饥饿状态大鼠胰腺高血糖素和胰岛素变化的定量分析

用免疫组织化学方法结合图象分析技术对饥饿状态大鼠胰岛Ａ、Ｂ细胞中胰因糖素和胰岛素的免疫反应强度进行定量分析。结果表明：与正常对照相比,饥饿大鼠胰岛细胞中的Ｇｌｕ含量明显下降,Ｂ细胞中Ｉｎｓ含量明显升高。提示饥饿可导致Ｇｌｕ释放增加,Ｉｎｓ和减少。与饥饿５天大鼠线要比较,饥饿５天后静脉注射葡萄糖组９０ｍｉｎ后胰岛内Ｇｌｕ含量明显升高,Ｉｎｓ含量无显著变化。提示：静脉注射葡萄糖要快速作用下胰岛Ａ细胞,     

白细胞介素-2对大鼠海马谷氨酸能神经元和γ-氨基丁酸能神经元的影响———免疫组织化学和狭线杂交研究

本研究应用免疫组织化学（ＰＡＰ法）的方法,观察到侧脑室内注射白细胞介素２（ＩＬ２）后,大鼠海马回和齿状回内谷氨酸（Ｇｌｕ）免疫反应阳性神经元的数量明显减少、胞体皱缩、突起及其分支减少;γ氨基丁酸（ＧＡＢＡ）免疫反应阳性神经元的数量、突起及其分支皆减少。用３２Ｐ标记的ＧＡＢＡＴｃＤＮＡ探针对大鼠海马组织的ＧＡＢＡＴｍＲＮＡ进行狭线杂交结果显示：实验组大鼠海马组织的ＧＡＢＡＴｍＲＮＡ的含量明显增多。由于ＧＡＢＡ在ＧＡＢＡＴ的作用下,可转变为Ｇｌｕ,因此,以上结果表明ＩＬ２不仅可影响海马神经元合成和释放Ｇｌｕ和ＧＡＢＡ,而且还使Ｇｌｕ的释放量大于其合成量。这些变化可能与癫痫的发病机理有关     

兴奋性氨基酸加强高原低氧大鼠下丘脑前生长抑素原mRNA的表达

目的和方法：应用大鼠高原低氧模型及原位杂交技术和氨基酸测定法,研究下丘脑前生长抑素原（ＰＰＳ）ｍＲＮＡ表达和谷氨酸（Ｇｌｕ）、天门冬氨酸（Ａｓｐ）含量的变化。结果：高原低氧组大鼠下丘脑Ｇｌｕ和Ａｓｐ的含量明显增多,室周核、室旁核、弓状核ＰＰＳ－ｍＲＮＡ阳性神经元数目显著增加;而ＮＭＤＡ受体拮抗抗剂氯铵酮,虽然对Ｇｌｕ和Ａｓｐ含量无明显影响,但可使高原低氧大鼠下丘脑ＰＰＳ－ｍＲＮＡ阳性神经元数目减少     

新生犊牛胰腺内分泌机能的某些特点

６头装有暂时性颈静脉血管瘘的黑白花品种新生犊牛,在从出生至１５日龄的围产期内每天测定血浆葡萄糖（Ｇ）、胰岛素（Ｉｎｓ）和胰高血糖素（Ｇｃ）的基本浓度,可见１日龄喂初乳前Ｇ、Ｉｎｓ和Ｇｃ的浓度分别是１１９６．０±１５２．２ｍｇ／Ｌ、（７．３３±１．４３）×１Ｏ３Ｕ／Ｌ和６８５．３９±９５．４２ｎｇ／Ｌ。Ｇ于第２天明显下降,第３天回升,以后相对稳定;Ｉｎｓ第２天升高,以后下降,５日龄后相对稳定;Ｇｃ４日龄内逐日下降,５日龄后达到相对稳定水平。第１天喂初乳引起Ｉｎｓ显著升高,Ｇｃ下降,Ｇ无变化或者降低;以后喂初乳或常乳均引起Ｉｎｓ和Ｇ一致性升高,进食引起的Ｉｎｓ释放反应随日龄增长明显增加,Ｇｃ下降。不同日龄时灌注精氨酸均引起Ｉｎｓ显著增加,Ｇｃ早期无显著变化,７日龄后显著增加,同时Ｇ并无明显变化。灌注Ｇ引起Ｇ和Ｉｎｓ两者都增加,Ｇｃ下降。随日龄增长胰岛Ｂ细胞对精氨酸和Ｇ的反应明显加强。     

鲫鱼视网膜谷氨酸受体和GABA受体在爪蟾卵母细胞中的表达

我们以两栖类卵母细胞为功能表达系统,通过注射鲫鱼（Ｃａｒａｓｓｉｕｓｃａｒａｓｓｉｕｓ）视网膜ｍＲＮＡ,利用电压箝及药物灌流手段,系统地研究了鲫鱼视网膜内氨基酸受体的类型和特征,结果如下：（１）Ｇｌｕ受体：ＫＡ可以诱发明显的去极化电流,而且Ｄｉａｚｏｘｉｄｅ能增强ＫＡ诱导的反应,这提示鲫鱼视网膜内某些Ｃｌｕ受体是ＡＭＰＡ选择性亚型（ＡＭＰＡ－ｐｒｅｆｅｒｒｉｎｇｓｕｂｔｙｐｅ）。（２）ＣＡＢＡ受体：ＧＡＢＡ能诱发一个快速、光滑的内向电流,绝大部分对ＧＡＢＡ的反应可被ｂｉｃｕｃｕｌｌｉｎｅ所压抑,而ＧＡＢＡ＿Ｂ受体的激动剂ｂａｃｌｏｆｅｎ则无任何作用,这提示,鲫鱼视网膜内大部分是ＧＡＢＡ＿Ａ受体。     

微透析测试刺激皮肤和肌肉神经引起的天门冬氨酸和谷氨酸在脊髓的释放

为分析ＮＭＤＡ和非ＮＭＤＡ受体在介导脊髓不同性质疼痛的机能分化,应用微透析技术,测量刺激皮肤和肌肉神经引起的天门冬氨酸（Ａｓｐ）和谷氨酸（Ｇｌｕ）在脊髓背角的释放。电刺激皮肤神经兴奋Ｃ纤维诱发的Ａｓｐ和Ｇｌｕ的释放分别是基础值的（３２３±５５）％（Ｐ＜００１）和（１６９±１６）％（Ｐ＜００５）;电刺激肌肉神经兴奋Ｃ纤维诱发的Ａｓｐ和Ｇｌｕ的释放分别是基础值的（１５０±１６）％（Ｐ＜００１）和（２１８±４２）％（Ｐ＜００５）。兴奋皮肤传入引起的Ａｓｐ释放明显高于Ｇｌｕ的释放（约３倍）;而兴奋肌肉传入引起的Ｇｌｕ释放明显高于Ａｓｐ的释放（约２倍）。从而提示,皮肤伤害性传入主要引起Ａｓｐ的释放增加,而肌肉的伤害性传入则主要引起Ｇｌｕ的释放增加,它们分别主要作用于ＮＭＤＡ和非ＮＭＤＡ受体而介导不同的痛传入信息。     

培养的海马神经元致痫后谷氨酸的合成和释放的变化

通过谷氨酸（Ｇｌｕｔａｍａｔｅ,Ｇｌｕ）免疫细胞化学染色法观察到马桑内酯（ＣｏｒｉａｒｉａＬａｃｔｏｎｅ,ＣＬ）（２．５×１０－５ｍｏｌ／Ｌ）作用于体外培养的海马神经元６ｈ呈色增强,此后呈色反应明显减弱,阳性细胞数减少,胞体变小,突起短而稀少。ＭＫ－８０１（４×１０－５ｍｏｌ／Ｌ）可降低ＣＬ引起的海马神经元Ｇｌｕ免疫反应性。高效液相色谱法（ＨＰＬＣ）测定ＣＬ作用于培养的海马神经元２４ｈ后培养基中Ｇｌｕ和天门冬氨酸（Ａｓｐ）含量增加（Ｐ＜０．００１）,ＭＫ－８０１并不能阻断此种效应。结果提示ＣＬ致痫后,早期神经元内Ｇｌｕ合成增加,后期向胞外释放。     

炎症介质对离体大鼠肠系膜动脉降钙素基因相关肽释放的影响

本工作目的是在离体大鼠肠系膜动脉床灌流模型上,观察几种常见炎症介质：前列腺素Ｅ２（ＰＧＥ２）、缓激肽（ＢＫ）、组胺（ＨＩＳ）、血小板活化因子（ＰＡＦ）及５－羟色胺（５－ＨＴ）对血管周围感觉神经介质ＣＧＲＰ释放的直接影响。结果显示：ＰＧＥ２（１－１００μｍｏｌ／Ｌ）和ＢＫ（５－１０μｍｏｌ／Ｌ）能引起大鼠肠系膜动脉床时间和浓度依赖性地释放ＣＧＲＰ。ＨＩＳ,ＰＡＦ和５－ＨＴ则未见明显作用。结果提示,ＰＧＥ２与ＢＫ可能是引起血管周围感觉神经兴奋和ＣＧＲＰ释放的主要炎症介质。     

前列腺素对肺泡巨噬细胞分泌白细胞介素－8的调控

本实验在经血清调理酵母聚糖激活的大鼠肺泡巨噬细胞（ＡＭ）体外培养４ｈ后,检测其上清液中的ＰＧｓ含量。消炎痛预处理使激活的ＡＭ的释放的ＰＧＥ１、Ｅ２、Ｆ２ａ量显著减少,Ｅ２／Ｅ１和Ｅ２／Ｆ２ａ比值降低;而细胞松弛素Ｂ预处理ＡＭ则可使上述ＰＧｓ的含量显著增加。以中性粒细胞趋化指数来反映ＩＬ－８的活性,表明消炎痛预处理ＡＭ组的ＩＬ－８的分泌量显著减少,而细胞松弛素Ｂ预处理ＡＭ组的ＩＬ－８分泌量显著增多。ＡＭ的ＰＧｓ释放量与其ＩＬ－８分泌量呈平行的变化关系,说明内源性ＰＧｓ在ＡＭ的分泌ＩＬ－８的活动中起着调控作用。     

中缝大核在刺激视上核镇痛中的作用

运用核团灌流液的放免测定和高压液相色谱法以及核团内注射拮抗剂,观察了化学刺激下丘脑视上核（ＳＯＮ）对中缝大核（ＮＲＭ）灌流液内催产素（ＯＴ）、精氨酸加压素（ＡＶＰ）和５－羟色胺（５－ＨＴ）含量的影响以及ＮＲＭ内注射ＡＶＰ、５－ＨＴ或ＯＴ受体拮抗剂对痛阈（ＰＴ）的影响。结果表明：ＳＯＮ内注射Ｌ－谷氨酸（Ｌ－Ｇｌｕ）１０μｇ后动物痛阈明显升高,ＮＲＭ灌流液中ＯＴ和５－ＨＴ的含量明显高于对照组水平,ＡＶＰ的含量仅有一过性增加。ＮＲＭ内注射ｏＴ或５－ＨＴ拮抗剂可逆转化学刺激ＳＯＮ引起的镇痛作用;而ＡＶＰ的Ｖ＿(１／２)受体拮抗剂也轻度抑制这种镇痛作用,但Ｖ＿１拮抗剂对此作用无影响。以上结果提示：在刺激ＳＯＮ镇痛中,ＯＴ起着重要作用,Ｌ－Ｇｌｕ刺激ＳＯＮ的ＯＴ细胞释放ＯＴ,作用于ＮＲＭ细胞的ＯＴ受体和Ｖ＿２受体而产生镇痛作用,５－ＨＴ在此过程中也发挥重要作用。     

Pancreatic beta cells colocalize insulin and pronesfatin immunoreactivity in rodents

Nesfatin-1 is a recently discovered feeding inhibitory peptide encoded in the precursor protein, nucleobindin 2 (pronesfatin). Previous studies have shown pronesfatin expression in the brain, stomach and pancreas. However, the identity of cells that express nesfatin in the pancreas remain unknown. The objective of this study was to determine which cells in the pancreas of mice and rats express pronesfatin immunoreactivity. We found pronesfatin immunopositive cells exclusively in the pancreatic islets of both CD1 mice and Fischer 344 rats. Our novel results indicate that the insulin producing beta cells colocalize pronesfatin in the islets of both mice and rats. No colocalization of glucagon and pronesfatin was found in mice, while some glucagon positive cells were positive for pronesfatin in rat islets. The abundant presence of pronesfatin immunoreactivity and its colocalization with insulin suggests a potential role for pronesfatin-derived peptides in islet biology and glucose homeostasis in rodents.     

Development of hormonal peptides and processing enzymes in the embryonic avian pancreas with special reference to co-localisation

Studies on the developing mammalian pancreas have suggested that insulin and glucagon co-exist in a transient cell population and that peptide YY (PYY) marks the earliest developing endocrine cells. We have investigated this in the embryonic avian pancreas, which is characterised by anatomical separation of insulin and glucagon islets. Moreover, we have compared the development of the endocrine cells to that of processing enzymes involved in pancreatic hormone biosynthesis. PYY-like immunoreactivity occurred in islet cells from the youngest stages examined: it increased in amount from approximately 5 days of incubation and was co-localised with glucagon and to a lesser extent with insulin. Insulin and glucagon cells were numerous: co-existence of the two peptides in the same cells was but rarely observed. From the youngest stages examined, prohormone convertase (PC) 1/3-like immunoreactivity was detected in insulin cells and PC2-, 7B2- and carboxypeptidase E-like immunoreactivity in both glucagon and insulin cells. We conclude that: (1) PYY-like immunoreactivity occurs in avian islet cells but generally in lesser amounts than in mammals at the earlier stages, (2) the paucity of cells co-expressing insulin and glucagon indicate that all avian insulin cells do not pass through a stage where they co-express glucagon and (3) the early expression of the enzymes responsible for the processing of prohormones suggests that this process is initiated soon after islet cells first differentiate.     

Effect of exercise training on insulin and glucagon release from perfused rat pancreas

The effect of physical training on insulin and glucagon release in perfused rat pancreas was examined in the spontaneously exercised group running in a wheel cage an average of 1.4 km/day for 3 weeks and in the sedentary control group kept in the cage whose rotatory wheel was fixed on purpose. Pancreatic immunoreactive insulin (IRI) responses to glucose and arginine were reduced by 28% and 47.8% respectively in trained rats compared with untrained rats, while IRI content of the pancreas was similar in these two groups. The demonstrated decrease in insulin secretion of the beta-cell of the trained rats, in response to the glucose and arginine stimulations, may be functional in nature. On the other hand, neither pancreatic glucagon immunoreactivity (GI) response to glucose and arginine nor GI content of the pancreas was modified by exercise training. These results demonstrate that exercise training reduces IRI responses to glucose as well as to arginine stimulations, but does not modify any secretory response of pancreatic GI.     

The role of leucine-enkephalin on insulin and glucagon secretion from pancreatic tissue fragments of normal and diabetic rats

Leucine-enkephalin (Leu-Enk) has been shown to be present in endocrine cells of the rat pancreas and may play a role in the modulation of hormone secretion from the islets of Langerhans. Since little is known about the effect of Leu-Enk on insulin and glucagon secretion, it was the aim of this study to determine the role of Leu-Enk on insulin and glucagon secretion from the isolated pancreatic tissue fragments of normal and diabetic rats. Pancreatic tissue fragments of normal and streptozotocin-induced diabetic rats were incubated for 1 h with different concentrations of Leu-Enk (10(-12)-10(-6)M) alone or in combination with either atropine or yohimbine or naloxone. After the incubation period the supernatant was assayed for insulin and glucagon using radioimmunoassay techniques. Leu-Enk (10(-12 )-10(-6)M) evoked large and significant increases in insulin secretion from the pancreas of normal rats. This Leu-Enk-evoked insulin release was significantly (p < 0.05) blocked by atropine, naloxone and yohimbine (all at 10(-6)M). In the same way, Leu-Enk at concentrations of 10(-12)M and 10(-9)M induced significant (p < 0.05) increases in glucagon release from the pancreas of normal rats. Atropine, yohimbine but not naloxone significantly (p < 0.05) inhibited Leu-Enk-evoked glucagon release from normal rat pancreas. In contrast, Leu-Enk failed to significantly stimulate insulin and glucagon secretion from the pancreas of diabetic rats. In conclusion, Leu-Enk stimulates insulin and glucagon secretion from the pancreas of normal rat through the cholinergic, alpha-2 adrenergic and opioid receptor pathways.     

Role of endocrine pancreas in temperature acclimation

Role of endocrine pancreas in temperature acclimation in rats was investigated. Plasma glucagon level increased and insulin level decreased in cold-acclimated rats (CA). The reverse was observed in heat-acclimated rats (HA). In the pancreas there were no changes in glucagon and insulin in CA, but a decrease in glucagon and an increase in insulin were found in HA. Plasma insulin/glucagon molar ratio (I/G) declined in CA and rose in HA. Pancreatic I/G rose in HA. Acute cold exposure elevated plasma glucagon, but did not affect plasma insulin. Pancreatic glucagon, insulin and I/G were not influenced by acute cold exposure, while plasma I/G decreased. Plasma I/G was inversely correlated with both blood free fatty acids and glucose levels. These results suggest that endocrine pancreas is closely associated with metabolic acclimation to cold and heat through its regulation of the metabolic direction to catabolic phase in cold acclimation and to anabolic phase in heat acclimation.     

Insulin, glucagon and somatostatin localization in the pancreas of metamorphosed Xenopus laevis

The current study was designed to determine if insulin, glucagon and somatostatin-containing cells are present in the pancreas of adult Xenopus laevis. Localization methods utilized included cytochemical aldehyde fuchsin (AF) staining as well as the immunochemical peroxidase antiperoxidase (PAP) procedure for light microscopy. The results show numerous large clusters of AF-positive cells within a network of highly vascularized acinar tissue. PAP immunochemical localization with insulin antibody on adjacent sections demonstrates positive immunoreactivity to AF-positive cell groups and also the presence of immunoreactive insulin (IRI). Cells exhibiting this immunoreactivity are located in the central region of the islet-like structures. Serial sections not only show PAP immunoreactivity for IRI, but also for immunoreactive glucagon (IRG) and immunoreactive somatostatin (IRS) in the same islet-like structure. IRG and IRS-containing cells are situated around the periphery of the islet-like structures, surrounding the central core of IRI-containing cells. Antibody specificity was confirmed by homologous and heterologous antigen immuno-absorbance assays, as well as incubation of adjacent sections in preimmune sera. Based on this data we conclude that: the distribution of cells of the endocrine pancreas of metamorphosed Xenopus laevis is similar to that of many mammals and certain urodeles. Given the apparent specificity of the antigen-antibody reactions, it appears that Xenopus insulin, glucagon and somatostatin are structurally conserved.     

Modulation of A and B cell functions by tolbutamide and arginine in the pancreas of thiamine-deficient rats

The effects of administration of glucose orally and tolbutamide or arginine intravenously on insulin and glucagon secretion and blood glucose level were studied in normal and thiamine-deficient rats. In thiamine deficiency, insulin secretion and glucose tolerance were impaired during glucose ingestion. Tolbutamide decreased the blood glucose level in both control and thiamine-deficient rats but its stimulatory effect on insulin secretion was minimal in thiamine-deficient rats unlike the control animals. Arginine did not alter substantially the blood glucose or insulin in thiamine-deficient rats, whereas it increased the insulin level in control rats. The fasting plasma glucagon level was high in thiamine deficiency. Tolbutamide increased the plasma glucagon in control rats, but did so only marginally in thiamine-deficient rats. Arginine also increased the glucagon secretion throughout the period of study in control rats. In thiamine-deficient rats the glucagon secretion was pronounced only after 20 min of arginine administration. These results suggest that an unimpaired glucose metabolism is a prerequisite to induce proper insulin secretion. Only proper insulin secretion can check the glucagon secretion rather than the increased glucose level. Hypoglycemia can induce glucagon secretion independent of the insulin level.     

Insulin release from the pancreas and fuel metabolism during late gestation in chemically diabetic rats

The effects of chemical diabetes and fasting on fuel metabolism and insulin secretory activity in late pregnancy were investigated. Female Wistar rats were made chemically diabetic (CD) by intravenous injection of streptozotocine (30 mg/kg) 2 weeks before conception. When CD pregnant rats were fed, plasma glucose and insulin levels were not significantly different from those of normal pregnant rats. Ketone body levels, however, were higher in CD pregnant rats than in normal pregnant rats, indicating insulin resistance in CD rats. Insulin secretion from the perfused pancreas caused by arginine or glucose was markedly decreased in CD pregnant rats. The pregnant rats were fasted for 2 days, from day 19 to 21 of gestation. Plasma glucose and insulin concentrations decreased similarly in the two groups, whereas ketone body concentrations in CD pregnant rats were significantly higher than those in normal pregnant rats. Glucose-induced insulin secretion by the perfused pancreas was markedly attenuated by fasting and was not significantly different in normal and CD pregnant rats. These observations suggest that diabetes mellitus accelerates starvation in late gestation, due to increased insulin resistance and poor insulin secretion, and that fasting in diabetic pregnancy amplifies ketogenesis.     

The duct-ligated pancreas transplant and its effect on the islet cellular composition of the host pancreas

Summary Rats rendered diabetic by streptozotocin were subjected to pancreas transplantation. After twenty weeks, the duct-ligated pancreas transplant was studied morphometrically to determine the effect of duct occlusion on the various cell populations of the islets. Concomitantly, the streptozotocin-treated host pancreas was examined for a possible influence of the graft on the diabetic pattern of islet cell population. Twenty weeks after pancreas transplantation, the volume fractions of insulin, glucagon, somatostatin and pancreatic polypeptide cells in the graft islets did not differ from those of the normal control pancreas. In the pancreas of nontransplanted diabetic rats, insulin-positive B cells were reduced from 60–65% to less than 10% of the islet volume, whereas non-B cells were significantly increased in volume density. The changes in fractional volume of the various islet cells correlated fairly well with changes in plasma concentration of the corresponding pancreas hormones. In the recipient's own pancreas, the relative volumes of glucagon and somatostatin cells were unaffected by the pancreas transplant. However, the insulin cell mass was significantly increased, and comprised about 20% of the islet volume, while cells containing pancreatic polypeptide were found only sporadically.Supported by Nordic Insulin Fund, The Swedish Diabetes Association, and MFR, proj. no. 4499. The technical assistance by M. Maxe and M. Carlesson is gratefully acknowledged