Abstract

In skeletal muscle, the mitochondrial network is highly regulated by quality control (MQC) processes including the Integrated Stress Response (ISR) and the mitochondrial Unfolded Protein Response (UPRmt), controlled in part by the transcription factor, Activating Transcription Factor 5 (ATF5). With age, mitochondrial health and function become altered in muscle, but the role of ATF5 in regulating these processes has not yet been evaluated. This study therefore aimed to evaluate the role of ATF5 in mediating mitochondrial quality control and function during aging. To investigate this, we utilized young (4-6 months) and middle-aged (14-16 months; denoted as aged) ATF5 whole-body KO and WT male mice. The normal age-related decline in muscle mass was prevented in the absence of ATF5. This was accompanied by an attenuated rise in important protein degradation regulators, indicating that ATF5 regulates muscle protein turnover with age. Aged ATF5 KO muscle exhibited greater muscle fatiguability than WT counterparts, accompanied by accelerated mitochondrial ROS production. The expression of the co-regulatory ISR/UPRmt transcription factors, CHOP and ATF4, was attenuated in response to acute contractile activity in the absence of ATF5. The lack of ATF5 led to a reduction in the levels of LonP and was accompanied by an increase in mitochondrial:nuclear derived protein imbalance. Collectively, these results suggest that ATF5 functions to maintain mitochondrial quality control and muscle endurance at the expense of muscle mass, and its absence attenuates the normal compensatory stress response to contractile activity with age.