Early-life stress triggers long-lasting organismal resilience and longevity via tetraspanin

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Early-life thermal stress up-regulates the tetraspanin TSP-1 in C. elegans, forming membrane structures that confer lasting organismal resilience and longevity.

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Abstract

Early-life stress experiences can produce lasting impacts on organismal adaptation and fitness. How transient stress elicits memory-like physiological effects is largely unknown. Here we show that early-life thermal stress strongly up-regulates tsp-1 , a gene encoding the conserved transmembrane tetraspanin in C. elegans . TSP-1 forms prominent multimers and stable web- like structures critical for membrane barrier functions in adults and during aging. The up- regulation of TSP-1 persists even after transient early-life stress. Such regulation requires CBP- 1, a histone acetyl-transferase that facilitates initial tsp-1 transcription. Tetraspanin webs form regular membrane structures and mediate resilience-promoting effects of early-life thermal stress. Gain-of-function TSP-1 confers marked C. elegans longevity extension and thermal resilience in human cells. Together, our results reveal a cellular mechanism by which early-life thermal stress produces long-lasting memory-like impact on organismal resilience and longevity. Teaser Studies reveal mechanisms of how early-life heat exposure produces long-lasting benefits on longevity in the nematode C. elegans .

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