Intraventricular cholecystokinin-octapeptide produces hyperglycemia in rats

The effect of intraventricular cholecystokinin-octapeptide (CCK-8) on blood glucose was evaluated. Intraventricular CCK-8 in rats produces hyperglycemia. The highest dose of CCK-8 (250 ng) increased plasma glucagon levels but at lower doses (2.5 and 25 ng) increases in glucose occurred without alteration in the glucagon levels. None of the doses of CCK-8 altered insulin levels. Using ¹⁴C-glucose tracer we showed that the hyperglycemia produced by CCK-8 was not due to alterations in glucose clearance.     

家兔中枢内源性阿片样物质在紧张性高血糖反应中的作用

本工作观察家兔内源性阿片样物质在紧张性高血糖反应中的作用。通过向家兔侧脑室内注射阿片受体阻断剂纳洛酮或羧基肽酶 A 的抑制剂 D-苯丙氨酸以分别减弱或加强脑内内源性阿片样物质的作用。结果表明,纳洛酮能使由乙醚或2-脱氧葡萄糖所引起的高血糖反应减弱,而使由胰岛素所引起的低血糖反应加强并延搁其回复过程。D-苯丙氨酸表现为相反的效应。在已对吗啡形成耐受的家兔,2-脱氧葡萄糖所引起的高血糖反应也呈减弱。这些结果提示,脑内内源性阿片样物质与紧张性高血糖反应有关。     

Corticotropin-releasing factor inhibits gastric emptying in dogs

The purpose of the present study was to evaluate the effect of ovine corticotropin-releasing factor (CRF) on the gastric emptying of a saline meal in conscious dogs. Intravenous infusion of CRF (220-880 pmol . kg-1 . h-1), induced a significant linear dose dependent inhibition of gastric emptying (16-71%). CRF action was not modified by naloxone and not associated with vomiting or other side effects. Intravenous infusion of sulfated cholecystokinin octapeptide (CCK-8, 50-200 pmol . kg-1 . h-1) inhibited gastric emptying by 29-52%. The relative potency of CRF with respect to CCK-8 is 4 times less. These studies demonstrated that CRF given intravenously in picomolar amount inhibits gastric emptying of a liquid meal in dogs through a mechanism unrelated to opiates. The role of endogenous CRF in stress-induced inhibition of gastric emptying needs to be investigated.     

Intestinal Cholecystokinin Controls Glucose Production through a Neuronal Network

Cholecystokinin (CCK) is a peptide hormone that is released from the gut in response to nutrients such as lipids to lower food intake. Here we report that a primary increase of CCK-8, the biologically active form of CCK, in the duodenum lowers glucose production independent of changes in circulating insulin levels. Furthermore, we show that duodenal CCK-8 requires the activation of the gut CCK-A receptor and a gut-brain-liver neuronal axis to lower glucose production. Finally, duodenal CCK-8 fails to lower glucose production in the early onset of high-fat diet-induced insulin resistance. These findings reveal a role for gut CCK that lowers glucose production through a neuronal network and suggest that intestinal CCK resistance may contribute to hyperglycemia in response to high-fat feeding.     

血糖浓度对糖尿病大鼠胰腺外分泌功能的影响

用链佐霉素诱导大鼠产生尿病,其胰腺组织淀粉的含量降低,胆囊收缩素（ＣＣＫ－８）刺激所引起的胰淀粉酶分泌也明显降低。用一种可以降低糖尿病大鼠血糖,但不影响其血清胰岛素水平的药物－－钒酸钠灌胃,可翻转上述变化。体外实验分析表明,高糖可抑制胰腺泡蛋白质的合成,还可以引起胰腺泡膜丙二醛含量增加,从而提示,糖尿病大鼠胰外分泌功能障碍与血液葡萄浓度过高有密切关系。     

Effects of cholecystokinin-8 induced gastric dysmotility on bile regurgitation during stress and molecular mechanisms

OBJECTIVE: To illustrate the existence of bile regurgitation under stress condition, and explore the possible effects and related mechanism of changes of plasma cholecystokinin octapeptide (CCK-8) and intragastric pH on stress-induced bile regurgitation in rats. METHODS: (1) Changes in plasma CCK-8 and gastric bile concentration were respectively measured by using radioimmunoassay (RIA) method while simultaneously calculating gastric ulcer index (UI) and intragastric pH; (2) Each isolated gastric strips were suspended in a tissue chamber to record the contractile responses by polyphysiograph; (3) The responsiveness of gastric smooth muscle cells (SMCs) to sulfated cholecystokinin octapeptide (CCK-8S) were examined using fura-2-loaded microfluorimetric measurement of intracellular calcium concentration ([Ca(2+)]i); (4) The current of L-type calcium channels (I(CaL)) of SMCs were recorded by patch clamp techniques. RESULTS: (1) Compared with the normal control group, plasma CCK-8 and gastric bile concentration significantly increased during stress (p<0.01) and both simultaneously reached the peak at the time point of 2 h after stress; UI and intragastric pH apparently increased (p<0.01); (2) Significant changes to CCK-8S were found in the mean contractile amplitude and frequency of circular muscle (CM) and longitudinal muscle (LM) of gastric antrum and pylorus; (3) CCK-8S-evoked significant increase in [Ca(2+)]i (p<0.01) could be suppressed by CCK-A receptor (CCK-AR) antagonist; whereas a small but significant increase was still elicited by CCK-8S under condition of the removal of extracellular calcium or by given nifidipine; (4) CCK-8S-intensified calcium current (I(CaL)) apparently inhibited by respective administration of nifidipine, Ca(2+)-ATPase inhibitors or calcium dependent chloride channel (I(Cl-Ca)) blocker (p<0.01). CONCLUSION: Gastric mucosal damage induced by bile regurgitation is closely connected with gastric antrum and pylorus dysmotility evoked by CCK-8 during the stress. CCK-8S-evoked [Ca(2+)]i increase in gastric antrum and pylorus SMC depends on the release of intracellular calcium stores which activates L-type voltage-dependent calcium channels (VDCC) through the activation of calcium dependent chloride channels.     

Cholecystokinin tetrapeptide,proglumide and open-field behavior in rats

The effect of cholecystokinin tetrapeptide (CCK-4) was studied in an open field situation. CCK-4 increased locomotion and rearing and the effect was enhanced by proglumide, a selective antagonist of CCK-8. This is in sharp contrast to our earlier findings that CCK-8 decreased the open-field behavior and that proglumide completely blocked the effect. Thus, the effects of CCK-4 and CCK-8 appear to be opposite to each other in that one is excitatory and the other inhibitory to open-field responses.     

Continuous infusion of cholecystokinin and meal pattern in the rat

Purified natural cholecystokinin (CCK-33) was infused continuously for two days at a rate of 5.9 μg/hr in two rats trained to bar-press for food (Noyes pellet 45 mg) on a fixed ratio of five bar presses to obtain one pellet. The animals also received control surgery and were tested in the operant chamber for two days, one prior to and the other following the CCK-33 treatment. CCK-33 suppressed the number of meals, the total amount of food eaten, and the total duration of time spent eating. However, the size of each meal and the rate of intake were not affected. The CCK effect did not interact with the light-dark phases of diurnal cycle. It appears that a major effect of continuous systemic elevation of CCK-33 is to reduce food intake by prolonging the satiety period rather than by decreasing the individual meal size.     

The immunostimulating properties of cholecystokinin octapeptide and its fragments]

Immunostimulating properties of cholecystokinin octapeptide (CCK-8) were evaluated in experiments on adult normal and thymectomized mice, in vitro. It was shown that CCK-8 stimulates IgM-PFC production to SRBC, but does not change the immune response to Vi-antigen. CCK-8 increases the number of Thy-I+ spleen T cells and restores thymus-dependent immune response in thymectomized mice. CCK-8 has no effect on neutrophil phagocytosis activity in vitro. The immunostimulating activity of CCK-8 is related mainly to C-terminal fragment (identical to pentagastrin tetrapeptide) since the N-terminal CCK-8 tetrapeptide displays negligible effect in all tests.     

Blocking of cholecystokinin octapeptide behavioral effects by proglumide

An open field apparatus was used to assess the effect of proglumide, a selective antagonist of cholecystokinin octapeptide (CCK-8), to block the behavioral effect of CCK-8 in rats. Intracerebroventricular (ICV) injection of CCK-8 (0.5 to 2 micrograms) was effective in suppressing general exploratory activities and this effect was blocked by proglumide at doses of 2 to 5 micrograms administered ICV or 1 mg/kg administered subcutaneously. The effect of peripherally administered CCK-8 (10 micrograms/kg) was blocked by peripherally administered proglumide at a dose of 2 mg/kg but not by centrally administered proglumide at a dose of 5 micrograms/rat. The behavioral effect of CCK-8 was thus clearly blocked by proglumide.     

八肽胆囊收缩素对抗阿片肽的中枢性降血压作用

过去的工作已经证明八肽胆囊收缩素(CCK-8)能够对抗阿片肽的镇痛作用,本工作探讨CCK-8是否能够对抗阿片肽的心血管抑制作用。给戊巴比妥钠麻醉大鼠脊髓蛛网膜下腔(ith)注射 CCK-8可以对抗 ith 注射 mu(μ)型阿片受体激动剂[NMePhe~3,D-Pro~4]Morphiceptin(PL017)(5μg)、delta(δ)型受体激动剂[D-Ala~2,D-Leu~5]Enkephalin(DADLE)(25μg)和 Kappa(K)型受体激动剂[N-Me Tyr,N-Me Arg~7,D-Leu~8]Dynorphin 1-8 ethyla-mide(66A-078)(1μg)引起的降低血压和减慢心率作用。在 MAP 的表现上,CCK-8的拮抗作用(10μg及以下剂量)具有量-效关系,并可被 CCK 受体阻断剂丙谷胺(Proglumide)(100μg)翻转。在 HR 的表现上,上述剂量的 CCK-8也显示了一定的拮抗作用,但量-效关系不如 MAP 表现得明显。单纯将 CCK-8或 Proglumide ith 注射,可见大剂量(50μg)CCK-8可以引起明显的降血压作用和短时的降心率作用,小剂量(0.05μg)CCK-8则表现出明显的降心率作用;ith 注射 Proglumide 100μg,30 min 后也表现出减慢心率的作用。以上结果提示:在脊髓水平,一定剂量范围内的 CCK-8能够对抗阿片肽的心血管抑制效应,此对抗作用是通过 CCK 受体实现的。本工作的结果支持关于 CCK-8是一种抗阿片物质的设想。     

Ceruletide acts in the abdomen, not in the brain, to produce satiety

Ceruletide (caerulein), a decapeptide extracted from the skin of the frog, Hyla caerulea, is very similar in structure to the C-terminal octapeptide of cholecystokinin (CCK-8). Although ceruletide and CCK-8 act through similar or identical receptors to produce the same visceral effects, previous studies in the rat suggested that peripherally administered ceruletide acted directly on the ventromedial hypothalamic (VMH) area to decrease food intake, but peripherally administered CCK-8 acted at a vagally innervated abdominal site to decrease food intake. Since it is unprecedented for these two peptides to produce the same effect by acting at different sites, we investigated the site of action of ceruletide's satiety effect in the rat and compared it to the site of action of CCK-8. The major results were: (1) intraperitoneal administration of ceruletide and CCK-8 inhibited food intake, but intraventricular administration did not; (2) the satiety effect of ceruletide and CCK-8 was not changed by bilateral lesions of the VMH; and (3) the satiety effect of ceruletide and CCK-8 was abolished or markedly reduced by bilateral abdominal vagotomy. We conclude that ceruletide acts at the same vagally innervated abdominal site to produce satiety as CCK-8 does and that neither peptide acts directly on the VMH area.     

Synergistic interaction between leptin and cholecystokinin in the rat nodose ganglia is mediated by PI3K and STAT3 signaling pathways: implications for leptin as a regulator of short term satiety

Research has shown that the synergistic interaction between vagal cholecystokinin-A receptors (CCKARs) and leptin receptors (LRbs) mediates short term satiety. We hypothesize that this synergistic interaction is mediated by cross-talk between signaling cascades used by CCKARs and LRbs, which, in turn, activates closure of K(+) channels, leading to membrane depolarization and neuronal firing. Whole cell patch clamp recordings were performed on isolated rat nodose ganglia neurons. Western immunoblots elucidated the intracellular signaling pathways that modulate leptin/CCK synergism. In addition, STAT3, PI3K, Src, and MAPK genes were silenced by lentiviral infection and transient Lipofectamine transfection of cultured rat nodose ganglia to determine the effect of these molecules on leptin/CCK synergism. Patch clamp studies showed that a combination of leptin and CCK-8 caused a significant increase in membrane input resistance compared with leptin or CCK-8 alone. Silencing the STAT3 gene abolished the synergistic action of leptin/CCK-8 on neuronal firing. Leptin/CCK-8 synergistically stimulated a 7.7-fold increase in phosphorylated STAT3 (pSTAT3), which was inhibited by AG490, C3 transferase, PP2, LY294002, and wortmannin, but not PD98059. Silencing the Src and PI3K genes resulted in a loss of leptin/CCK-stimulated pSTAT3. We conclude that the synergistic interaction between vagal CCKARs and LRbs is mediated by the phosphorylation of STAT3, which, in turn, activates closure of K(+) channels, leading to membrane depolarization and neuronal firing. This involves the interaction between CCK/Src/PI3K cascades and leptin/JAK2/PI3K/STAT3 signaling pathways. Malfunctioning of these signaling molecules may result in eating disorders.     

兔侧脑室注射八肽胆囊收缩素抗血清对血浆自由脂肪酸浓度的影响

本工作根据抗原抗体间具有高度特异性的中和作用的原理,将微量 CCK-8抗血清注射入制备有埋藏套管的慢性实验兔的侧脑室内,观察在中和脑内外源性或内源性的 CCK-8后,血浆 FFA 浓度的变化,结果如下:1.侧脑室内注射正常兔血清,对血浆 FFA 浓度无明显影响;在注射 CCK-8同时注射兔正常血清,也不影响 CCK-8降低血浆 FFA 浓度的作用。2.侧脑室内注射 CCK-8抗血清能有效地阻断外源性脑室注射 CCK-8降低血浆 FFA 的作用,此阻断作用随 CCK-8抗血清剂量的增加而增强。3.侧脑室内单独注射 CCK-8抗血清,血浆 FFA 浓度明显升高,这一作用可能是由于中和了脑内内源性 CCK-8的作用所致。以上结果表明,CCK-8脑室注射引起的血浆 FFA 降低的作用具有一定的特异性;而在正常生理情况下,脑内释放的内源性 CCK-8可能参与血浆 FFA 代谢的调节。     

Intravenous CCK-8, but not GLP-1, suppresses ghrelin and stimulates PYY release in healthy men

We have investigated the effects of exogenous CCK-8 and GLP-1, alone and in combination, on ghrelin and PYY secretion. Nine healthy males were studied on four occasions. Plasma ghrelin and PYY concentrations were measured during 150 min intravenous infusions of: (i) isotonic saline, (ii) CCK-8 at 1.8 pmol/kg/min, (iii) GLP-1 at 0.9 pmol/kg/min or (iv) CCK-8 and GLP-1 combined. CCK-8 markedly suppressed ghrelin and stimulated PYY when compared with control between t=0-120 min (P<0.001 for both). GLP-1 had no effect on ghrelin, but decreased PYY slightly at 120 min (P<0.05). During infusion of CCK-8+GLP-1, there was comparable suppression of ghrelin (P<0.001), but the stimulation of PYY was less (P<0.001), than that induced by CCK-8, between t=20-120 min. In conclusion, in healthy subjects, in the doses evaluated, exogenous CCK-8 suppresses ghrelin and stimulates PYY, and exogenous GLP-1 has no effect on ghrelin and attenuates the effect of CCK-8 on PYY.     

Effects of CCK-8 in the nucleus accumbens

The electrophysiological effects of CCK-8 were studied in the rabbit nucleus accumbens. CCK-8 was found to influence neurotransmitter (modulator) systems so as to enhance their action. For example, CCK-8 enhanced the effects of stimulation of the glutaminergic pathways, the fimbria. In addition, when CCK-8 was co-administered with dopamine and acetylcholine, their suppressive effect on the fimbria evoked response was enhanced. Therefore, CCK-8 appears to be capable of enhancing the influence of multiple neurotransmitter (modulator) systems.     

Multiple treatment potentiates the anticonvulsive activity of cholecystokinin octapeptides

The dose-response curves for the anticonvulsive activity of sulfated and nonsulfated cholecystokinin octapeptide (CCK-8-SE and CCK-8-NS) against picrotoxin-induced (6 mg/kg SC) seizures were assessed either following or without pretreatment with a single high dose of CCK-8-SE or CCK-8-NS, to examine acute tolerance to the effect after IP injections in mice. As CCK-8-SE or CCK-8-NS pretreatment, a 1.6 μmole/kg dose was injected 2 hr prior to the second injection. No acute tolerance to the anticonvulsive activity was demonstrated, and CCK-8-NS pretreatment significantly potentiated its own anticonvulsive activity. Chronic (8-day) daily treatment with a 0.16 μmole/kg dose of CCK-8-SE or CCK-8-NS antagonized seizures by picrotoxin, presumably in a cumulative manner. To investigate the interactions of CCK octapeptides with other anticonvulsive agents, picrotoxin-induced seizures were antagonized with several doses of diazepam following or without acute, high-dose pretreatment with CCK-8-SE or CCK-8-NS. The two octapeptides only slightly modified the activity of diazepam: CCK-8-SE pretreatment displayed a tendency to antagonize it, while CCK-8-NS pretreatment to potentiate it. The results suggest that multiple treatment with CCK-8 induces sensitization of CCK receptors mediating anticonvulsive activity.     

八肽胆囊收缩素对抗吗啡对丘脑束旁核痛反应神经元放电的影响

已知脑室注射硫化八肽胆囊收缩素(CCK-8)对吗啡镇痛效应(用辐射热甩尾反应的潜伏期作测痛指标)有对抗作用。本工作研究了脑室注射CCK-8对吗啡引起的大鼠丘脑两侧束旁核痛反应神经元同时电变化的影响。结果如下:(1)腹腔注射吗啡(10mg/kg)可抑制痛兴奋神经元(PEN)和加强痛抑制神经元(PIN)的电活动。(2)脑室注射CCK-8(15ng/15μl)能对抗吗啡引起PEN放电的抑制作用和PIN电活动的加强作用。无硫CCK-8对吗啡的效应没有对抗作用。(3)注射CCK-8可同时对抗吗啡对束旁核中一个PEN的抑制作用和一个PIN的加强作用。上述结果与甩尾阈测痛的结果一致,即CCK-8对吗啡引起的镇痛效应有明显的对抗作用。     

Carotid ligation alters cholecystokinin-8 (CCK-8) immunoreactivity in gerbil brains

The unilateral or bilateral carotid arteries were ligated in gerbils used as a model of cerebral ischemia. The effect of different times of bilateral ischemia on the content of CCK-8 in fore regions of gerbil brain and the effect of 30 min of unilateral ischemia on the content of CCK-8 of the same regions in gerbils with or without neurological signs were observed. Our results show that the content of CCK-8 of cortex, basal ganglia, thalamus and hypothalamus decreased significantly. But, in brain stem it remained basically unchanged no matter whether the ischemia was unilateral or bilateral. This suggests that there is a close relationship between CCK-8 and cerebral ischemia, and raises the possibility that CCK-8 may be involved in cerebral ischemia through a yet unclear mechanism.     

Ethanol sensitizes NF-kappaB activation in pancreatic acinar cells through effects on protein kinase C-epsilon

Although ethanol abuse is the most common cause of pancreatitis, the mechanism of alcohol's effect on the pancreas is not well understood. Previously, we demonstrated that in vitro ethanol treatment of pancreatic acinar cells augmented the CCK-8-induced activation of NF-kappaB, a key signaling system involved in the inflammatory response of pancreatitis. In the present study, we determine the role for individual PKC isoforms in the sensitizing effect of ethanol on NF-kappaB activation. Dispersed rat pancreatic acini were treated with and without ethanol and then stimulated with CCK-8; 100 nM CCK-8 caused both NF-kappaB and PKC-delta, -epsilon, and -zeta activation, whereas 0.1 nM CCK-8 did not increase PKC-epsilon, PKC-zeta, or NF-kappaB activity. CCK-8 (0.1 nM) did activate PKC-delta. PKC-epsilon activator alone did not cause NF-kappaB activation; however, together with 0.1 nM CCK-8, it caused NF-kappaB activation. Ethanol activated PKC-epsilon without affecting other PKC isoforms or NF-kappaB activity. Of note, stimulation of acini with ethanol and 0.1 nM CCK-8 resulted in the activation of PKC-delta, PKC-epsilon, and NF-kappaB. The NF-kappaB activation to 0.1 nM CCK-8 in ethanol-pretreated acini was inhibited by both PKC-delta inhibitor and PKC-epsilon inhibitor. Taken together, these results demonstrate the different modes of activation of PKC isoforms and NF-kappaB in acini stimulated with ethanol, high-dose CCK-8, and low-dose CCK-8, and furthermore suggest that activation of both PKC-epsilon and -delta is required for NF-kappaB activation. These results suggest that ethanol enhances the CCK-8-induced NF-kappaB activation at least in part through its effects on PKC-epsilon.