Published: April 28, 2017, 3:22 a.m.
Dr. Judith Campisi is a professor of biogerentology at the Buck Institute for Research on Aging and a co-editor in chief of the Aging Journal.
As an expert on cellular senescence, the discussion involves a lot of talk about aging and cancer, where senescence plays a very important fundamental role. What are some of the strategies we might use in the future to prevent senescent cells? What causes them in the first place?
In this 1-hour long conversation, we discuss a great number of very interesting things including:
- Why diseases of aging, despite occurring in vary diverse tissue types, all begin to crop up simultaneously after 50 or 60 years of life.
- What the fundamental molecular processes of aging are and what some of the on-going research and general thoughts are surrounding these processes.
- What senescence is and the evolutionary biology explanation for why we have the mechanism of cellular senescence in the first place.
- The infiltration of immune cells into our tissues that occurs as a function of aging and the role of damaged or senescent cells in attracting these immune cells.
- The changes in gut permeability that happens with age and how that may increase our susceptibility to chronic, low-level inflammation.
- The role of senescent cells in cancer metastasis and progression.
- The clearance of senescent cells as a valid life extension strategy.
- How mitochondrial dysfunction, even in the absence of DNA damage, can cause cells to undergo senescence.
- The interesting observation that senescence from damage versus energy crisis (failed mitochondria) demonstrates a different and unique phenotype of cellular senescence.
- The effects prolonged fasting may have on the clearance of senescent cells.
- How periodic prolonged fasts might mimic some of the effects associated with an mTOR dampening drug like rapamycin.
- How the secretions of senescent cells can affect the regenerative capacity of stem cells.
- The practicality of a consumer available clinical assays for DNA damage and the challenge of assessing tissue-specific senescence without the use of invasive biopsy.
- The effect of so-called fasting mimetic compounds (e.g. hydroxycitrate, resveratrol & spermidine) on senescent cells.
- And believe it or not much more!
Studies mentioned: 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17
Learn more about Dr. Judy Campisi.
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