José C. Paz scite author profile

Mitochondria are dynamic organelles that play a key role in energy conversion. Optimal mitochondrial function is ensured by a quality-control system tightly coupled to fusion and fission. In this connection, mitofusin 2 (Mfn2) participates in mitochondrial fusion and undergoes repression in muscle from obese or type 2 diabetic patients. Here, we provide in vivo evidence that Mfn2 plays an essential role in metabolic homeostasis. Liver-specific ablation of Mfn2 in mice led to numerous metabolic abnormalities, characterized by glucose intolerance and enhanced hepatic gluconeogenesis. Mfn2 deficiency impaired insulin signaling in liver and muscle. Furthermore, Mfn2 deficiency was associated with endoplasmic reticulum stress, enhanced hydrogen peroxide concentration, altered reactive oxygen species handling, and active JNK. Chemical chaperones or the antioxidant N-acetylcysteine ameliorated glucose tolerance and insulin signaling in liver-specific Mfn2 KO mice. This study provides an important description of a unique unexpected role of Mfn2 coordinating mitochondria and endoplasmic reticulum function, leading to modulation of insulin signaling and glucose homeostasis in vivo.mitochondrial dynamics | insulin resistance | metabolism | oxidative stress

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CRTC3 links catecholamine signalling to energy balance

Song

Altarejos

Goodarzi

et al. 2010

Nature

136

211

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Under lean conditions, the adipose-derived hormone leptin maintains energy balance in part through CNS-mediated increases in sympathetic outflow that enhance fat burning 1,2. Triggering of beta adrenergic receptors in adipocytes stimulates energy expenditure via cAMP-dependent increases in lipolysis and fatty acid oxidation 3. Although the underlying mechanism is unclear, catecholamine signaling in fat cells is thought to be disrupted in obesity 4, where it may contribute to the ectopic accumulation of lipid in liver and to the development of insulin resistance 5,6. Here we show that the cAMP responsive CREB coactivator CRTC3 promotes obesity by attenuating beta adrenergic receptor signaling in adipose; mice with a knockout of the CRTC3 gene have increased energy expenditure, are resistant to diet induced obesity, and are protected from the development of hepatic steatosis under high fat diet feeding conditions. CRTC3 was activated in response to catecholamine signals, when it reduced adenyl cyclase activity by upregulating the expression of RGS2 7–9, a metabolic syndrome susceptibility gene 10, which we show here is also a direct target of CREB and CRTC3. RGS2 expression was down-regulated in adipocytes from CRTC3−/− mice, leading to increases in insulin and catecholamine signaling that enhanced glucose and fatty acid oxidation. As a common human CRTC3 variant (Ser72Asn), with increased transcriptional activity, is associated with several anthropometric indices of adiposity in two distinct Mexican-American cohorts, our results suggest that adipocyte CRTC3 may play a role in the development of obesity in this population.

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José C. Paz

Mitofusin 2 (Mfn2) links mitochondrial and endoplasmic reticulum function with insulin signaling and is essential for normal glucose homeostasis

CRTC3 links catecholamine signalling to energy balance

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