Myostatin Signals through a Transforming Growth Factor β-Like Signaling Pathway To Block Adipogenesis

Rebbapragada, Anu; Benchabane, Hassina; Wrana, Jeffrey L.; Celeste, Anthony J.; Attisano, Liliana

doi:10.1128/mcb.23.20.7230-7242.2003

Cited by 514 publications

(435 citation statements)

References 65 publications

(102 reference statements)

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“…Receptor complex specificity can also be altered through accessory proteins such as Cripto, which suppress binding of activin to ActRII and promote nodal binding (33). In this regard, activin type II receptors are a particularly interesting example of promiscuity within this family since they participate in signal transduction for activins, myostatin, nodal, and certain bone morphogenetic proteins (BMPs) through alterations in their complex partners (15,34). Taken together, these results demonstrate that the precise composition of signaling complexes on .…”

Section: Fig 2 Representative Binding Results and Scatchard Analysimentioning

confidence: 82%

Reconstitution and Analysis of Soluble Inhibin and Activin Receptor Complexes in a Cell-free System

Re¹,

Sidis

Fabrizio³

et al. 2004

Journal of Biological Chemistry

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Activins and inhibins compose a heterogeneous subfamily within the transforming growth factor-␤ (TGF-␤) superfamily of growth and differentiation factors with critical biological activities in embryos and adults. They signal through a heteromeric complex of type II, type I, and for inhibin, type III receptors. To characterize the affinity, specificity, and activity of these receptors (alone and in combination) for the inhibin/activin subfamily, we developed a cell-free assay system using soluble receptor-Fc fusion proteins. The soluble activin type II receptor (sActRII)-Fc fusion protein had a 7-fold higher affinity for activin A compared with sActRIIB-Fc, whereas both receptors had a marked preference for activin A over activin B. Although inhibin A and B binding was 20-fold lower compared with activin binding to either type II receptor alone, the mixture of either type II receptor with soluble TGF-␤ type III receptor (T␤RIII; betaglycan)-Fc reconstituted a soluble high affinity inhibin receptor. In contrast, mixing either soluble activin type II receptor with soluble activin type I receptors did not substantially enhance activin binding. Our results support a cooperative model of binding for the inhibin receptor (ActRII⅐sT␤RIII complex) but not for activin receptors (type II ؉ type I) and demonstrate that a complex composed of activin type II receptors and T␤RIII is both necessary and sufficient for high affinity inhibin binding. This study also illustrates the utility of this cell-free system for investigating hypotheses of receptor complex mechanisms resulting from crystal structure analyses.

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Section: Fig 2 Representative Binding Results and Scatchard Analysimentioning

confidence: 82%

Reconstitution and Analysis of Soluble Inhibin and Activin Receptor Complexes in a Cell-free System

Re¹,

Sidis

Fabrizio³

et al. 2004

Journal of Biological Chemistry

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“…In vitro studies have shown that myostatin can inhibit adipocyte differentiation in 3T3-L1 mouse preadipocytes, 7 and myostatin may also inhibit Reduced body fat gain in double-muscled Mice MW Hamrick et al BMP-7 mediated adipogenesis by binding to the same receptor as BMP-7, the activin IIB receptor. 8 These data suggest that loss of myostatin function should increase adipogenesis, but the in vivo data obviously do not support this prediction. Alternatively, myostatin has been observed to promote adipogenesis in multipotential mesenchymal cells, suggesting that loss of myostatin function may directly suppress adipocyte differentiation.…”

Section: Discussionmentioning

confidence: 93%

Resistance to body fat gain in ‘double-muscled’ mice fed a high-fat diet

et al. 2006

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Objective: To determine if myostatin deficiency attenuates body fat gain with increased dietary fat intake. Methods: Normal and myostatin-deficient mice were fed control (8-10 kcal %fat) and high-fat (HF) (45 kcal %fat) diets for a period of 8 weeks, starting at 2 months of age. Body composition, including percent body fat, lean mass, and fat mass, were measured using DXA. Serum adipokines were measured using a Beadlyte assay. Results: Two-factor ANOVA revealed significant treatment Â genotype interactions for body fat (g), percent body fat, and serum leptin. The HF diet significantly increased body fat, percent body fat, and serum leptin in normal mice but not in myostatindeficient mice. Conclusion: Loss of myostatin function not only increases muscle mass in animal models but also attenuates the body fat accumulation that usually accompanies an HF diet.

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“…TGF-␤1 has been shown to block preadipocyte differentiation in vitro (2), and transgenic overexpression of TGF-␤1 in mice led to lipodystrophy (3). The TGF-␤ protein myostatin, also known as GDF8, has been shown to regulate adipogenesis in vitro either directly or indirectly by blocking BMP signaling (4,5). In agreement with a role in adipocyte differentiation, targeted ablation of myostatin in mice reduced accumulation of adipose tissue and weight gain in mouse models of obesity (6).…”

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confidence: 75%

Growth/differentiation factor 3 signals through ALK7 and regulates accumulation of adipose tissue and diet-induced obesity

Andersson

Korach-André

Reissmann

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

116

139

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Growth/differentiation factor 3 (GDF3) is highly expressed in adipose tissue, and previous overexpression experiments in mice have suggested that it may act as an adipogenic factor under conditions of high lipid load. GDF3 has been shown to signal via the activin receptor ALK4 during embryogenesis, but functional receptors in adipose tissue are unknown. In this study, we show that Gdf3 ؊/؊ mutant mice accumulate less adipose tissue than WT animals and show partial resistance to high-fat diet-induced obesity despite similar food intake. We also demonstrate that GDF3 can signal via the ALK4-homolog ALK7 and the coreceptor Cripto, both of which are expressed in adipose tissue. In agreement with a role for ALK7 in GDF3 signaling in vivo, mutant mice lacking ALK7 also showed reduced fat accumulation and partial resistance to diet-induced obesity. We propose that GDF3 regulates adiposetissue homeostasis and energy balance under nutrient overload in part by signaling through the ALK7 receptor.high-fat diet ͉ metabolism ͉ TGF-␤ ͉ energy balance ͉ insulinemia

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Myostatin Signals through a Transforming Growth Factor β-Like Signaling Pathway To Block Adipogenesis

Cited by 514 publications

References 65 publications

Reconstitution and Analysis of Soluble Inhibin and Activin Receptor Complexes in a Cell-free System

Reconstitution and Analysis of Soluble Inhibin and Activin Receptor Complexes in a Cell-free System

Resistance to body fat gain in ‘double-muscled’ mice fed a high-fat diet

Growth/differentiation factor 3 signals through ALK7 and regulates accumulation of adipose tissue and diet-induced obesity

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