大鼠胃肌间神经丛中NOS阳性神经元的组织化学研究

采用ＮＡＤＰＨ┐黄递酶（ＮＤＰ）组织化学技术在整装铺片上对大鼠胃肌间神经丛中一氧化氮合酶（ＮＯＳ）阳性神经元进行定量和定位研究。结果显示：大鼠胃肌间神经丛中ＮＯＳ阳性神经元密度（个／ｍｍ２）分别为：６２．１±３７．７（幽门部）、４３．４±３１．７（胃体）、３１．６±２７．８（胃底）。胃底部神经节内神经元数量较少,神经元胞体较大,染色较深;幽门部神经节内神经元数量较多,胞体大小不等,染色深浅不一;胃体部的则介于两者之间,呈过渡态。结果表明：胃各部肌间神经丛中ＮＯＳ阳性神经元的差异可能与胃的生理功能密切相关     

大鼠内侧隔核、斜角带中NOS与ChAT、NGF-R、AChE的共存神经元

用酶组织化学和免疫组织化学双标技术,观察了正常ＳＤ大鼠基底前脑内侧隔核（ＭＳ）、斜角带垂直支（ＶＤＢ）和水平支（ＨＤＢ）中ＮＯＳ阳性神经元的形态和分布及ＮＯＳ与胆碱能神经元标志物ＣｈＡＴ、ＮＧＦ受体（ＮＧＦ－Ｒ）和ＡＣｈＥ之间的共存关系。结果发现,ＭＳ、ＶＤＢ和ＨＤＢ的头端ＮＯＳ阳性神经元较多、胞体较大、突起多,尾端ＮＯＳ阳性神经元数目较少、胞体较小、突起少而短。ＮＯＳ＋ＣｈＡＴ双标神经元占ＮＯＳ阳性神经元总数的９０％,占ＣｈＡＴ阳性神经元总数的３９％;ＮＯＳ＋ＮＧＦ－Ｒ双标神经元占ＮＯＳ阳性神经元总数的８３％,占ＮＧＦ－Ｒ阳性神经元总数的４０％;ＮＯＳ＋ＡＣｈＥ双标神经元占ＮＯＳ阳性神经元总数的９６％,占ＡＣｈＥ阳性神经元总数的３９％。这些结果为研究Ａｌｚｈｅｉｍｅｒ＇ｓｄｉｓｅａｓｅ病理过程中基底前脑隔区胆碱能神经元退变与ＮＯ的关系提供了形态学依据。     

缩胆囊表和促胰液表对豚鼠离体胃平滑肌运动的影响

用８个肌槽同时记录豚鼠胃不同部位肌条的收缩活动,以观察八肽缩胆囊素（ＣＣＬ－８）和促胰液素的影响。结果表明,ＣＣＫ－８能（１）增高各部位纵行肌和环行肌的张力;（２）加快胃体纵行肌,胃窦纵行肌、环行肌和幽门环行肌的收缩频率;（３）增大胃窦环行肌收缩波平均振幅和（４）增加幽门环行肌收缩波运动指数,但减少胃全和胃窦纵行肌收缩波平均振幅。上述作用均不能被阿托口 和炎痛所阻断。而促胰液素对各部位肌条的收缩活     

缩胆囊素和促胰液素对豚鼠离体胃平滑肌运动的影响

用８个肌槽同时记录豚鼠胃不同部位肌条的收缩活动,以观察八肽缩胆囊素（ＣＣＫ－８）和促胰液素的影响。结果表明：ＣＣＫ－８能（１）增高各部位纵行肌和环行肌的张力;（２）加快胃体纵行肌,胃窦纵行肌、环行肌和幽门环行肌的收缩频率;（３）增大胃窦环行肌收缩波平均振幅和（４）增加幽门环行肌收缩波运动指数,但减少胃体和胃窦纵行肌收缩波平均振幅。上述作用均不能被阿托品和消炎病所阻断。而促胰液素对各部位肌条的收缩活动没有明显的影响。     

cAMP在急性胃粘膜损害中作用的研究

本研究应用ＲＩＡ法,观察了大鼠胃组织ｃＡＭＰ含量与急性胃粘膜损害之间的关系。结果表明：（１）由消炎痛或失血性休克引起的急性胃粘膜损害时,胃组织ｃＡＭＰ含量明显降低;事先使用异搏定（１０ｍｇ／ｋｇ）可使胃组织ｃＡＭＰ含量明显增加,并使由消炎痛引起的急性胃粘膜损害相应减轻。（２）在正常情况下,胃窦、胃体组织间ｃＡＭＰ含量并非相等,胃窦部组织ｃＡＭＰ含量高于胃体部组织,与此相应的是急性胃粘膜损害主要局限在胃体部。上述引起急性胃粘膜损害的诸因素均可使这种差别加大。５和１０ｍｇ／ｋｇ剂量的异搏定可使消炎痛所致急性胃粘膜损害的大鼠胃体部组织的ｃＡＭＰ含量明显增加,与胃窦部组织ｃＡＭＰ含量的差值变小,结果是胃体部粘膜的损害明显减轻。提示胃组织ｃＡＭＰ含量变化在急性胃粘膜损害中有一定的作用。     

隔区亚细胞群乙酸胆碱酯酶阳性神经元的分布

采用组织化学方法研究了１８只大鼠隔区６个亚细胞群乙酰胆碱酯酶（ＡｃｈＥ）阳性神经元的分布。结果表明,隔核存在着大量的ＡｃｈＥ阳性神经元,并发现主要集中在斜角带核垂直部（ＶＤＢ）和斜角带核水平部（ＨＤＢ）、还观察到在ＶＤＢ腹侧部和ＨＤＢ前部的ＡＣｈＥ阳性神经元呈环形排列。     

大鼠脊髓不完全性损伤后前角运动神经元的酶细胞化学改变

以改良Ａｌｅｎ氏法造成Ｗｉｓｔａｒ大鼠不完全性脊髓损伤,采用神经学功能评分法评定大鼠运动功能,应用定量酶细胞化学方法观察脊髓前角运动神经元内乙酰胆碱酯酶（ＡＣｈＥ）和酸性磷酸酶（ＡｃＰ）活性变化。结果显示：１．脊髓损伤后大鼠运动功能障碍,随后逐渐恢复。２．前角运动神经元内ＡＣｈＥ活性减弱、ＡｃＰ活性增强;随后酶活性呈逐渐恢复,四周时ＡＣｈＥ活性基本恢复正常。结果说明：大鼠脊髓不完全性损伤后运动功能变化与前角运动神经元的功能状态具有较强的相关性;前角运动神经元在不完全性脊髓损伤运动功能恢复中起重要作用。     

cAMP在急性胃粘膜损害中的作用的研究

本研究应用ＲＩＡ法,观察了大鼠胃组织的ｃＡＭＰ含量与急性胃粘膜损害之间的关系。结果表明：（１）由消炎痛或失血性休克引起的急性胃粘膜损害时,胃组织ｃＡＭＰ含量明显降低;事先使用异搏定（１０ｍｇ／ｋｇ）可使胃组织ｃＡＭＰ含量明显增加,并使由消炎痛引起的急性胃粘膜损害相应减轻。（２）在正常情况下,胃窦、、胃体组织间ｃＡＭＰ含量并非相等,胃窦部组织ｃＡＭＰ含量高于胃体部组织,与此相应的是急性胃粘膜损害主要     

家鸽圆核和峡核的免疫细胞化学分析

应用组织化学和免疫细胞化学方法发现,位于家鸽间脑的圆核（Ｎ．Ｒｔ）含有大约６０％的ＣｈＡＴ免疫阳性神经元,而中脑峡核大细胞部（Ｉｍｃ）所有细胞呈ＣｈＡＴ免疫阳性反应。     

海人酸对大鼠基底核功能的影响

由基底核发出的胆碱能投射纤维,直接投射到新皮层的中枢胆碱能系统,与学习、记忆有着密切的联系。ＡｌｚｈｅｉｍｅｒＤｉｓｅａｓａ（ＡＤ）患者的突出表现是胆碱能系统的改变,临床表现为认知功能和记忆障碍。ＡＤ患者的基底神经核的大型神经元明显减少,大脑皮层乙酰胆碱（Ａｃｈ）含量和胆碱乙酰转移酶的活性降低,并且两者之间有着密切的关系。本研究选用ＳＤ大白鼠通过立体定位技术,在鼠脑双侧基底核注入海人酸选择性地破坏神经元,造成胆碱能系统的中枢性破坏,观察其学习、记忆功能和脑内乙酰胆碱及其他递质的含量,而进一步了…     

Neural, hormonal, and paracrine regulation of gastrin and acid secretion.

Physiological stimuli from inside and outside the stomach coverage on gastric effector neurons that are the primary regulators of acid secretion. The effector neurons comprise cholinergic neurons and two types of non-cholinergic neurons: bombesin/GRP and VIP neurons. The neurons act directly on target cells or indirectly by regulating release of the hormone, gastrin, the stimulatory paracrine amine, histamine, and the inhibitory paracrine peptide, somatostatin. In the antrum, cholinergic and bombesin/GRP neurons activated by intraluminal proteins stimulate gastrin secretion directly and, in the case of cholinergic neurons, indirectly by eliminating the inhibitory influence of somatostatin (disinhibition). In turn, gastrin acts on adjacent somatostatin cells to restore the secretion of somatostatin. The dual paracrine circuit activated by antral neurons determines the magnitude of gastrin secretion. Low-level distention of the antrum activates, preferentially, VIP neurons that stimulate somatostatin secretion and thus inhibit gastrin secretion. Higher levels of distention activate predominantly cholinergic neurons that suppress antral somatostatin secretion and thus stimulate gastrin secretion. In the fundus, cholinergic neurons activated by distention or proteins stimulate acid secretion directly and indirectly by eliminating the inhibitory influence of somatostatin. The same stimuli activate bombesin/GRP and VIP neurons that stimulate somatostatin secretion and thus attenuate acid secretion. In addition, gastrin and fundic somatostatin influence acid secretion directly and indirectly by regulating histamine release. Acid in the lumen stimulates somatostatin secretion, which attenuates acid secretion in the fundus and gastrin secretion in the antrum.     

Contractile responses of longitudinal and circular smooth muscle of the canine stomach to prostaglandins E and F2α

Muscle strips were excised from the circular and longitudinal layers of the fundus, corpus and antrum, and from the inner portion of the pyloric ring. In general prostaglandin(PG)F₂α as well as PGE₁ and PGE₂ stimulated the longitudinal muscle. However, there were remarkable regional differences. The sensitivity to PGs was greatest in the fundus and corpus (threshold near 10⁻¹⁰ mol/1) and only weak in antrum (threshold 5·10⁻⁸ to 10⁻⁷ mol/1). In longitudinal antrum strips acetylcholine induced a combined phasic-tonic response, whereas PGs produced purely phasic responses. The effects of PGF_2α and PGE on the circular layer were complex. PGF_2α produced excitatory responses in circular fundus and corpus similar to those in the longitudinal layer of the same regions. PGE produced dual responses in circular fundus (excitation at low concentration and strong inhibition at concentration of 10⁻⁷ mol/1). In circular corpus PGE induced pure inhibition (threshold near 10⁻⁹ mol/1). In circular antrum and inner pylorus both PGE and PGF_2α produced inhibition of the phasic activity (threshold 10⁻⁸ to 10⁻⁷ for antrum and 10⁻⁹ mol/1 for inner pylorus). These effects of PGs appeared in the presence of adrenergic and cholinergic blocking agents as well as of tetrodotoxin and were therefore, direct effects on smooth muscle. Indomethacin (10⁻⁷–10⁻⁶ mol/1) suppressed spontaneous tone of the fundus and corpus and increased phasic activity of inner pylorus. This indicates that endogenous PG synthesis may be involved in the control of spontaneous activity in gastric muscle.     

Catecholaminergic neurons in rat dorsal motor nucleus of vagus project selectively to gastric corpus

Nitric oxide synthase-immunoreactive (NOS-IR) neurons in the rat caudal dorsal motor nucleus of the vagus (DMV) project selectively to the gastric fundus and may be involved in vagal reflexes controlling gastric distension. This study aimed to identify the gastric projections of tyrosine hydroxylase-immunoreactive (TH-IR) DMV neurons, whether such neurons colocalize NOS-IR, and if they are activated after esophageal distension. Gastric-projecting neurons were identified after injection of retrograde tracers into the muscle wall of the gastric fundus, corpus, or antrum/pylorus before removal and processing of the brain stems for TH- and NOS-IR. A significantly higher proportion of corpus- compared with fundus- and antrum/pylorus-projecting neurons were TH-IR (14% compared with 4% and 2%, respectively, P < 0.05). Colocalization of NOS- and TH-IR was never observed in gastric-projecting neurons. In rats tested for c-Fos activation after intermittent esophageal balloon distension, no colocalization with TH-IR was observed in DMV neurons. These findings suggest that TH-IR neurons in the caudal DMV project mainly to the gastric corpus, constitute a subpopulation distinct from that of nitrergic vagal neurons, and are not activated on esophageal distension.     

Bombesin-like immunoreactivity in human gastrointestinal tract

In the present study the distribution and molecular characteristics of bombesin-like immunoreactivity (BLI) were studied in acid extracts of human gastrointestinal tract. The highest levels were found in the fundus, antrum, pylorus and pancreas with lower levels in the duodenum, jejunum, terminal ileum and colon. BLI was also detected in both the muscle and mucosal layers of the antrum and colon. Sephadex G-50 gel chromatography under acid dissociating conditions revealed two peaks of immunoreactivity, one in the position of synthetic porcine gastrin releasing peptide (GRP) and the second eluting with synthetic amphibian bombesin. Variations in the proportions of the two molecular forms were seen in different regions of the gut. In the stomach and pancreas greater than 70% of the BLI eluted with the GRP marker while in pylorus, jejunum and terminal ileum only 20% was present in this form. Reverse-phase ODS silica HPLC of the major antral BLI peak, utilising a methanol/trifluoroacetic acid gradient indicated that this peptide was similar to porcine GRP. We have therefore (1) demonstrated the presence and heterogeneity of bombesin-like immunoreactivity throughout the human gastrointestinal tract and (2) shown for the first time that a proportion of this BLI closely resembles porcine GRP.     

In vitro response of rat gastrointestinal segments to cholecystokinin and bombesin

In previous studies of the rat gastrointestinal (GI) tract, we have demonstrated specific binding of cholecystokinin (CCK) to the pylorus and of bombesin (BN) to the gastric fundus, gastric antrum, duodenum, and ileum. We now present the results of an investigation of the in vitro response of the same regions of the rat GI tract to CCK-8 (the active octapeptide of CCK) and BN. Sections of rat fundus, antrum, pylorus, duodenum, and ileum were suspended in a Tyrode buffer and attached to an isometric pressure transducer in a longitudinal orientation. Dose-response curves to CCK-8 and BN were generated for each tissue. CCK-8 consistently induced a change only in pylorus, while BN induced a response from fundus, antrum and duodenum. With the exception of the lack of ileal response to BN, the regions of the rat GI tract which biologically respond (i.e., contract or relax) to CCK-8 or BN were the same regions in which we have located BN and CCK-8 binding sites. This correlation supports the hypothesis that GI function is modified by specified hormone-receptor interactions with these peptides.     

Central vagal stimulation activates enteric cholinergic neurons in the stomach and VIP neurons in the duodenum in conscious rats

The influence of central vagal stimulation induced by 2h cold exposure or intracisternal injection of thyrotropin-releasing hormone (TRH) analog, RX-77368, on gastro-duodenal enteric cholinergic neuronal activity was assessed in conscious rats with Fos and peripheral choline acetyltransferase (pChAT) immunoreactivity (IR). pChAT-IR was detected in 68%, 70% and 73% of corpus, antrum and duodenum submucosal neurons, respectively, and in 65% of gastric and 46% of duodenal myenteric neurons. Cold and RX-77368 induced Fos-IR in over 90% of gastric submucosal and myenteric neurons, while in duodenum only 25-27% of submucosal and 50-51% myenteric duodenal neurons were Fos positive. In the stomach, cold induced Fos-IR in 93% of submucosal and 97% of myenteric pChAT-IR neurons, while in the duodenum only 7% submucosal and 5% myenteric pChAT-IR neurons were Fos positive. In the duodenum, cold induced Fos in 91% of submucosal and 99% of myenteric VIP-IR neurons. RX-77368 induces similar percentages of Fos/pChAT-IR and Fos/VIP-IR neurons. These results indicate that increased central vagal outflow activates cholinergic neurons in the stomach while in the duodenum, VIP neurons are preferentially stimulated.     

Regional gastric contractility alterations in a diabetic gastroparesis mouse model: effects of cholinergic and serotoninergic stimulation

The C57BLKS/J db/db mouse develops hyperglycemia and has delayed gastric emptying that is improved with tegaserod, a partial 5-HT4 agonist. Our aims here were to determine regional gastric contractility alterations in C57BLKS/J db/db mice and to determine the effects of serotonin and tegaserod. The contractile effects of bethanechol, serotonin, and tegaserod in fundic, antral, and pyloric circular muscle were compared in C57BLKS/J db/db mice and normal littermates. The effects of tetrodotoxin, atropine, and 5-HT receptor antagonists were studied. Contractions in response to bethanechol were decreased in the fundus, similar in the antrum, but increased in the pylorus in diabetic mice compared with controls. Serotonin and, to a lesser extent, tegaserod caused contractions that were more pronounced in the fundus than in the antrum and pylorus in both diabetic and normal mice. Serotonin-induced contractions were partially inhibited by atropine, the 5-HT4 antagonist GR113808, and the 5-HT2 antagonist cinanseron but not tetrodotoxin. Regional gastric contractility alterations are present in this diabetic gastroparesis mouse model. Fundic contractility was decreased, but pyloric contractility was increased in the pylorus to cholinergic stimulation in diabetic mice. Serotonin's contractile effect is mediated, in part, through muscarinic, 5-HT2, and 5-HT4 receptors. This study suggests that fundic hypomotility and pyloric hypercontractility, rather than antral hypomotility, play important roles for the gastric dysmotility that occurs in diabetes.     

Downregulation of nNOS and synthesis of PGs associated with endotoxin-induced delay in gastric emptying

A single intraperitoneal injection of endotoxin (40 microg/kg) significantly delayed gastric emptying of a solid nutrient meal. Blockade of nitric oxide synthase (NOS) with 30 mg/kg ip N(G)-nitro-L-arginine methyl ester or 20 mg/kg ip 7-nitroindazole [neuronal NOS (nNOS) inhibitor] significantly delayed gastric emptying in control animals but failed to modify gastric emptying in endotoxin-treated rats. Administration of 2.5, 5, and 10 mg/kg ip N(6)-iminoethyl-L-lysine [inducible NOS (iNOS) inhibitor] had no effect in either experimental group. Indomethacin (5 mg/kg sc), NS-398 (cyclooxygenase-2 inhibitor; 10 mg/kg ip), and dexamethasone (10 mg/kg sc) but not quinacrine (20 mg/kg ip) significantly prevented delay in gastric emptying induced by endotoxin but failed to modify gastric emptying in vehicle-treated animals. Ca(2+)-dependent NOS activity in the antrum pylorus of the stomach was diminished by endotoxin, whereas Ca(2+)-independent NOS activity was not changed. In addition, decreased nNOS mRNA and protein were observed in the antrum pylorus of endotoxin-treated rats. Our results suggest that downregulation of nNOS in the antrum pylorus of the stomach and synthesis of prostaglandins mediate the delay in gastric emptying of a solid nutrient meal induced by endotoxin.     

Modulation of smooth muscle activity by excitatory and inhibitory nerves in the guinea-pig stomach

• 1.1. In smooth muscle of the guinea-pig stomach, intramural nerve stimulation evoked cholinergic excitatory junction potential in the fundus and non-adrenergic non-cholinergic inhibitory junction potential in the antrum, yet cholinergic contractions in both regions.
• 2.2. This dissociation between electrical and mechanical responses was mainly due to different sensitivity of the membrane for depolarization to acetylcholine.