Hayflick limit
Hayflick & Moorehead (1961, in vitro): normal human cultured fibroblasts have a finite capacity for cell divisions before theyenter an irreversible growth arrest
cause: telomere shortening
Definition cellular senescence
stable and terminal state of growth arrest, in which cells are unableto proliferate despite optimal growth conditions and mitogenic stimuli
Senescence triggers
DNA damage response (DDR)
Telomere shortening
Oncogene activation
DDR
Telomeres are very successible to DNA damage due to their chromatin structure and sequence
Types of senescence
Establishment of senescence
DNA damage and cell fate
Fate depends on modulation and status of p53
Biomarkers for senescence - overview
Biomarkers - overview
p21 & p16
SA-β-gal
morphology
lack of DNA replication
heterochromatin
SASP
Biomarkers: p21 & p16
Biomarkers: SA-β-gal
Biomarkers: morphology
How do senescent cells affect tissue homeostasis?
Biomarkers: lack of DNA replication
Biomarkers: heterochromatin
Biomarkers: SASP
SASP - pathways
Input: NFκB activity
Output: secretion of inflammatory factors & factors that impact ECM
Beneficial and deleterious effects of SASP
Senescence: Anti-cancer vs. pro-aging effect
Beneficial and detrimental effects of aging
Senescence & aging
senescence is a driver of aging
accumulation of senescent cells causes aging phenotype
elimination of senescent cells rejuvinates, but does not reverse aging
elimination of senescent cells impairs wound healing
Features of senescent cells - Summary
senolytics & senomorphics
senolytics
senomorphics
senolytic & senomorphic therapies - benefits & uncertainties
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