Mitophagy Responds to the Environmental Temperature and Regulates Mitochondrial Mass in Adipose Tissues.

There are at least two types of adipose tissues in the body, defined as brown adipose tissues (BATs) and white adipose tissues (WATs). These tissues comprise brown and white adipocytes, respectively. The adipocytes are commonly endowed with mitochondria, but they have diverse characteristics and roles. Brown adipocytes have abundant mitochondria that contribute to the β-oxidation of fatty acids to produce chemical energy and the production of heat via uncoupling of the mitochondrial membrane potential from ATP synthesis. Alternatively, white adipocytes have fewer mitochondria that contribute to the generation of free fatty acids via lipogenesis by providing key intermediates. Besides the described types of adipocytes, brown-like adipocytes, termed beige adipocytes, are developed in WAT depots during cold exposure. Beige adipocytes also contribute to thermogenesis. Notably, beige adipocytes may transform into white-like adipocytes after the withdrawal of cold exposure. This process is marked by the elimination of mitochondria through the activation of mitochondria autophagy (mitophagy). This review aims to describe the mitophagy that occurs during the beige-to-white transition and discuss recent insights into the molecular mechanisms of this transformation. Additionally, we describe the mitophagy monitoring strategy in adipose tissues using three independent reporter systems and discuss the availabilities and limitations of the method.