Abstract
Mitochondrial transcription factor A (Tfam)-mediated mtDNA maintenance and transcription, as well as leucine-rich PPR motif-containing protein (Lrpprc)-mediated mtRNA maturation and translation are essential steps of mtDNA-encoded electron transport chain (ETC) protein expression. ETC is essential for mitochondrial thermogenesis, the process of oxygen-dependent heat production inside the mitochondria in brown adipocytes. Here we describe that Tfam or Lrpprc deficiency in brown adipocytes cause non-synchronized ETC mRNA and protein expression (NOSEMPE) and mitochondrial ETC imbalance, ultimately abolish mitochondrial thermogenesis. However, mice with NOSEMPE in brown adipocytes are cold resistant upon an acute 4°C cold challenge, because of augmented nonmitochondrial thermogenesis driven by the “NOSEMPE→ATF4→proteome turnover” pathway. Importantly, mice with either NOSEMPE or ATF4 overexpression in brown adipocytes are protected against high-fat-diet-induced metabolic abnormalities, indicating a positive association between nonmitochondrial thermogenesis in brown adipocytes and metabolic fitness. Thus, although brown adipocytes are defined by their unique ability to produce heat through mitochondrial respiration, our study demonstrates a novel cytosolic nonmitochondrial thermogenesis in brown adipocytes. Targeting this ATF4-dependent nonmitochondrial thermogenesis in brown adipocytes may represent a new therapeutic strategy for combating metabolic disorders.