Weatherford S C, Laughton W B, Salabarria J, Danho W, Tilley J W, Netterville L A, Schwartz G J, Moran T H
Department of Neurobiology, Hoffmann-LaRoche, Nutley, New Jersey 07110.
Am J Physiol. 1993 Feb;264(2 Pt 2):R244-9. doi: 10.1152/ajpregu.1993.264.2.R244.
Cholecystokinin-JMV-180 (JMV-180) is an analogue of cholecystokinin C-terminal octapeptide (CCK-8), which has been shown to be an agonist at the proposed CCK pancreatic high-affinity site and a functional antagonist at the pancreatic low-affinity site in rats and to have agonist activity at both high- and low-affinity sites in the mouse. In this study we used JMV-180 to evaluate the potential participation of these two CCK-A sites in the satiety effect of CCK-8 in rats and mice. When tested at doses that ranged from 0.01 to 9.2 mumol/kg, JMV-180 did not reliably affect food intake of solid or liquid test diets in rats. When combined with CCK-8 (3.2 or 8.5 nmol/kg) JMV-180 dose dependently reversed the satiety effect of CCK-8. In contrast to these results in the rat, both JMV-180 (3.7-14.8 mumol/kg) and CCK-8 (1.7-6.8 nmol/kg) dose dependently reduced the intake of 20% sucrose in mice. Both CCK-8- and JMV-180-induced suppression of food intake were attenuated by the CCK-A antagonist MK-329 (24.8 nmol/kg). The results of these studies suggest that agonist activity at sites pharmacologically similar to the CCK pancreatic high-affinity site is not sufficient for expression of CCK satiety, whereas agonist activity at low-affinity-like sites is necessary to reduce food intake. Thus the anorexic activity of CCK appears to be mediated through an interaction with a receptor site pharmacologically similar to the pancreatic low-affinity CCK receptor site.
胆囊收缩素-JMV-180(JMV-180)是胆囊收缩素C末端八肽(CCK-8)的类似物,已证明它在大鼠中是拟议的CCK胰腺高亲和力位点的激动剂和胰腺低亲和力位点的功能性拮抗剂,在小鼠中对高亲和力和低亲和力位点均具有激动剂活性。在本研究中,我们使用JMV-180来评估这两个CCK-A位点在CCK-8对大鼠和小鼠的饱腹感作用中的潜在参与情况。当以0.01至9.2 μmol/kg的剂量进行测试时,JMV-180并未可靠地影响大鼠固体或液体试验饮食的食物摄入量。当与CCK-8(3.2或8.5 nmol/kg)联合使用时,JMV-180剂量依赖性地逆转了CCK-8的饱腹感作用。与大鼠的这些结果相反,JMV-180(3.7 - 14.8 μmol/kg)和CCK-8(1.7 - 6.8 nmol/kg)均剂量依赖性地减少了小鼠20%蔗糖的摄入量。CCK-8和JMV-180诱导的食物摄入抑制均被CCK-A拮抗剂MK-329(24.8 nmol/kg)减弱。这些研究结果表明,在药理学上与CCK胰腺高亲和力位点相似的位点的激动剂活性不足以表达CCK的饱腹感,而低亲和力样位点的激动剂活性对于减少食物摄入量是必要的。因此,CCK的厌食活性似乎是通过与药理学上与胰腺低亲和力CCK受体位点相似的受体位点相互作用来介导的。
