エピソード

  • Bioenergetics and Brain Health 3: How Exercise and Fasting Enhance Neuroplasticity and Resilience
    2024/11/19

    In this third podcast in the Bioenergetics and Brain Health series I talk about how intermittent exercise and fasting affect brain function, neuroplasticity, and resilience. Research has shown that both of these bioenergetic challenges can enhance learning and memory, improve mood, counteract aging, and protect neurons against injury and disease. I provide an overview of evidence that over periods of weeks and months cycling between challenge (exercise and fasting) and recovery (resting, eating, sleeping) periods stimulates the formation of new synaptic connections between neurons, increases neurogenesis, and bolsters neuronal stress resistance. These adaptations of brain cells to bioenergetic challenges are mediated by hormonal factors released from peripheral organs including ketones, and by changes in gene expression in brain cells. A better understanding of how bioenergetic challenges affect the brain provides a rationale for incorporating exercise and fasting into lifestyles and is also revealing new approaches for pharmacological interventions in neurological disorders.

    続きを読む 一部表示
    1 時間 13 分
  • Bioenergetics and Brain Health 2: Mitochondrial Dynamics, Biogenesis, Disposal, and Signaling
    2024/11/11

    This is the second in a series of presentations on the interrelationships between energy metabolism, brain function and resilience, and disease processes. In this episode I describe how mitochondria are moved about within axons and dendrites, how mitochondria divide, fuse with each other, and are eliminated when they become dysfunctional. Importantly, mitochondria influence and respond to activity in neuronal networks in ways that optimize energy efficiency and promote the formation and maintenance of synapses between neurons. I also introduce the next presentation which will focus on how physical exercise and intermittent fasting affect brain function, plasticity, and resilience.

    続きを読む 一部表示
    1 時間 16 分
  • Josh Dubnau: Endogenous Retroviruses and Retrotransposons in Brain Aging and Degenerative Disorders
    2024/11/05

    More than 40 percent of the human genome consists of retrotransposons which are DNA sequences related to retroviruses that can jump within the genome and have the ability to replicate although most are dormant. In this episode Professor Josh Dubnau at the University of Stony Brook talks about endogenous retroviruses and retrotransposons and recent evidence that some of them are activated in neurons during brain aging and may play roles in the pathogenesis of ALS, frontotemporal dementia, and Alzheimer’s disease. Using the powerful molecular genetic tools in Drosophila models the Dubnau and his team have shown that activated retrotransposons can cause pathological aggregation of the protein TDP43 in neurons and the spreading of the TDP43 pathology between cells similar to that which occurs in ALS and frontotemporal dementia. This basic research advances an understanding of brain aging and neurodegenerative disorders and suggests new approaches for preventing and treating these disorders.

    LINKS

    Dr. Dubnau’s web page

    https://renaissance.stonybrookmedicine.edu/anesthesiology/research/Dubnau

    Review article on endogenous retroviruses and retrotransposons and their putative roles in neurodegenerative disorders

    https://pubmed.ncbi.nlm.nih.gov/38663088/

    Original research articles

    https://pmc.ncbi.nlm.nih.gov/articles/PMC9944888/pdf/41467_2023_Article_36649.pdf

    https://pmc.ncbi.nlm.nih.gov/articles/PMC8096092/pdf/pgen.1009535.pdf

    https://pmc.ncbi.nlm.nih.gov/articles/PMC6783360/pdf/nihms-1536529.pdf

    続きを読む 一部表示
    1 時間 5 分
  • Bioenergetics and Brain Health 1: Evolutionary Perspective and Overview of Brain Energy Metabolism
    2024/10/29

    This is the fist in a short series of presentations on the interrelationships between energy metabolism, brain function and resilience, and disease processes. Overindulgent sedentary lifestyles are increasingly common with adverse consequences for trajectories of brain health in current and future generations. In this series I review findings from studies of humans and animals that are elucidating the cellular and molecular mechanisms by which energy intake and exercise affect structural and functional neuroplasticity. This topic is considered from a bioenergetic perspective with emphases on brain evolution, developmental neurobiology, adult neuroplasticity and disorders of mood and cognition.

    続きを読む 一部表示
    52 分
  • Ziv Williams: Encoding Social Cognition and Language in Individual Neurons and Neuronal Ensembles
    2024/10/22

    Every day we communicate with and influence others via language, decision-making, and actions. The complexities of human social interactions and language begs the question of how the brain processes the relevant incoming information and then generates responses so rapidly and effortlessly. Neurosurgeon Ziv Williams and his team at Harvard Medical School have made major advances in answering these questions. By recording the activities of hundreds of individual neurons in the brains of non-human primates in game-theory paradigms of social cooperation and conflict he has identified neurons in the prefrontal cortex that encode social agent identity. Moreover, by recording from neurons in the brains of human patients undergoing brain surgery his team has identified neurons involved in single elements of speech production or in the semantic encoding during language comprehension. These findings not only advance an understanding of the neurobiological underpinnings of social interactions and language, but also provide insight into disorders involving alterations in these processes.

    LINKS

    Dr. Williams Harvard webpage

    https://zivwilliams.mgh.harvard.edu/

    Neuronal circuits for social decision-making

    https://pmc.ncbi.nlm.nih.gov/articles/PMC8517320/pdf/fnins-15-720294.pdf

    Social agent identity cells in the prefrontal cortex of interacting groups of primates.

    https://pmc.ncbi.nlm.nih.gov/articles/PMC8571805/pdf/nihms-1752328.pdf

    Single-neuronal predictions of others' beliefs in humans.

    https://pmc.ncbi.nlm.nih.gov/articles/PMC7990696/pdf/nihms-1654341.pdf

    Single-neuronal elements of speech production in humans.

    https://pmc.ncbi.nlm.nih.gov/articles/PMC10866697/pdf/41586_2023_Article_6982.pdf

    Semantic encoding during language comprehension at single-cell resolution.

    https://pmc.ncbi.nlm.nih.gov/articles/PMC11254762/pdf/41586_2024_Article_7643.pdf

    続きを読む 一部表示
    1 時間 9 分
  • Antoinette M van den Brink and Rolf Fronczek: Causes and Therapy for Migraine and Cluster Headaches
    2024/10/15

    One in seven people experience migraine headaches while others suffer with even more debilitating cluster headaches. The causes of these headaches are not fully understood and current treatments provide only partial relief. In this episode pharmacologist Antoinette van den Brink and neurologist Rolf Fronczek describe the clinical features of these headaches, the current understanding of their causes, and hormonal and environmental factors that can trigger the headaches. Drugs that inhibit the peptide CGRP and electrical stimulation of the occipital nerve are among treatments shown to be effective in reducing headache intensity or duration.

    LINKS

    University webpages:

    https://www.erasmusmc.nl/en/research/researchers/maassen-van-den-brink-antoinette

    https://hoofdpijnonderzoek.nl/en/team/dr-rolf-fronczek/

    Migraine headache articles

    https://journals.sagepub.com/doi/epub/10.1177/03331024241238153

    https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10863119/pdf/10194_2024_Article_1724.pdf

    Cluster headache articles

    https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7018790/pdf/40263_2019_Article_696.pdf

    https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10755111/pdf/main.pdf

    続きを読む 一部表示
    1 時間 12 分
  • Andrea Luppi: Consciousness and Brain Function Through the Lens of Time, Space, and Information
    2024/10/08

    Consciousness is one’s awareness of electrochemically conveyed information coming into the brain from the environment via sensory pathways or generated within the brain’s neuronal networks (i.e., thoughts). In popular culture ‘consciousness’ is often portrayed as a mysterious concept or process. However, research that examines the effects of anesthetics, sleep, brain injuries, and psychedelics on neuronal network activity using fMRI, EEG and other technologies is revealing the circuits and activity patterns that enable consciousness. In this episode University of Cambridge Professor Andrea Luppi talks about his research on the neurochemical and neural network level underpinnings of consciousness. His integration of fMRI and brain connectome data suggest the importance of ‘gateway neuronal networks’ and ‘broadcasters’ (executive control networks) in human consciousness. We also discuss consciousness from philosophical and evolutionary perspectives.

    LINKS

    Professor Luppi’s profile at the University of Cambridge

    https://neuroscience.cam.ac.uk/member/al857/

    Recent review article on consciousness

    https://www.cell.com/action/showPdf?pii=S0166-2236%2824%2900087-0

    Gateway regions and broadcasters

    https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11257694/pdf/elife-88173.pdf

    続きを読む 一部表示
    1 時間 5 分
  • Richard Lu: OPCs and Oligodendrocytes – Roles in Brain Development, Function, and Cancer
    2024/10/01

    In this episode Richard Lu – a professor of pediatrics at the University of Cincinnati Chldren’s Hospital talks about a type of stem cell in the brain called oligodendrocyte progenitor cells (OPC). OPC normally differentiate into the oligodendrocytes that wrap around the axons of neurons providing insulation that greatly speeds up the propagation of electrical impulses. These cells also provide nutrients to neurons and produce proteins that promote the survival of the neurons. But OPC can and unfortunately do become transformed into cancer cells. Dr. Lu talks about the normal roles of OPC in brain development and how they can form brain tumors.

    LINKS:

    Dr. Lu’s laboratory web page:

    https://www.cincinnatichildrens.org/research/divisions/e/ex-hem/labs/lu

    Oligodendrocytes – review

    https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8018611/pdf/nihms-1686441.pdf

    Oligodendrocytes – Brain repair and cancers

    https://www.sciencedirect.com/science/article/pii/S0969996120303156?via%3Dihub

    続きを読む 一部表示
    1 時間 2 分