Giulio Guidobaldi scite author profile

Decreased expression of mitochondrial frataxin (FXN) causes Friedreich's ataxia (FRDA), a neurodegenerative disease with type 2 diabetes (T2D) as severe comorbidity. Brown adipose tissue (BAT) is a mitochondria-enriched and antidiabetic tissue that turns excess energy into heat to maintain metabolic homeostasis. Here we report that the FXN knock-in/knock-out (KIKO) mouse shows hyperlipidemia, reduced energy expenditure and insulin sensitivity, and elevated plasma leptin, recapitulating T2D-like signatures. FXN deficiency leads to disrupted mitochondrial ultrastructure and oxygen consumption as well as lipid accumulation in BAT. Transcriptomic data highlights cold intolerance in association with iron-mediated cell death (ferroptosis). Impaired PKA-mediated lipolysis and expression of genes controlling mitochondrial metabolism, lipid catabolism and adipogenesis were observed in BAT of KIKO mice as well as in FXN-deficient T37i brown and primary adipocytes. Significant susceptibility to ferroptosis was observed in adipocyte precursors that showed increased lipid peroxidation and decreased glutathione peroxidase 4. Collectively our data point to BAT dysfunction in FRDA and suggest BAT as promising therapeutic target to overcome T2D in FRDA.

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Low-protein/high-carbohydrate diet induces AMPK-dependent canonical and non-canonical thermogenesis in subcutaneous adipose tissue

Aquilano

Sciarretta

Turchi

et al. 2020

Redox Biology

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Low-protein/high-carbohydrate (LPHC) diet has been suggested to promote metabolic health and longevity in adult humans and animal models. However, the complex molecular underpinnings of how LPHC diet leads to metabolic benefits remain elusive. Through a multi-layered approach, here we observed that LPHC diet promotes an energy-dissipating response consisting in the parallel recruitment of canonical and non-canonical (muscular) thermogenic systems in subcutaneous white adipose tissue (sWAT). In particular, we measured Ucp1 induction in association with up-regulation of actomyosin components and several Serca (Serca1, Serca2a, Serca2b) ATPases. In beige adipocytes, we observed that AMPK activation is responsible for transducing the amino acid lowering in an enhanced fat catabolism, which sustains both Ucp1-and Serca-dependent energy dissipation. Limiting AMPK activation counteracts the expression of brown fat and muscular genes, including Ucp1 and Serca, as well as mitochondrial oxidative genes. We observed that mitochondrial reactive oxygen species are the upstream molecules controlling AMPK-mediated metabolic rewiring in amino acid-restricted beige adipocytes. Our findings delineate a novel metabolic phenotype of responses to amino acid shortage, which recapitulates some of the benefits of cool temperature in sWAT. In conclusion, this highlights LPHC diet as a valuable and practicable strategy to prevent metabolic diseases through the enhancement of mitochondrial oxidative metabolism and the recruitment of different energy dissipating routes in beige adipocytes.

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Correction: Frataxin deficiency induces lipid accumulation and affects thermogenesis in brown adipose tissue

et al. 2020

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Frataxin deficiency induces lipid accumulation and affects thermogenesis in brown adipose tissue

Turchi

Tortolici

Guidobaldi

et al. 2019

Preprint

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26Decreased expression of the mitochondrial protein frataxin (FXN) causes Friedreich's ataxia 27 (FRDA). FRDA is a neurodegenerative disease also characterized by systemic metabolic alterations 28 that increase the risk of developing type 2 diabetes thus aggravating FRDA prognosis. Brown adipose 29 tissue (BAT) is a mitochondria-enriched and anti-diabetic tissue that, in addition to its 30 thermoregulatory role, turns excess energy into heat to maintain energy balance. Here we report that 31FXN knock-in/knock-out (KIKO) mouse shows reduced energy expenditure and VO2, 32 hyperlipidemia, decreased insulin sensitivity and enhanced circulating levels of leptin, recapitulating 33 diabetes-like signatures. FXN deficiency leads to alteration of mitochondrial structure and oxygen 34 consumption, decreased lipolysis and lipid accumulation in BAT. Transcriptomic data highlighted a 35 blunted thermogenesis response, as several biological processes related to thermogenesis (e.g. 36 response to temperature stimuli, mitochondrial gene transcription, triglyceride metabolism, 37 adipogenesis) resulted affected in BAT of KIKO mice upon cold exposure. Decreased adaptation to 38 cool temperature in association with limited PKA-mediated lipolysis and downregulation of the 39 expression of the genes controlling mitochondrial metabolism and lipid catabolism were observed in 40 KIKO mice. T37i brown adipocytes and primary adipocytes with FXN deficiency showed reduced 41 thermogenesis and adipogenesis markers respectively recapitulating the molecular signatures 42 detected in KIKO mice. 43 Collectively our data point to BAT dysfunction in FRDA and suggest BAT as a promising target to 44 overcome metabolic complications in FRDA. 45 46

show abstract

Low-protein/high-carbohydrate diet induces AMPK-dependent canonical and non-canonical thermogenic response in subcutaneous adipose tissue

Aquilano

Sciarretta

Turchi

et al. 2020

Preprint

View full text Add to dashboard Cite

Low-protein/high-carbohydrate (LPHC) diet promotes metabolic health and longevity in adult humans and animal models. However, the complex molecular underpinnings of how LPHC diet leads to metabolic benefits remain elusive. Through a multi-layered approach, here we observed that LPHC diet promotes an energy-dissipating response consisting in the parallel recruitment of canonical and non-canonical (muscular) thermogenic systems in subcutaneous white adipose tissue (sWAT). In particular, we measured Ucp1 induction in association with up-regulation of actomyosin components and several Serca (Serca1, Serca2a, Serca2b) ATPases. In beige adipocytes, we observed that AMPK activation is responsible for transducing the amino acid lowering in an enhanced fat catabolism, which sustains both Ucp1-and Serca-dependent energy dissipation. Limiting AMPK activation counteracts the expression of brown fat and muscular genes, including Ucp1 and Serca, as well as mitochondrial oxidative genes. We observed that mitochondrial reactive oxygen species are the upstream molecules controlling AMPK-mediated metabolic rewiring in amino acid-restricted beige adipocytes. Our findings delineate a novel metabolic phenotype of responses to amino acid shortage, which recapitulates some of the benefits of cool temperature in sWAT. In conclusion, this highlights LPHC diet as a valuable and practicable strategy to prevent metabolic diseases through the enhancement of mitochondrial oxidative metabolism and the recruitment of different energy dissipating routes in beige adipocytes.

show abstract

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