The Influence of Senescent Associated Secretory Phenotype on Glucose Homeostasis in C2C12 Muscle Cells: Insights into Potential p38 Inhibitor Interventions

Abstract

Increased accumulation of senescent cells with aging is associated with reduced ability of insulin-target tissues to utilize glucose, resulting in increased insulin resistance and glucotoxicity. We investigated the role of the senescent-associated secretory phenotype (SASP) within C2C12, skeletal muscle cells on glucose homeostasis and if such effects could be reduced by blocking pro-inflammatory pathways. C2C12 myotubes were treated with 40% conditioned media from senescent fibroblasts. Indirect glucose uptake and glycogen content were measured. The effect of SASP on the generation of reactive oxygen species [Citation 1] and mitochondrial function was also measured. The experiments above were repeated with a p38 inhibitor. 40% SASP treatment significantly decreased glucose utilization and glycogen storage within myotubes (p < 0.0001). 40% SASP was successful in inducing oxidative stress and increased mitochondrial density, whilst reducing membrane potential following 48 h of incubation (p < 0.0001) and blocking NF-κβ, restored glucose utilization (p < 0.01) despite the presence of SASP. Co-incubation of 40% SASP with an NF-κβ inhibitor eliminates excessive ROS production and restores mitochondrial activity to levels comparable to control treatment (p < 0.0001). This study shows changes in glucose homeostasis in senescent cells is mediated through SASP, and interventions aimed at mitigating pro-inflammatory pathways can potentially improve insulin resistance.