Molly R. Gallop scite author profile

Summary Lower adipose-ChREBP and de novo lipogenesis (DNL) are associated with insulin resistance in humans. Here we generated adipose-specific ChREBP knockout (AdChREBP KO) mice with negligible sucrose-induced DNL in adipose tissue (AT). Chow-fed AdChREBP KO mice are insulin-resistant with impaired insulin action in liver, muscle and AT, and increased AT inflammation. HFD-fed AdChREBP KO mice are also more insulin-resistant than controls. Surprisingly, adipocytes lacking ChREBP display a cell-autonomous reduction in insulin-stimulated glucose transport which is mediated by impaired Glut4 translocation and exocytosis, not lower Glut4 levels.. AdChREBP KO mice have lower levels of palmitic acid esters of hydroxy stearic acids (PAHSAs) in serum and AT. 9-PAHSA supplementation completely rescues their insulin resistance and AT inflammation. 9-PAHSA also normalizes impaired glucose transport and Glut4 exocytosis in ChREBP KO adipocytes. Thus, loss of adipose-ChREBP is sufficient to cause insulin resistance potentially by regulating AT glucose transport and flux through specific lipogenic pathways.

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Evidence for a Non-leptin System that Defends against Weight Gain in Overfeeding

Ravussin

Edwin

Gallop

et al. 2018

Cell Metabolism

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Weight is defended so that increases or decreases in body mass elicit responses that favor restoration of one's previous weight. While much is known about the signals that respond to weight loss and the central role that leptin plays, the lack of experimental systems studying the overfed state has meant little is known about pathways defending against weight gain. We developed a system to study this physiology and found that overfed mice defend against increased weight gain with graded anorexia but, unlike weight loss, this response is independent of circulating leptin concentration. In overfed mice that are unresponsive to orexigenic stimuli, adipose tissue is transcriptionally and immunologically distinct from fat of ad libitum-fed obese animals. These findings provide evidence that overfeeding-induced obesity alters adipose tissue and central responses in ways that are distinct from ad libitum obesity and activates a non-leptin system to defend against weight gain.

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Complex physiology and clinical implications of time-restricted eating

Petersen

Gallop

Ramos

et al. 2022

Physiological Reviews

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Time-restricted eating (TRE) is a dietary intervention that limits food consumption to a specific time window each day. The effect of TRE on body weight and physiological functions has been extensively studied in rodent models, which have shown considerable therapeutic effects of TRE and important interactions among time of eating, circadian biology and metabolic homeostasis. In contrast, it is difficult to make firm conclusions regarding the effect of TRE in people because of the heterogeneity in results, TRE regimens, and study populations. In this review, we: i) provide a background of the history of meal consumption in people and the normal physiology of eating and fasting; ii) discuss the interaction between circadian molecular metabolism and TRE; iii) integrate the results of preclinical and clinical studies that evaluated the effects of TRE on body weight and physiological functions; iv) summarize other time-related dietary interventions that have been studied in people; and v) identify current gaps in knowledge and provide a framework for future research directions.

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Nuclear corepressor SMRT is a strong regulator of body weight independently of its ability to regulate thyroid hormone action

Shimizu

Vella

et al. 2019

PLoS ONE

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Silencing Mediator of Retinoid and Thyroid Hormone Receptors (SMRT) and the nuclear receptor co-repressor1 (NCoR1) are paralogs and regulate nuclear receptor (NR) function through the recruitment of a multiprotein complex that includes histone deacetylase activity. Previous genetic strategies which deleted SMRT in a specific tissue or which altered the interaction between SMRT and NRs have suggested that it may regulate adiposity and insulin sensitivity. However, the full role of SMRT in adult mice has been difficult to establish because its complete deletion during embryogenesis is lethal. To elucidate the specific roles of SMRT in mouse target tissues especially in the context of thyroid hormone (TH) signaling, we used a tamoxifen-inducible post-natal disruption strategy. We found that global SMRT deletion causes dramatic obesity even though mice were fed a standard chow diet and exhibited normal food intake. This weight gain was associated with a decrease in energy expenditure. Interestingly, the deletion of SMRT had no effect on TH action in any tissue but did regulate retinoic acid receptor (RAR) function in the liver. We also demonstrate that the deletion of SMRT leads to profound hepatic steatosis in the setting of obesity. This is unlike NCoR1 deletion, which results in hepatic steatosis due to the upregulation of lipogenic gene expression. Taken together, our data demonstrate that SMRT plays a unique and CoR specific role in the regulation of body weight and has no role in TH action. This raises the possibility that additional role of CoRs besides NCoR1 and SMRT may exist to regulate TH action.

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Molly R. Gallop

Absence of Carbohydrate Response Element Binding Protein in Adipocytes Causes Systemic Insulin Resistance and Impairs Glucose Transport

Evidence for a Non-leptin System that Defends against Weight Gain in Overfeeding

Complex physiology and clinical implications of time-restricted eating

Nuclear corepressor SMRT is a strong regulator of body weight independently of its ability to regulate thyroid hormone action

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