Evolution of Senescence: Longevity and the Expression of Heat Shock Proteins

Senescence is the progressive deterioration of organismal functionleading to accelerating rates of mortality. Cumulative extrinsicand intrinsic stresses are thought to contribute to senescence.Molecular chaperones, such as heat shock proteins, are hypothesizedto modulate senescence through their ability to mitigate proteindamage. Recent discoveries made with the nematode Caenorhabditiselegans and the fruit fly Drosophila melanogaster lend strongsupport to this theory. Longevity extending mutants of the nematodealso increase intrinsic and inducible thermotolerance, and theyoverexpress heat shock proteins upon thermal shock. Intriguingly,these genes regulate dauer (diapause) formation, and are associatedwith an insulin-like dependent signal transduction pathway.Direct evidence for a casual role of hsp70 in aging is providedby analysis of transgenic fruit flies. When hsp70 is inducedby mild heat shock, flies that overexpress the protein havegreatly reduced mortality rates during subsequent weeks of agingat normal temperatures. Current work with fruit flies focuseson the relationship between insulin-like receptors, ovariandiapause, heat shock and aging.