Targeting intramyocellular lipids to improve aging muscle function.

Abstract

Decline of skeletal muscle function in old age is a significant contributor to reduced quality of life, risk of injury, comorbidity and disability and even mortality. While this loss of muscle function has traditionally been attributed to sarcopenia (loss of muscle mass), it is now generally appreciated that factors other than mass play a significant role in age-related muscle weakness. One such factor gaining increased attention is the ectopic accumulation of lipids in skeletal muscle, in particular, intramyocellular lipids (IMCLs). It has been appreciated for some time that metabolic flexibility of several tissues/organs declines with age and may be related to accumulation of IMCLs in a "vicious cycle" whereby blunted metabolic flexibility promotes accumulation of IMCLs, which leases to lipotoxicity, which can then further impair metabolic flexibility. The standard interventions for addressing lipid accumulation and muscle weakness remain diet (caloric restriction) and exercise. However, long-term compliance with both interventions in older adults is low, and in the case of caloric restriction, may be inappropriate for many older adults. Accordingly, it is important, from a public health standpoint, to pursue potential pharmacological strategies for improving muscle function. Because of the success of incretin-analog drugs in addressing obesity, these medications may potentially reduce IMCLs in aging muscles and thus improve metabolic flexibility and improve muscle health. A contrasting potential pharmacological strategy for addressing these issues might be to enhance energy provision to stimulate metabolism by increasing NAD + availability, which is known to decline with age and has been linked to reduced metabolic flexibility. In this narrative review, we present information related to IMCL accumulation and metabolic flexibility in old age and how the two major lifestyle interventions, caloric restriction and exercise, can affect these factors. Finally, we discuss the potential benefits and risks of select pharmacologic interventions in older adults.