Muscle mitochondrial transplantation can rescue and maintain cellular homeostasis.

Mitochondria control cellular functions through their metabolic role. Recent research that has gained considerable attention is their ability to transfer between cells. This has the potential of improving cellular functions in pathological or energy-deficit conditions, but little is known about the role of mitochondrial transfer in sustaining cellular homeostasis.

Exercise, mitochondrial dysfunction and inflammasomes in skeletal muscle.

In the broad field of inflammation, skeletal muscle is a tissue that is understudied. Yet it represents about 40% of body mass in non-obese individuals and is therefore of fundamental importance for whole body metabolism and health. This article provides an overview of the unique features of skeletal muscle tissue, as well as its adaptability to exercise.

Scientific meeting report: International Biochemistry of Exercise 2022.

Exercise is one of the only nonpharmacological remedies known to counteract genetic and chronic diseases by enhancing health and improving life span. Although the many benefits of regular physical activity have been recognized for some time, the intricate and complex signaling systems triggered at the onset of exercise have only recently begun to be uncovered. Exercising muscles initiate a coordinated, multisystemic, metabolic rewiring, which is communicated to distant organs by various molecular mediators.

ATF5 is a regulator of exercise-induced mitochondrial quality control in skeletal muscle.

Objectives: The Mitochondrial Unfolded Protein Response (UPR) is a compartment-specific mitochondrial quality control (MQC) mechanism that uses the transcription factor ATF5 to induce the expression of protective enzymes to restore mitochondrial function. Acute exercise is a stressor that has the potential to temporarily disrupt organellar protein homeostasis, however, the roles of ATF5 and the UPR in maintaining basal mitochondrial content, function and exercise-induced MQC mechanisms in skeletal muscle are not known.

Methods: ATF5 KO and WT mice were examined at rest or after a bout of acute endurance exercise.

Regulatory networks coordinating mitochondrial quality control in skeletal muscle.

The adaptive plasticity of mitochondria within a skeletal muscle is regulated by signals converging on a myriad of regulatory networks that operate during conditions of increased (i.e., exercise) and decreased (inactivity, disuse) energy requirements.