Weng Jonathan, Lou Danwen, Benoit Stephen C, Coschigano Natalie, Woods Stephen C, Tso Patrick, Lo Chunmin C
Department of Biomedical Sciences, Molecular and Cellular Biology Program, and Diabetes Institute, Ohio University, Athens, Ohio.
Department of Molecular Biology and Genetics, Cornell University, Ithaca, NewYork.
Am J Physiol Regul Integr Comp Physiol. 2017 Nov 1;313(5):R535-R548. doi: 10.1152/ajpregu.00034.2017. Epub 2017 Aug 2.
Apolipoprotein AIV (ApoAIV) and cholecystokinin (CCK) are well-known satiating signals that are stimulated by fat consumption. Peripheral ApoAIV and CCK interact to prolong satiating signals. In the present study, we hypothesized that ApoAIV and CCK control energy homeostasis in response to high-fat diet feeding. To test this hypothesis, energy homeostasis in ApoAIV and CCK double knockout (ApoAIV/CCK-KO), ApoAIV knockout (ApoAIV-KO), and CCK knockout (CCK-KO) mice were monitored. When animals were maintained on a low-fat diet, ApoAIV/CCK-KO, ApoAIV-KO, and CCK-KO mice had comparable energy intake and expenditure, body weight, fat mass, fat absorption, and plasma parameters relative to the controls. In contrast, these KO mice exhibited impaired lipid transport to epididymal fat pads in response to intraduodenal infusion of dietary lipids. Furthermore, ApoAIV-KO mice had upregulated levels of CCK receptor 2 (CCK2R) in the small intestine while ApoAIV/CCK-KO mice had upregulated levels of CCK2R in the brown adipose tissue. After 20 wk of a high-fat diet, ApoAIV-KO and CCK-KO mice had comparable body weight and fat mass, as well as lower energy expenditure at some time points. However, ApoAIV/CCK-KO mice exhibited reduced body weight and adiposity relative to wild-type mice, despite having normal food intake. Furthermore, ApoAIV/CCK-KO mice displayed normal fat absorption and locomotor activity, as well as enhanced energy expenditure. These observations suggest that mice lacking ApoAIV and CCK have reduced body weight and adiposity, possibly due to impaired lipid transport and elevated energy expenditure.
载脂蛋白AIV(ApoAIV)和胆囊收缩素(CCK)是众所周知的由脂肪摄入刺激产生的饱腹感信号。外周的ApoAIV和CCK相互作用以延长饱腹感信号。在本研究中,我们假设ApoAIV和CCK在高脂饮食喂养时控制能量平衡。为了验证这一假设,我们监测了ApoAIV和CCK双敲除(ApoAIV/CCK-KO)、ApoAIV敲除(ApoAIV-KO)和CCK敲除(CCK-KO)小鼠的能量平衡。当动物维持低脂饮食时,与对照组相比,ApoAIV/CCK-KO、ApoAIV-KO和CCK-KO小鼠在能量摄入与消耗、体重、脂肪量、脂肪吸收及血浆参数方面具有可比性。相反,这些敲除小鼠在十二指肠内注入膳食脂质后,向附睾脂肪垫的脂质转运受损。此外,ApoAIV-KO小鼠小肠中CCK受体2(CCK2R)水平上调,而ApoAIV/CCK-KO小鼠棕色脂肪组织中CCK2R水平上调。高脂饮食20周后,ApoAIV-KO和CCK-KO小鼠在某些时间点具有相当的体重和脂肪量,且能量消耗较低。然而,尽管ApoAIV/CCK-KO小鼠食物摄入量正常,但其体重和肥胖程度相对于野生型小鼠有所降低。此外,ApoAIV/CCK-KO小鼠脂肪吸收和运动活性正常,且能量消耗增加。这些观察结果表明,缺乏ApoAIV和CCK的小鼠体重和肥胖程度降低,可能是由于脂质转运受损和能量消耗增加所致。
