Fronto-cortical regulation of beta-endorphin actions in the rat

Ablation of the frontal neocortex markedly enhanced the antinociceptive and cataleptic actions of beta-endorphin injected into the lateral ventricle of rat brain. This enhanced response was not affected by simultaneous administration of cholecystokinin octapeptide (CCK-8). In sham-operated rats, however, CCK-8 suppressed the effects of beta-endorphin in a dose-related manner. Moreover, ablation of a similar amount of occipital neocortex did neither affect beta-endorphin actions nor the interactions of CCK-8.     

Comparative immunocytochemical localization of putative opioid ligands in the central nervous system

We report a detailed comparative immunocytochemical mapping of enkephalin, CCK and ACTH/beta-endorphin immunoreactive nerves in the central nervous system of rat and guinea pig. Enkephalin immunoreactivity was detected in many groups of nerve cell bodies, fibers and terminals in the limbic system, basal ganglia, hypothalamus, thalamus, brain stem and spinal cord. beta-endorphin and ACTH immunoreactivity was limited to a single group of nerve cell bodies in and around the arcuate nucleus and in fibers and terminals in the midline areas of the hypothalamus, thalamus and mesencephalic periaqueductal gray with lateral extensions to the amygdaloid area. Cholecystokinin immunoreactive nerve fibers and terminals displayed a distribution similar to that of enkephalin in many regions; but striking differences were also found. An immunocytochemical doublestaining technique, which allowed simultaneous detection of two different peptides in the same tissue section, showed that enkephalin-, CCK- and ACTH/beta-endorphin-immunoreactive nerves although closely intermingled in many brain areas, occurred separately. The distributions of nerve terminals containing these neuropeptides showed striking overlaps and also paralleled the distribution of opiate receptors. This may suggest that enkephalin, CCK, ACTH and beta-endorphin may interact with each other and with opiate receptors.     

Beta-endorphin and met-enkephalin stimulate human peripheral blood mononuclear cell chemotaxis

The neuropeptides beta-endorphin and met-enkephalin are potent analgesics and have a broad spectrum of biologic activities including the recently described alterations of lymphocyte proliferation and antibody production. The current study demonstrates that beta-endorphin and met-enkephalin stimulate human mononuclear cell chemotaxis, as measured by the in vitro leading front assay for migration. The response to both beta-endorphin and met-enkephalin was bimodal, with peak activities occurring at 10(-12) M and 10(-8) M. The distance migrated in response to optimal concentrations of beta-endorphin or met-enkephalin was approximately 80% of that obtained with 10(-8) M formyl-methionyl-leucyl-phenylalanine (f-MLP) and was blocked by prior incubation with 10(-8) M naloxone. Removal of glass adherent cells resulted in a loss of the response to beta-endorphin. Quantitation of the number of cells responding to beta-endorphin showed that only about 50% as many cells responded to beta-endorphin as compared with f-MLP. Human neutrophils showed some migration in response to beta-endorphin and met-enkephalin, although the average optimal migration was less than 30% of that observed with 10(-8) M f-MLP. Studies of the in vivo infusion of beta-endorphin into the cerebral ventricle of the rat resulted in the immigration of macrophage-like cells and are consistent with the in vitro evidence for a chemotactic effect of beta-endorphin.     

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.     

Regulation of IL-1beta and IL-8 production by mu-, delta-opiate receptors agonists in vitro

The beta-endorphin 10(-7-)-10(-11) M in LPS (lypopolisaccharide) presence and in spontaneous cultures promoted the IL-1beta production in mixed leukocyte fraction. LPS-induced IL-8 production in leukocyte fraction was inhibited by beta-endorphin 10(-7), 10(-11) M. The enchasing effect of beta-endorphin on IL-1beta production was not blocked by naloxone and naltrindole. The inhibitory effect of beta-endorphin on IL-8 production was blocked by naloxone and naltrindole. In mononuclear and neutrophile fractions beta-endorphin and delta-agonist DADLE enchased IL-1beta production in spontaneous and LPS-stimulating cultures, when IL-8 production inhibited beta-endorphin and delta-agonist DADLE only in LPS presence. No effect of mu-agonist DAGO were observed on IL-1beta production, whereas LPS-induced IL-8 secretion in neutrophile fraction inhibited by DAGO.     

Degradation of cholecystokinin-like peptides by a crude rat brain synaptosomal fraction: a study by high pressure liquid chromatography

Degradation of CCK-8, CCK-4, and related peptides by a crude synaptosomal fraction of rat brain was investigated by monitoring the tryptophan fluorescence of reaction products after HPLC fractionation. At 20 degrees C, the half disappearance time was 52 min for CCK-8, 35 min for unsulphated CCK-8, 20 min for unsulphated CCK-7, 6 min for Tyr(SO3H)-Trp-Met-Asp-Phe-NH2, and 3 min only for CCK-4. Caerulein was much more resistant than CCK-8, and Boc-CCK-4 and Aoc-CCK-4 remained stable for at least 3 h. The apparent Km for CCK-8 and CCK-4 was 40 microM and maximal activity on CCK-8 was observed at pH 7.0. Zn2+ was strongly inhibitory. The protease inhibitors puromycin and bacitracin, the metal chelator 1,10-phenanthroline, and the sulphydryl blocking agents N-ethylmaleimide and p-chloromercuribenzoate greatly reduced the release of tryptophan from CCK-8. Puromycin inhibition of CCK-8 degradation provoked the accumulation of a CCK-7-like peptide, and that of CCK-4 degradation was of a competitive type (Ki = 2 microM). The CCK-8 degrading activity of brain synaptosomes was present in the cytosol as well as in synaptic membranes.     

Investigation of beta-endorphin nonopioid reception in preimplantation development of mouse embryo in vitro

The effect of beta-endorphin on 2-, 4- and 8-cell embryo development in vitro was studied. It is shown, that hormone has no effect on 2-cell embryos development, but it has enhanced viability of 4- and 8-cell mouse embryos. The number ofblastocyst formation increases in presence of 0.1 microM beta-endorphin in embryo cultured medium but the number of blastocyst with abnormal structure decreases. The effect of hormone on the change of intracellular concentration of Ca2+ ion in 2-, 4- and 8-cell mouse embryo has been studied with the help of fluorescent microscopy. The effect of adenylate cyclase, and phospholipase activity blockers and opioid blocker naloxone on the change of intracellular concentration of Ca2+ ion in early mouse embryo in the presence of beta-endorphin have been also studied. It is shown that 2-cell embryo has opioid and nonopioid beta-endorphin receptors, whereas 4- and 8-cell mouse embryos have only nonopoioid beta-endorphin receptors. It is also shown that the effect of beta-endorphin in the early mouse embryo through a nonopioid receptors occurs with the participation of intracellular Ca2+ and adenylate cyclase signaling system.     

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。     

Effects of epidermal growth factor and calcium omission on cholecystokinin-stimulated Cl- conductance in rat pancreatic zymogen granules.

Evidence suggests that cholecystokinin-octapeptide (CCK-8)-induced activation of a Cl- conductance in the membrane of zymogen granules (ZG) is closely related to pancreatic enzyme secretion. Following stimulation of isolated pancreatic acinar cells with increasing concentrations of CCK-8, the Cl- conductance in the ZG from these acini increased, reached a maximum of 40 +/- 7% above basal Cl- conductance at 10(-12) M CCK-8, and then decreased at CCK-8 concentrations higher than 10(-9) M to a level comparable to the basal Cl- conductance. We had interpreted the inhibitory action of high CCK-8 concentrations to be due to the generation of high concentrations of diacylglycerol and/or its metabolites by an "overstimulation" of phospholipase C at supramaximal CCK-8 concentrations. We now show that EGF abolishes the downstroke of the dose response curve for CCK-8-induced ZG Cl- conductance and shifts the stimulatory response to higher CCK-8 concentrations. Similarly in a nominally "Ca(2+)-free buffer" (free [Ca2+] approximately 0.2 nM), stimulated Cl- conductance at 10(-12) M CCK-8 is nearly abolished and the decreased Cl- conductance at 10(-8) M CCK-8 is increased to the level of maximal stimulation at 10(-12) M CCK-8. We conclude that both EGF and low [Ca2+] affect CCK-8-induced ZG Cl- conductance by decreasing phospholipase C activity.     

Specificity of nucleus accumbens to activities related to cholecystokinins in rats

Cholecystokinin octapeptide (CCK-8) or cholecystokinin tetrapeptide (CCK-4) were bilaterally injected into the areas where dopamine (DA) terminals and receptors have been detected; nucleus accumbens (NA), nucleus caudatus (NC), medial profrontal cortex (MPC), or prefrontal cortex (PC). The amount injected to each animal varied from 0 (control), 1 to 500 ng of CCK-8 and 0 (saline control), 0.5 to 2.5 micrograms of CCK-4 in NA in a volume of 1 microliter. The other areas received 500 ng CCK-8, 2.5 micrograms CCK-4 and proper control injections. The effects were observed in an open-field apparatus by measuring locomotor and rearing responses, the latency to move out of a specified area where the animal was first placed, and the amount of excretory bolus during a 5 min period following injections. When injected into NA, CCK-8 decreased locomotion and rearing at doses of 2.5 ng or more in a dose-related manner whereas CCK-4 increased locomotion and rearing at 1 microgram or more. The effects on latency and defecation were not detected. When the peptides were injected into NC, MPC or PC no effects were detectable. It appears that the effects of CCK-8 and CCK-4 on the exploratory responses are site-specific at NA where CCK-8 and DA are found to coexist in same neurons. CCK-4, a metabolite of CCK-8, could exert a negative feedback to moderate the effect of CCK-8.     

Synthesis of biologically active canine CCK-58

The carboxyl terminal octapeptide of cholecystokinin (CCK-8) has been hypothesized to account for the bioactivity of all the molecular forms of cholecystokinin. However, the physiological relevance of CCK-58 has not been rigorously examined because of the lack of sufficient amounts of the peptide and concerns about inactivation of natural peptides during their purification. Therefore, canine-sulfated CCK-58 was synthesized and conditions determined for its unblocking and purification that preserved the sulfated tyrosine. Synthetic CCK-58 was indistinguishable from natural CCK-58 by amino acid analysis and by mass spectrometry. Synthetic CCK-58 and CCK-8 have different patterns of pancreatic stimulation: both caused a dose-related increase in amylase release, while only CCK-58 stimulated bile-pancreatic output volume. Thus, CCK-58 and CCK-8 are biased agonists at the CCK-A receptor (they have distinct patterns of action mediated by the same receptor). Previous work has demonstrated that the identical carboxyl termini of CCK-8 and CCK-58 have different solution conformations. Taken together, the physiological and structural results support the hypothesis that different carboxyl terminal conformations of CCK-58 and CCK-8 alter the expression of their biological activity.     

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。     

Differential bile-pancreatic secretory effects of CCK-58 and CCK-8

In this work, we 1) synthesized rat CCK-58, 2) determined the amounts and forms of rat CCK in whole blood after stimulation of its release by casein, 3) determined the potency of CCK-8 and CCK-58 peptides to displace labeled CCK-8 from CCK(A) and CCK(B) receptors transfected into Chinese hamster ovary (CHO) cells, and 4) examined the biological actions of CCK-8 and rat CCK-58 in an anesthetized rat model. CCK-58 was the only detected endocrine form of CCK in rat blood. Synthetic rat CCK-58 was less potent than CCK-8 for displacing the label from CCK(A) and CCK(B) receptors in transfected CHO cells. However, rat CCK-58 was more potent than CCK-8 for stimulation of pancreatic protein secretion in the anesthetized rat. In addition, CCK-58 but not CCK-8 stimulated fluid secretion in this anesthetized rat model. These data suggest that regions outside the COOH terminus of rat CCK-58 influence the expression of CCK biological activity. The presence of only CCK-58 in the circulation and the fact that its biological activity differs from CCK-8 suggests that CCK-58 deserves scrutiny in other physiological models of CCK activity.     

Cholecystokinin (CCK)-induced desensitization of pancreatic enzyme secretion is mediated by low affinity CCK receptors

CCK-8-induced desensitization of carbachol-stimulated amylase secretion occurred over a range of concentrations of CCK-8 that occupy low affinity CCK receptors. CCK-JMV-180 [BOC-Tyr(SO3)-Nle-Gly-Trp-Nle-Asp-2-phenylethylester] at concentrations up to 1 microM did not cause desensitization of enzyme secretion; however, the peptide was able to inhibit CCK-8-induced desensitization. Analysis of the relationship between receptor occupation and CCK-8-induced desensitization caused by CCK-8 and CCK-JMV-180 in combination also indicated that CCK-8-induced desensitization of carbachol-stimulated amylase secretion is caused by occupation of low affinity CCK receptors.     

N-terminal glycation of cholecystokinin-8 abolishes its insulinotropic action on clonal pancreatic B-cells.

Monoglycated cholecystokinin octapeptide (Asp(1)-glucitol CCK-8) was prepared under hyperglycaemic reducing conditions and purified by reverse phase-high performance liquid chromatography. Electrospray ionisation mass spectrometry and automated Edman degradation demonstrated that CCK-8 was glycated specifically at the amino-terminal Asp(1) residue. Effects of Asp(1)-glucitol CCK-8 and CCK-8 on insulin secretion were examined using glucose-responsive clonal BRIN-BD11 cells. In acute (20 min) incubations, 10(-10) mol/l CCK-8 enhanced insulin release by 1.2-1.5-fold at 5.6-11.1 mmol/l glucose. The stimulatory effect induced by 10(-10) mol/l CCK-8 was abolished following glycation. At 5.6 mmol/l glucose, CCK-8 at concentrations ranging from 10(-11) to 10(-7) mol/l induced a significant 1.6-1.9-fold increase in insulin secretion. Insulin output in the presence of Asp(1)-glucitol CCK-8 over the concentration range 10(-11)-10(-7) mol/l was decreased by 21-35% compared with CCK-8, and its insulinotropic action was effectively abolished. Asp(1)-glucitol CCK-8 at 10(-8) mol/l also completely blocked the stimulatory effects of 10(-11)-10(-8) mol/l CCK-8. These data indicate that structural modification by glycation at the amino-terminal Asp(1) residue effectively abolishes and/or antagonises the insulinotropic activity of CCK-8.     

Relative bioactivities of cholecystokinins-8 and -33 on rat pancreatic acini

The relative potencies of cholecystokinin (CCK-33) and its carboxyl terminal octapeptide (CCK-8) for stimulation of amylase release from rat pancreatic acini was measured. Porcine CCK-33 and synthetic CCK-8 were initially subjected to high pressure liquid chromatography to assess purity. Concentrations of each peptide were determined by amino acid analysis. The relative immunoreactivities of CCK-33 and CCK-8 were compared using an antibody that recognizes the common carboxyl terminus of these forms. This antibody bound CCK-8 and CCK-33 with nearly equal affinity. The relative potencies of CCK-33 and CCK-8 were then measured by comparing their abilities to stimulate amylase release from isolated rat pancreatic acini. Statistical analysis of the relative potencies of the two hormones indicated that CCK-8 was 36% more potent than CCK-33 in this assay system. These data suggest that differences in biological activities between large and small forms of CCK are not as great as previously reported.     

Modulation of passive avoidance behaviour of rats by intracerebroventricular administration of cholecystokinin octapeptide sulfate ester and nonsulfated cholecystokinin octapeptide

The effects of intracerebroventricular administration of different doses of cholecystokinin octapeptide sulfate ester (CCK-8-SE) and nonsulfated cholecystokinin octapeptide (CCK-8-NS) were tested on the latency of passive avoidance behaviour in rats. Treatments were carried out prior to learning trial, immediately after electroshock and prior to testing 24 h retention. Both CCK-8-NS and CCK-8-SE enhanced the latency of passive avoidance after all forms of treatment while showing different dose-response patterns depending on time of administration. These data indicate that CCK-8-SE and CCK-8-NS might play a role in the regulation of memory consolidation and retrieval.     

Effects of beta-endorphin on spontaneous uterine contractions. Prostaglandins production and 45Ca2+ uptake in uterine strips from ovariectomized rats.

The effects of beta-endorphin, Met-enkephalin, dynorphin and SKF 10047 on the constancy of the isometric developed tension (IDT) of the spontaneous contractions of uterine strips isolated from ovariectomized rats were explored. beta-endorphin (10(-6) M) was the only opioid that depressed significantly uterine constancy of IDT in a concentration dependent fashion. Naloxone, neither at 10(-8) M nor at 10(-6) M, altered the negative inotropic influence of beta-endorphin. Moreover, the basal synthesis and outputs of some prostaglandins (PGE1, PGE2 and PGF2 alpha) from rat uteri and the effect of beta-endorphin (10(-6) M), were determined. It was found that the basal synthesis and release of PGs in uteri were significantly inhibited by this endogenous opioid. The effects of beta-endorphin (10(-8), 10(-6) and 10(-5) M) on the basal; and oxytocin or A23187, induced 45Ca2+ uptake, as well as the influence of naloxone were also studied. beta-endorphin at three of the concentrations tested decreased basal uterine 45Ca2+ uptake and this action was not prevented by naloxone (10(-8) M). The presence of oxytocin and of A23187 augmented significantly 45Ca2+ uptake, an effect that was antagonized by beta-endorphin (10(-6) M). The possible role of beta-endorphin in uterine functioning via the modulation of uterine PG synthesis and Ca2+ uptake is discussed.     

Unsulfated CCK-8 not blocked by proglumide or CR 1409 in the mouse abdominal irritant-induced stretching assay: possible central site of action

Previous studies have shown that unsulfated cholecystokinin octapeptide (CCK-8-U) shares with the sulfated octapeptide (CCK-8-S) and the carboxyl-terminal tetrapeptide (CCK-4) the ability to block abdominal irritant-induced stretching when administered intracerebroventricularly. The effects of CCK-8-U, however, are not naloxone-reversible and do not appear upon systemic administration. To assess the hypothesis that the antistretching effects of CCK-8-U are mediated by central-type (CCK-B), rather than peripheral-type (CCK-A) receptors, the present experiments examined the reversal of these effects by CR 1409, a CCK receptor antagonist with in vitro selectivity for CCK-A receptors, and by proglumide. Both antagonists, when administered ICV, blocked the antistretching effects of CCK-8-S and CCK-4 (ICV), but not those of CCK-8-U. CR 1409 was approximately 40 times more potent against CCK-8-S by the ICV route than subcutaneously, indicating a likely action on CCK-A receptors in the brain. The effects of morphine, bombesin and neurotensin (ICV) were not blocked by CR 1409, indicating specificity for CCK receptor-mediated effects. The antistretching effects of CCK-8-U do not appear to be mediated by CCK-A receptors, and the possibility of a CCK-B receptor site of action must be considered.     

Supramaximal CCK-58 does not induce pancreatitis in the rat: role of pancreatic water secretion

In contrast to supramaximal CCK-8 or caerulein, acute or prolonged supraphysiological levels of endogenous CCK-58 do not cause pancreatitis. Compared with CCK-8, CCK-58 is a much stronger stimulant of pancreatic chloride and water secretion, equivalent to maximally effective secretin, but with a chloride-to-bicarbonate ratio characteristic of acinar fluid. Because supraphysiological endogenous CCK does not cause pancreatitis and because coadministration of secretin ameliorated caerulein- or CCK-8-induced pancreatitis, coincident with restoring pancreatic water secretion, we hypothesized that supramaximal CCK-58 would not induce pancreatitis. Conscious rats were infused intravenously with 2 or 4 nmol x kg(-1) x h(-1) of CCK-8 or synthetic rat CCK-58 for 6 h, and pancreases were examined for morphological and biochemical indexes of acute pancreatitis. A second group was treated as above while monitoring pancreatic protein and water secretion. CCK-8 at 2 nmol x kg(-1) x h(-1) caused severe edematous pancreatitis as evidenced by morphological and biochemical criteria. CCK-58 at this dose had minimal or no effect on these indexes. CCK-58 at 4 nmol x kg(-1) x h(-1) increased some indexes of pancreatic damage but less than either the 2 or 4 nmol x kg(-1) x h(-1) dose of CCK-8. Pancreatic water and protein secretion were nearly or completely abolished within 3 h of onset of CCK-8 infusion, whereas water and protein secretion were maintained near basal levels in CCK-58-treated rats. We hypothesize that supramaximal CCK-58 does not induce pancreatitis because it maintains pancreatic acinar chloride and water secretion, which are essential for exocytosis of activated zymogens. We conclude that CCK-58 may be a valuable tool for investigating events that trigger pancreatitis.