Adiponectin (AdipoQ) is a hormone that regulates food intake and energy homeostasis in mammals. The globular adiponectin (gAd) has been reported involved in the regulation of appetite, but the regulatory role and mechanism in fish remains unelucidated. Using Siberian sturgeon as a model of Chondrostei, the recombinant gAd protein of Siberian sturgeon (SsgAd) was produced by Escherichia coli expression system and verified using western blotting. Intraperitoneal injection of recombinant SsgAd protein at 100 ng/g BW suppressed food intake 1 h after administration. Peripheral injection of SsgAd protein caused the upregulation of anorexigenic pyy expression in the valvula intestine, but did not affect cck expression in the valvula intestine and orexigenic ghrelin expression in the stomach. The SsgAd administration significantly increased the hypothalamic expressions of pomc and decreased npy, agrp, and cart expression. In addition, SsgAd recombinant protein promoted adipor1, ampkα2, akt, and mtor mRNA expressions within the hypothalamus, whereas inhibited ampkβ1, ampkβ2 and ampkγ2 mRNA expression, suggesting AMPK and mTOR signaling pathways might be related to SsgAd protein-mediated anorexia activity. Furthermore, the injection of an mTOR antagonist (rapamycin) reversed the reduced food intake and npy, agrp, and cart expression due to the peripheral injection of SsgAd, as well as the increased pomc expression induced by SsgAd, which were not observed after AMPK antagonist (dorsomorphin) treatment. In summary, the current study, for the first time, suggest that the anorexigenic function of SsgAd might bind with AdipoR1 and activate the mTOR signal pathway to affect the expression of hypothalamic appetite factors in Siberian sturgeon. This study provides new insight into the molecular mechanism of AdipoQ in feeding regulation in fish, and a basis for further exploration on physiological function of AdipoQ.
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