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1.
Nat Cell Biol ; 26(5): 674-686, 2024 May.
Artigo em Inglês | MEDLINE | ID: mdl-38755301

RESUMO

Although it is well described that mitochondria are at the epicentre of the energy demands of a cell, it is becoming important to consider how each cell tailors its mitochondrial composition and functions to suit its particular needs beyond ATP production. Here we provide insight into mitochondrial heterogeneity throughout development as well as in tissues with specific energy demands and discuss how mitochondrial malleability contributes to cell fate determination and tissue remodelling.


Assuntos
Metabolismo Energético , Mitocôndrias , Mitocôndrias/metabolismo , Mitocôndrias/genética , Humanos , Animais , Adaptação Fisiológica , Trifosfato de Adenosina/metabolismo , Diferenciação Celular
2.
Cell ; 187(10): 2359-2374.e18, 2024 May 09.
Artigo em Inglês | MEDLINE | ID: mdl-38653240

RESUMO

Brown adipose tissue (BAT) is best known for thermogenesis. Rodent studies demonstrated that enhanced BAT thermogenesis is tightly associated with increased energy expenditure, reduced body weight, and improved glucose homeostasis. However, human BAT is protective against type 2 diabetes, independent of body weight. The mechanism underlying this dissociation remains unclear. Here, we report that impaired mitochondrial catabolism of branched-chain amino acids (BCAAs) in BAT, by deleting mitochondrial BCAA carriers (MBCs), caused systemic insulin resistance without affecting energy expenditure and body weight. Brown adipocytes catabolized BCAA in the mitochondria as nitrogen donors for the biosynthesis of non-essential amino acids and glutathione. Impaired mitochondrial BCAA-nitrogen flux in BAT resulted in increased oxidative stress, decreased hepatic insulin signaling, and decreased circulating BCAA-derived metabolites. A high-fat diet attenuated BCAA-nitrogen flux and metabolite synthesis in BAT, whereas cold-activated BAT enhanced the synthesis. This work uncovers a metabolite-mediated pathway through which BAT controls metabolic health beyond thermogenesis.


Assuntos
Tecido Adiposo Marrom , Aminoácidos de Cadeia Ramificada , Resistência à Insulina , Mitocôndrias , Nitrogênio , Termogênese , Tecido Adiposo Marrom/metabolismo , Animais , Aminoácidos de Cadeia Ramificada/metabolismo , Camundongos , Nitrogênio/metabolismo , Mitocôndrias/metabolismo , Masculino , Humanos , Metabolismo Energético , Camundongos Endogâmicos C57BL , Estresse Oxidativo , Insulina/metabolismo , Dieta Hiperlipídica , Adipócitos Marrons/metabolismo , Transdução de Sinais
3.
Nat Commun ; 15(1): 467, 2024 Jan 11.
Artigo em Inglês | MEDLINE | ID: mdl-38212606

RESUMO

Dietary restriction (DR) delays aging, but the mechanism remains unclear. We identified polymorphisms in mtd, the fly homolog of OXR1, which influenced lifespan and mtd expression in response to DR. Knockdown in adulthood inhibited DR-mediated lifespan extension in female flies. We found that mtd/OXR1 expression declines with age and it interacts with the retromer, which regulates trafficking of proteins and lipids. Loss of mtd/OXR1 destabilized the retromer, causing improper protein trafficking and endolysosomal defects. Overexpression of retromer genes or pharmacological restabilization with R55 rescued lifespan and neurodegeneration in mtd-deficient flies and endolysosomal defects in fibroblasts from patients with lethal loss-of-function of OXR1 variants. Multi-omic analyses in flies and humans showed that decreased Mtd/OXR1 is associated with aging and neurological diseases. mtd/OXR1 overexpression rescued age-related visual decline and tauopathy in a fly model. Hence, OXR1 plays a conserved role in preserving retromer function and is critical for neuronal health and longevity.


Assuntos
Envelhecimento , Doenças do Sistema Nervoso , Humanos , Feminino , Envelhecimento/genética , Longevidade/genética , Neurônios/metabolismo , Doenças do Sistema Nervoso/metabolismo , Encéfalo/metabolismo , Restrição Calórica , Proteínas Mitocondriais/metabolismo
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