Ricardo J. Samms scite author profile

A primary target of the pleiotropic metabolic hormone FGF21 is adipose tissue, where it initiates a gene expression program to enhance energy expenditure, an effect presumed to be centered on augmented UCP1 expression and activity. In UCP1 null (UCP1KO) mice, we show that the effect of FGF21 to increase the metabolic rate is abolished. However, in contrast to prior expectations, we found that increased UCP1-dependent thermogenesis is only partially required to achieve the beneficial effects of FGF21 treatment. In UCP1KO mice, there appears to be an underlying reduction in food intake following FGF21 administration, facilitating weight loss equal to that observed in wild-type animals. Furthermore, we show that UCP1-dependent thermogenesis is not required for FGF21 to improve glycemic control or to reduce circulating cholesterol or free fatty acids. These data indicate that several important metabolic endpoints of FGF21 are UCP1 independent; however, the contribution of UCP1-dependent thermogenesis to other discrete aspects of FGF21 biology requires further study.

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Serum FGF21 levels are associated with brown adipose tissue activity in humans

Hanssen

Broeders

Samms

et al. 2015

Sci Rep

121

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The obesity pandemic has spurred a need for novel therapies to prevent and treat metabolic complications. The recent rediscovery of brown adipose tissue (BAT) in humans made this tissue a possible therapeutic target, due to its potentially substantial contributions to energy homeostasis. Fibroblast growth factor 21 (FGF21) has been identified as a facilitator of cold-induced thermogenesis in humans. Furthermore, pre-clinical studies revealed that FGF21 administration leads to improvement in the metabolic consequences of obesity, such as dyslipidemia and type 2 diabetes. Here we studied plasma FGF21 levels in two cohorts of human subjects, in whom BAT activity was determined using an individualized cooling protocol by [18F]FDG-PET/CT scan. Importantly, we found that circulating FGF21 levels correlated with BAT activity during acute cold exposure in male subjects. In addition, FGF21 levels were related to the change in core temperature upon acute cold exposure, indicating a role for FGF21 in maintaining normothermia, possibly via activation of BAT. Furthermore, cold acclimation increased BAT activity in parallel with increased FGF21 levels. In conclusion, our results demonstrate that FGF21 levels in humans are related to BAT activity, suggesting that FGF21 may represent a novel mechanism via which BAT activity in humans may be enhanced.

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Going Back to the Biology of FGF21: New Insights

Lewis

Ebling

Samms

et al. 2019

Trends in Endocrinology & Metabolism

117

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GIPR agonism mediates weight-independent insulin sensitization by tirzepatide in obese mice

Samms¹,

Christe²,

Collins³

et al. 2021

125

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Tirzepatide (LY3298176), a dual GIP and GLP-1 receptor agonist, delivered superior glycemic control and weight loss compared to GLP-1 receptor (GLP-1R) agonism in patients with type diabetes. However, the mechanism by which tirzepatide improves efficacy and how GIP receptor (GIPR) agonism contributes is not fully understood. Here, we show that tirzepatide is an effective insulin sensitizer, improving insulin sensitivity in obese mice to a greater extent than GLP-1R agonism. To determine if GIPR agonism contributes, we compared the effect of tirzepatide in obese wild-type and Glp-1r null mice.In the absence of GLP-1R-induced weight loss, tirzepatide improved insulin sensitivity by enhancing glucose disposal in white adipose tissue (WAT). In support, a long-acting GIPR agonist (LAGIPRA) was found to enhance insulin sensitivity by augmenting glucose disposal in WAT. Interestingly, the effect of tirzepatide and LAGIPRA on insulin sensitivity was associated with reduced branched-chain amino (BCAAs) and keto-acids in the circulation. Insulin sensitization was associated with upregulation of genes associated with the catabolism of glucose, lipid and BCAAs in brown adipose tissue. Together, our studies show that tirzepatide improved insulin sensitivity in a weight-dependent andindependent manner. These results highlight how GIPR agonism contributes to the therapeutic profile of dual receptor agonism, offering mechanistic insights into the clinical efficacy of tirzepatide.

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Ricardo J. Samms

How May GIP Enhance the Therapeutic Efficacy of GLP-1?

Discrete Aspects of FGF21 In Vivo Pharmacology Do Not Require UCP1

Serum FGF21 levels are associated with brown adipose tissue activity in humans

Going Back to the Biology of FGF21: New Insights

GIPR agonism mediates weight-independent insulin sensitization by tirzepatide in obese mice

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