The bystander and systematic adverse effects of senescent preadipocytes (LB54)

Senescent cells with essentially irreversible loss of replicative potential accumulate in various tissues with aging. Cellular senescence is associated with a pro‐inflammatory senescence‐associated secretory phenotype which the Janus‐associated kinase (JAK) pathway plays a role in. We hypothesized that senescent preadipocytes contribute to age‐related dysfunction of healthy cells. Methods: Preadipocytes from lean subjects were X‐irradiated to induce senescence. We co‐cultured non‐senescent cells with senescent cells or cultured them in conditioned medium (CM) from senescent preadipocytes to test the inflammation, differentiation and insulin sensitivity. Macrophage migration in response to CM was assayed as well. Moreover, we treated old or obese mice with Ruxolitinib, a JAK1/2 inhibitor, to test the beneficial effect. Results: The adipogenesis of preadipocytes was impaired by exposure to senescent cells. Macrophage migration was greater in response to senescent preadipocytes. Inflammation was increased in both adipose tissue and preadipocytes exposed to CM from senescent cells. All these adverse effect could be partially rescued by JAK inhibitor. In addition, senescent preadipocytes inhibited insulin‐induced phosphor‐AKT in adipose tissue and HepG2 cells. Insulin‐induced glycogen synthesis was also inhibited in HepG2 cells. Two months of Ruxolitinib treatment reduced inflammation, reversed age‐related lipodystrophy and improved physical function in frail, 24 month old mice. It also improved insulin sensitivity in diet‐induced obese mice. Conclusion: Senescent preadipocytes contribute to age‐related impairment in adipogenesis, fat tissue inflammation, and insulin resistance. Grant Funding Source : supported by NIH AG13925 and Robert and Arlene Kogod Center on Aging in Mayo Clinic.