Cold-Responsive Proteolytic Rewiring of Mitochondria Safeguards White Fat Thermogenic Remodeling

Mitochondrial proteases are emerging as key regulators of mitochondrial plasticity acting both as protein quality surveillance and regulatory enzymes. It remains unclear, however, whether the regulated mitochondrial proteolysis is mechanistically linked to cell identity switch such as white-to-beige conversion of adipocytes. Here we report that cold-responsive mitochondrial proteolysis is a prerequisite for conversion from white-to-beige adipocytes during white adipose tissue (WAT) browning. MitoTimer reporter and chemical thiol probe analysis reveal that thermogenic stimulation selectively promotes mitochondrial proteostasis in WAT via mitochondrial protease LONP1 both in vivo and in vitro. Disruption of LONP1-dependent proteolysis substantially impairs cold or b3-AR agonist induced adipocyte identity programming, evidenced by the remarkably attenuated formation of UCP1+ multilocular adipocytes in IWAT from Lonp1 f/f/Adipoq-Cre (LONP1 AKO) mice. LONP1 AKO mice exposed to cold had lower body temperature, elevated serum TG and FFA levels. Chow-fed LONP1 AKO mice also developed glucose intolerance. “AdipoChaser” system “pulse-chase” lineage tracing experiments confirm that LONP1 ablation markedly blocks the direct cell fate programming of pre-existing mature adipocytes. Importantly, augmented LONP1 expression corrects aging-related impairments in white-to-beige adipocytes conversion. 10-month-old adipocyte-specific Lonp1 overexpression mice had significantly lower body weight and fat mass as a result of elevated energy expenditure. Thus, the identification of LONP1 as a critical safeguard of WAT beiging holds promise for translational applications in enhancing white-to-beige adipocytes conversion capacity relevant to a variety of metabolic disease states and during aging. Disclosure T.Fu: None. W.Sun: None. Z.Zhou: None. Z.Xu: None. M.Yan: None. L.Yang: None. Y.Yin: None. Z.Gan: None.