Xuyan Peng scite author profile

1α,25(OH)D (vitamin D) is crucial for mineral homeostasis in mammals, but the precise effects of 1α,25(OH)D in adipose tissue remain to be clarified in vivo. The initial 25-hydroxylation is catalyzed by liver microsomal cytochrome P450 2R1 (CYP2R1), which is conserved in vertebrates. To probe the physiological function(s) of 1α,25(OH)D in teleosts, we generated two independent cyp2r1-deficient zebrafish lines. These mutants exhibit retarded growth and increased obesity, especially in the visceral adipose tissue (VAT). These defects could be rescued with 25(OH)D treatments. ChIP-PCR analyses demonstrated that pgc1a is the target of the vitamin D receptor in the liver and VAT of zebrafish. Significantly decreased protein levels of Pgc1a, impaired mitochondrial biogenesis, and free fatty acid oxidation are also observed in the cyp2r1 mutant VAT. Our results demonstrate that regulation of 1α,25(OH)D during lipid metabolism occurs through the regulation of Pgc1a for mitochondrial biogenesis and oxidative metabolism within zebrafish VAT.

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Different physiological roles of insulin receptors in mediating nutrient metabolism in zebrafish

Yang

Zhai

Gong

et al. 2018

American Journal of Physiology-Endocrinology and Metabolism

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Insulin, the most potent anabolic hormone, is critical for somatic growth and metabolism in vertebrates. Type 2 diabetes, which is the primary cause of hyperglycemia, results from an inability of insulin to signal glycolysis and gluconeogenesis. Our previous study showed that double knockout of insulin receptor a ( insra) and b ( insrb) caused β-cell hyperplasia and lethality from 5 to 16 days postfertilization (dpf) (Yang BY, Zhai G, Gong YL, Su JZ, Han D, Yin Z, Xie SQ. Sci Bull (Beijing) 62: 486-492, 2017). In this study, we characterized the physiological roles of Insra and Insrb, in somatic growth and fueling metabolism, respectively. A high-carbohydrate diet was provided for insulin receptor knockout zebrafish from 60 to 120 dpf to investigate phenotype inducement and amplification. We observed hyperglycemia in both insra-/- fish and insrb-/- fish. Impaired growth hormone signaling, increased visceral adiposity, and fatty liver were detected in insrb-/- fish, which are phenotypes similar to the lipodystrophy observed in mammals. More importantly, significantly diminished protein levels of P-PPARα, P-STAT5, and IGF-1 were also observed in insrb-/- fish. In insra-/- fish, we observed increased protein content and decreased lipid content of the whole body. Taken together, although Insra and Insrb show overlapping roles in mediating glucose metabolism through the insulin-signaling pathway, Insrb is more prone to promoting lipid catabolism and protein synthesis through activation of the growth hormone-signaling pathway, whereas Insra primarily acts to promote lipid synthesis via glucose utilization.

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Xuyan Peng

Fatty Acid Oxidation in Zebrafish Adipose Tissue Is Promoted by 1α,25(OH) 2 D 3

Different physiological roles of insulin receptors in mediating nutrient metabolism in zebrafish

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