Elimination of senescent cells by mechanical cell competition
Pan, Y.; Foo, M. X. R.; Prabhakaran, V. S.; Jain, K.; Kanchanawong, P.; Dreesen, O.; Toyama, Y.
Show abstract
Cellular senescence, a hallmark of aging, leads to the accumulation of apoptosis-resistant cells that compromise tissue homeostasis. While senescent cells are known to influence neighboring cells through the senescence-associated secretory phenotype (SASP), the precise nature of the interactions between senescent and normal cells remains elusive. Here we show that progerin-induced senescent cells undergo apoptosis when co-cultured with normal cells. This elimination requires direct cell-cell contact and is mediated by the JNK and p38-MAPK pathways, leading to p53 upregulation and p21 downregulation in progerin-expressing cells. Furthermore, neighboring normal cells exert persistent mechanical compression on progerin-expressing cells prior to their elimination, consistent with mechanical cell competition. In contrast, p16-induced senescent cells resist elimination under the same co-culture conditions, maintaining high p21 levels. Our findings reveal a non-cell-autonomous mechanism for senescent cell clearance, providing new insights into the maintenance of tissue homeostasis during aging.
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