Skeletal Muscle ULK1 and ULK2 Jointly Couple Muscle Mass with Force and Are Required for Survival Under Low Nutrient Availability

The protein kinases Unc‐51 like autophagy activating kinase 1 and 2 (ULK1 and ULK2) have evolved from a single yeast gene, autophagy related 1 (Atg1). Although ULK1 and ULK2 are thought to redundantly stimulate autophagy, other functions are emerging. Interestingly, skeletal muscle expresses both ULK1 and ULK2 at high levels (i.e., >2‐fold the median expression of 91 mouse tissues and cell lines) suggesting an important, yet unknown role for their combined elevated expression in muscle. Therefore, to investigate the joint role of ULK1 and ULK2 on muscle homeostasis and whole‐body metabolism we generated mice with skeletal muscle‐specific knockout of these genes (ULK2/1 mKO). Here, we demonstrate that ULK2/1 mKO mice have larger muscles (~12%) that are actually weaker (~21% decrease in relative force) in comparison with wild type littermates. Loss of ULK2/1 in skeletal muscle also affects whole‐body metabolic homeostasis as indicated by decreased body fat mass (~20% at 7wk of age), attenuated fat mass gains with aging (~40% at 21mo. of age), and life‐threatening inability to maintain euglycemia under fasting conditions (~32% reduction of blood glucose compared to WT). Mechanistically, loss of ULK 2/1 not only impairs skeletal muscle autophagy but also AMPK function as indicated by accumulation of LC3, p62, NBR1, and ubiquitinated proteins, as well as reduced phosphorylation of ACC (a surrogate of AMPK activity), respectively. These results identify a previously unknown role for ULK2 and ULK1 in jointly coupling skeletal muscle size with force. They also reveal skeletal muscle ULK2 and ULK1 as fundamental proteins for survival under conditions of reduced nutrient availability. Support or Funding Information This work is funded by:AHA 16SDG30360001 (V.A.L.). and NASA Iowa Space Grant Graduate Fellowship Program