1 / 23

Cellular Senescence What is it? What causes it? Why is it important (cancer and aging)?

Cellular Senescence What is it? What causes it? Why is it important (cancer and aging)?. Cellular Senescence What is it? Response of normal cells to potentially cancer-causing events The senescence response is an anti-cancer mechanisms that prevents

cwalton
Download Presentation

Cellular Senescence What is it? What causes it? Why is it important (cancer and aging)?

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Cellular Senescence What is it? What causes it? Why is it important (cancer and aging)?

  2. Cellular Senescence What is it? Response of normal cells to potentially cancer-causing events The senescence response is an anti-cancer mechanisms that prevents the proliferation (growth) of damaged or dysfunctional cells (potential cancer cells)

  3. First description: the Hayflick limit Finite Replicative Life Span "Mortal" Infinite Replicative Life Span "Immortal" Proliferative capacity Number of cell divisions EXCEPTIONS Germ line Early embryonic cells (stem cells) Many tumor cells What happens when cells exhaust their replicative life span?

  4. What happens when cells exhaust their replicative life span? REPLICATIVE SENESCENCE • Irreversible arrest of cell proliferation • (universal) • Resistance to apoptosis (lecture on January 31) • (certain cell types) • Altered function • (universal but cell type specific) THE SENESCENT PHENOTYPE

  5. Cellular Senescence What causes it? (what causes the senescent phenotype?) Cell proliferation (replicative senescence) = TELOMERE SHORTENING (lecture on February 26th) DNA damage Oncogene expression Supermitogenic/stress signals What do inducers of the senescent phenotype have in common?

  6. Inducers of cellular senescence Strong mitogens/ stress Cell proliferation (short telomeres) DNA damage Oncogenes Potential Cancer Causing Events Normal cells ('mortal') 'Immortal' cells (precancerous) Transformation Cell senescence Apoptosis Tumor suppressor mechanisms

  7. Cellular Senescence A crucial tumor suppressor mechanism • Induced by potentially oncogenic events • Most tumor cells are replicatively immortal • Many oncogenic mutations allow cells to bypass • the senescence response • Senescence is controlled by the two most important • tumor suppressor genes -- p53 and pRB • Mice with cells that do not senesce die young • of cancer

  8. Cancer Caused by genetic (mutations) and epigenetic (tissue environment) events

  9. Cancer: genetic events • Activation of oncogenes • (continuous "go" signal) • Inactivation of tumor suppressor genes • (removes "stop" signal) • Inactivation of tumor suppressor genes encoding • p53 and pRB proteins = most common

  10. p53 and pRB proteins • Nuclear proteins controlled by complex pathways • (upstream regulators and downstream effectors) • Control expression of other genes • Halt cell proliferation in response to inducers • of senescence • Crucial for allowing normal cells to sense and respond to senescence signals

  11. Cellular Senescence An important tumor suppressor mechanism What does cellular senescence have to do with aging? Senescent cells have altered functions Aging is a consequence of the declining force of natural selection with age The senescence response may be an example of evolutionary antagonistic pleiotropy

  12. Aging before cell phones …… Modern, protected environment (very VERY recent) 100% Natural environment: predators, infections, external hazards, etc Survivors Most of human evolution AGE Antagonistic pleiotropy: Some traits selected to optimize fitness in young organisms can have unselected bad effects in old organisms (what's good for you when you're young may be bad for you when you're old)

  13. Antagonistic pleiotropy Cellular senescence Functional changes unselected, deleterious Selected for tumor suppression (growth arrest) FUNCTIONAL CHANGES ASSOCIATED WITH CELLULAR SENESCENCE: Secretion of molecules that can be detrimental to tissues if not controlled Senescent fibroblasts secrete proteases, growth factors, inflammatory cytokines

  14. Cellular senescence and aging • Cells from old donors divide less often than • cells from young donors • Cells from short-lived species are more sensitive to • senescence-inducers, particularly oxidative stress, than • cells from long-lived species • Cells from donors with premature aging syndromes • senesce more readily than cells from normal donors • Senescent cells (expressing a senescence marker) • accumulate with age and at sites of age-related • pathology, including hyperproliferative diseases

  15. Cellular senescence: Markers in culture and in vivo p16 expression Heterochromatic foci Telomeric-DNA damage foci DNA damage foci Human skin, stained for SA-Bgal Dimri et al., Proc Natl Acad Sci USA, 1995

  16. Senescent Cells Accumulate In Vivo With Increasing Age Human, rodent and primate skin, retina, liver, spleen, aorta, kidney, etc. At Sites of Age-Related Pathology Venous ulcers Atherosclerotic plaques Arthritic joints Benign prostatic hyperplasia Preneoplastic lesions

  17. Senescent cells secrete many inflammatory cytokines (e.g., IL6, IL8), growth factors (e.g., PDGF, heregulin), proteases (e.g., MMPs) SENESCENT SECRETORY PHENOTYPE Many similarities among fibroblasts induced to senesce by different stimuli and among fibroblasts from different tissues and donor ages

  18. Senescent cells can strongly alter tissue microenvironments May contribute to age-related declines in tissue structure and function, and age related disease

  19. Senescent fibroblasts disrupt morphological and functional differentiation of epithelial cells BM + PreS Fb BM + Sen Fb Pre-S Fb Sen Fb b-casein E-cadherin b-caseinDAPI Parrinello et al., J Cell Sci, 2005

  20. Cellular senescence, aging … and cancer WHAT CAUSES CANCER? Mutations, mutations, mutations …. A permissive tissue** (mutations, including potentially cancer- causing mutations, accumulate with age, starting from early ages)

  21. Epithelial Cells Fibroblasts

  22. CONCLUSIONS The senescence response is a permanent cell growth arrest that prevents dysfunctional or damaged (potentially cancerous) cells from proliferating = Tumor suppressor mechanism The senescence response may be an example of evolutionary anagonistic pleiotropy -- protecting young organisms from cancer but contributing to aging, age- related disease and (ironically) late life cancer at old ages

More Related