cells exists and whether the patient has the potential of resist chemotherapy. And secondly, these gene expression signature can also be potential drug treatment targets to allow us to particularly target these cancer or leukemia cells in the therapeutic treatment.
On future directions in aging research
So in the context of aging, we are very excited about our recent discovery of these anti-aging, uh, stem cells. And we would like to further understand how to activate these anti-aging behavior and how to expand their function in the animal. And we are also very excited about our discovery on the cellular heterogeneity in disease, in particular, in their response to chemo drug treatment. And we would like to further identify the potential functions of the gene expression signature that we discovered. In addition, we also want to understand whether the microenvironment of the stem cell play a role in terms of instructing their heterogeneous behavior.