期刊
ENDOCRINOLOGY
卷 156, 期 5, 页码 1724-1738出版社
ENDOCRINE SOC
DOI: 10.1210/en.2014-1826
关键词
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资金
- National Institutes of Health Endocrine Training [5T32DK07645, DK071308, MH086499, DK074873, DK083568, DK082724, DK102496]
- Diabetes Action Research and Education Foundation
- American Diabetes Association Career Development award
- Minnesota Partnership for Biotechnology and Medical Genomics, Decade of Discovery in Diabetes award
- Hirschl-Weill-Caulier Career Scientist award
Targeted deletion of VGF, a secreted neuronal and endocrine peptide precursor, produces lean, hypermetabolic, and infertile mice that are resistant to diet-, lesion-, and genetically-induced obesity and diabetes. Previous studies suggest that VGF controls energy expenditure (EE), fat storage, and lipolysis, whereas VGF C-terminal peptides also regulate reproductive behavior and glucose homeostasis. To assess the functional equivalence of human VGF(1-615) (hVGF) and mouse VGF(1-617) (mVGF), and to elucidate the function of the VGF C-terminal region in the regulation of energy balance and susceptibility to obesity, we generated humanized VGF knockin mouse models expressing full-length hVGF or a C-terminally deleted human VGF(1-524) (hSNP), encoded by a single nucleotide polymorphism (rs35400704). We show that homozygous male and female hVGF and hSNP mice are fertile. hVGF female mice had significantly increased body weight compared with wild-type mice, whereas hSNP mice have reduced adiposity, increased activity-and nonactivity-related EE, and improved glucose tolerance, indicating that VGFC-terminal peptides are not required for reproductive function, but 1 or more specific VGF C-terminal peptides are likely to be critical regulators of EE. Taken together, our results suggest that human and mouse VGF proteins are largely functionally conserved but that species-specific differences in VGF peptide function, perhaps a result of known differences in receptor binding affinity, likely alter the metabolic phenotype of hVGF compared with mVGF mice, and in hSNP mice in which several C-terminal VGF peptides are ablated, result in significantly increased activity- and nonactivity-related EE.
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