Effects of stem cells from inducible brown adipose tissue on diet-induced obesity in mice

Keiran, Noelia; Núñez‐Roa, Catalina; Maymó-Masip, Elsa; Ejarque, Miriam; Sabadell‐Basallote, Joan; Rodríguez-Peña, María del Mar; Ceperuelo-Mallafré, Victòria; Seco, J; Benaiges, Ester; Michalopoulou, Theodora; Jorba, Rosa; Vendrell, Joan; Fernández‐Veledo, Sonia

doi:10.1038/s41598-021-93224-6

Cited by 10 publications

(5 citation statements)

References 59 publications

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“…The increased glucose uptake by cKO Tw2 WAT and EMSC suggest that adipose-derived precursors in adult cKO Tw2 mice might retain a higher metabolic activity trait in adult animals, and this could be leveraged for therapeutic potential. Infusion of adipose-derived stem cells from human WAT or visceral adipose tissue into obese mice improves glucose metabolism and lipid profiles and reduces body weight gain relative to control mice (44, 45), an effect mediated by secretion of adipokines, anti-inflammatory cytokines, or angiogenic factors (46). Regardless of the mechanism, if this cell-based therapy can be translated to humans, it is conceivable that genetic or pharmacologic interference with Cx43 function in adipose-derived stem cells before infusion in obese subjects may enhance their metabolic activity.…”

Section: Discussionmentioning

confidence: 99%

Connexin43 in mesenchymal lineage cells regulates body adiposity and energy metabolism in mice

Lee,

Fontana,

Sugatani

et al. 2024

Preprint

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Connexin43 (Cx43) is the most abundant gap junction protein present in the mesenchymal lineage. In mature adipocytes, Cx43 mediates white adipose tissue (WAT) beiging in response to cold exposure and maintains the mitochondrial integrity of brown adipose tissue (BAT). We found that genetic deletion of Gja1 (Cx43 gene) in cells that give rise to chondro-osteogenic and adipogenic precursors driven by the Dermo1/Twist2 promoter leads to lower body adiposity and partial protection against the weight gain and metabolic syndrome induced by a high fat diet (HFD) in both sexes. These protective effects from obesogenic diet are related to increased locomotion, fuel utilization, energy expenditure, non-shivering thermogenesis, and better glucose tolerance in conditionally Gja1 ablated mice. Accordingly, Gja1 mutant mice exhibit reduced adipocyte hypertrophy, partially preserved insulin sensitivity, increased BAT lipolysis and decreased whitening under HFD. This metabolic phenotype is not reproduced with more restricted Gja1 ablation in differentiated adipocytes, suggesting that Cx43 has a hitherto unknown function in adipocyte progenitors or other targeted cells, resulting in restrained energy expenditures and fat accumulation. These results disclose an hitherto unknown action of Cx43 in adiposity, and offer a promising new pharmacologic target for improving metabolic balance in diabetes and obesity.

show abstract

Section: Discussionmentioning

confidence: 99%

Connexin43 in mesenchymal lineage cells regulates body adiposity and energy metabolism in mice

Lee,

Fontana,

Sugatani

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

“…The increased glucose uptake by cKO Tw2 WAT and EMSCs suggest that adipose-derived precursors in adult cKO Tw2 mice might retain a higher metabolic activity trait in adult animals, and this could be leveraged for therapeutic potential. Infusion of adipose-derived stem cells from human WAT or visceral adipose tissue into obese mice improves glucose metabolism and lipid profiles and reduces body weight gain relative to control mice ( 44 , 45 ), an effect mediated by secretion of adipokines, antiinflammatory cytokines, or angiogenic factors ( 46 ). Regardless of the mechanism, if this cell-based therapy can be translated to humans, then it is conceivable that genetic or pharmacologic interference with Cx43 function in adipose-derived stem cells before infusion in obese individuals may enhance their metabolic activity.…”

Section: Discussionmentioning

confidence: 99%

Connexin43 in mesenchymal lineage cells regulates body adiposity and energy metabolism in mice

Lee,

Fontana,

Sugatani

et al. 2024

JCI Insight

View full text Add to dashboard Cite

Connexin43 (Cx43) is the most abundant gap junction protein present in the mesenchymal lineage. In mature adipocytes, Cx43 mediates white adipose tissue (WAT) beiging in response to cold exposure and maintains the mitochondrial integrity of brown adipose tissue (BAT). We found that genetic deletion of Gja1 (Cx43 gene) in cells that give rise to chondro-osteogenic and adipogenic precursors driven by the Dermo1 / Twist2 promoter led to lower body adiposity and partial protection against the weight gain and metabolic syndrome induced by a high-fat diet (HFD) in both sexes. These protective effects were related to increased locomotion, fuel utilization, energy expenditure, nonshivering thermogenesis, and better glucose tolerance in conditionally Gja1 -ablated mice. Accordingly, Gja1 -mutant mice exhibited reduced adipocyte hypertrophy, partially preserved insulin sensitivity, increased BAT lipolysis, and decreased whitening under HFD. This metabolic phenotype was not reproduced with more restricted Gja1 ablation in differentiated adipocytes, suggesting that Cx43 in adipocyte progenitors or other targeted cells restrains energy expenditures and promotes fat accumulation. These results reveal what we believe is a hitherto unknown action of Cx43 in adiposity, and offer a promising new pharmacologic target for improving metabolic balance in diabetes and obesity.

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“…Overexpression of HDAC4 in adipocytes leads to the expansion of beige adipocytes and a reduction in adiposity [103]. Stem cell or brown adipose tissue transplantation, cell lysates, and exosomes have been tested in obese mouse models [104,105]. Overall, ADSCs were found to be effective in treating obesity-associated diabetes and inflammation and protective against cardiovascular disease [106,107].…”

Section: Obesity and Obesity-related Metabolic Syndromementioning

confidence: 99%

Management of Obesity and Obesity-Related Disorders: From Stem Cells and Epigenetics to Its Treatment

Cruciani

Delitala

Cossu

et al. 2023

IJMS

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Obesity is a complex worldwide disease, characterized by an abnormal or excessive fat accumulation. The onset of this pathology is generally linked to a complex network of interactions among genetic and environmental factors, aging, lifestyle, and diets. During adipogenesis, several regulatory mechanisms and transcription factors are involved. As fat cells grow, adipose tissue becomes increasingly large and dysfunctional, losing its endocrine function, secreting pro-inflammatory cytokines, and recruiting infiltrating macrophages. This long-term low-grade systemic inflammation results in insulin resistance in peripheral tissues. In this review we describe the main mechanisms involved in adipogenesis, from a physiological condition to obesity. Current therapeutic strategies for the management of obesity and the related metabolic syndrome are also reported.

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Effects of stem cells from inducible brown adipose tissue on diet-induced obesity in mice

Cited by 10 publications

References 59 publications

Connexin43 in mesenchymal lineage cells regulates body adiposity and energy metabolism in mice

Connexin43 in mesenchymal lineage cells regulates body adiposity and energy metabolism in mice

Connexin43 in mesenchymal lineage cells regulates body adiposity and energy metabolism in mice

Management of Obesity and Obesity-Related Disorders: From Stem Cells and Epigenetics to Its Treatment

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