异丙肾上腺素对大鼠心骨神经节中生长抑素（SS）影响的研究

研究异丙肾上腺对心内神经节中肽能神经递质SS的影响。本在大鼠皮下注射异丙肾上腺素5mg/kg,连续三天,固定后取心房后壁,用免疫组织化学结合图像分析方法观察大鼠心骨神经节中肽能递质SS的变化,对照组大鼠心内神经节中含有SS免疫反应（SS－IR）性神经纤维和细胞,实验组大鼠心内神经节中SS－IR阳性神经纤维和神经元的积分光密度均明显减低。结果说明异丙肾上腺素可降低心内神经节中SS含量,提示,异丙肾上腺素的正性变时和变力作用可能通过降低SS的含量来实现。     

异丙肾上腺素对大鼠心内神经节中生长抑素(SS)影响的研究

研究异丙肾上腺对心内神经节中肽能神经递质 SS的影响 ,本文在大鼠皮下注射异丙肾上腺素 5 m g/ kg,连续三天 ,固定后取心房后壁 ,用免疫组织化学结合图像分析方法观察大鼠心内神经节中肽能递质 SS的变化。对照组大鼠心内神经节中含有 SS免疫反应 (SS- IR)阳性神经纤维和细胞 ;实验组大鼠心内神经节中 SS- IR阳性神经纤维和神经元的积分光密度均明显减低。结果说明异丙肾上腺素可降低心内神经节中 SS含量 ,提示 ,异丙肾上腺素的正性变时和变力作用可能通过降低 SS的含量来实现。     

选择性切除交感神经对大鼠心内神经节中去甲肾上腺素、乙酰胆碱和NPY的影响

为了探讨心内神经节中去甲肾上腺素（ＮＡ）、乙酰胆碱（ＡＣｈ）和ＮＰＹ的相互作用,本实验应用６－ＯＨ－ＤＡ选择性切除大鼠心脏交感神经纤维,然后应用荧光和酶组织化学法、免疫组织化学结合图像分析法观察了大鼠心内神经节ＮＡ、ＡＣｈＥ活性和ＮＰＹ的变化。结果显示：实验组大鼠心内神经节中儿茶酚胺荧光反应阳性和ＮＰＹ免疫反应（ＮＰＹ－ＩＲ）阳性的神经纤维明显减少,ＡＣｈＥ阳性神经纤维明显增多,ＡＣｈＥ反应性神经元积分光密度增加,而儿茶酚胺荧光反应和ＮＰＹ－ＩＲ阳性神经元变化不明显。结果提示：１．交感神经化学切除后大鼠心内神经节中ＮＡ、ＡＣｈＥ活性和ＮＰＹ出现不同的变化,体现了心脏交感神经和副交感神经的相互抑制作用;２．心内神经节可能含有两种性质的ＮＰＹ,即交感性和非交感性ＮＰＹ。     

化学损毁交感神经后大鼠心内神经节生长抑素的变化

应用免疫组织化学和原位杂交方法研究了大鼠心内神经节细胞中SS的分布及其mRNA表达。结果发现,大鼠心内神经节中有SS－IR阳性神经纤维和细胞,心内神经部分细胞浆中有SSmRNA表达,表明大鼠心内神经节细胞有SS合成和贮存。用小剂量6－OH－DA选择性损毁心内交感神经纤维后,心内神经节中SS－IR阳性神经纤维和细胞的积分光密度均有不同程度增强,反映了心内交感神经和付交感神经的相互抑制作用。     

金黄仓鼠视皮层、上丘和外侧膝状体中的血管活性肠肽(VIP)神经元及其纤维

用程序稍有不同的两种ＰＡＰ法对视觉通路中的三个重要区域视皮层、上６和外侧膝状体中的 血管活性肠肽（ＶＩＰ）进行了定位,．视皮层Ⅱ至Ⅵ层都有ＶＩＰ阳性神经元分布,内域性的阳性神经 纤维遍布整个视皮层。上丘中的ＶＩＰ阳性神经无数量较少,主要分布于上丘的咀部表层,视皮层和 上丘中的ＶＩＰ神经元均为非锥体型的多极和双极神经元。外侧膝状体中未发现有ＶＩＰ阳性神经元 胞体．只有弥散的阳性神经纤维。     

大鼠心内精氨酸血管加压素免疫反应阳性神经元的观察

本文用精氨酸血管加压素抗血清作为第一级抗体,通过石蜡切片免疫组织化学 PAP 法对大鼠心内神经节进行了研究,发现心内不仅存在精氨酸血管加压素免疫反应阳性的神经纤维,而且含有该免疫反应阳性的神经细胞。关于精氨酸血管加压素免疫反应阳性的胞体和纤维在心内存在的生理学意义本文进行了讨论。     

地塞米松对哮喘豚鼠肺内VIP分布的影响

为探讨哮喘豚鼠肺内血管活性肠肽（ＶＩＰ）的分布及地塞米松对其分布的影响,将豚鼠随机分成哮喘组、地塞米松组和对照组三组,采用兔抗ＶＩＰ多克隆血清,免疫组织化学ＡＢＣ法和葡萄糖氧化酶－ＤＡＢ－镍染色技术,发现对照豚鼠肺内各级气道壁均可见ＶＩＰ免疫反应（ＶＩＰ－ＩＲ）阳性纤维分布。在平滑肌层中,纤维成束走行,且有较多分枝;而在基底膜和气道上皮内,纤维成单根行走。随气道口径的变小,纤维分布密度也逐渐变小。哮喘豚鼠肺内ＶＩＰ－ＩＲ消失。地塞米松处理后使ＶＩＰ－ＩＲ部分恢复。上述结果提示,豚鼠经反复抗原攻击后,肺内ＶＩＰ－ＩＲ阳性纤维消失,这在实验性哮喘的发生过程中可能起一定作用。     

人十二指肠血管活性肠肽能P物质能神经分布的研究

本文采用免疫组织化学ＡＢＣ法研究血管活性肠肽（ＶＩＰ） 能神经和Ｐ物质（ＳＰ） 能神经在人十二指肠壁内的分布。结果显示： ＶＩＰ能和ＳＰ能神经纤维和神经元均呈棕褐色; ＶＩＰ能神经纤维遍布肠壁各层,ＳＰ能神经纤维主要分布于肌层和神经丛; ＶＩＰ能和ＳＰ能神经元见于肌间和粘膜下神经, 尤以后者为多, 但形态特点不同; 在肌间神经丛, ＳＰ能神经元比ＶＩＰ能神经元多。粘膜内可见ＶＩＰ能和ＳＰ能神经元, 多单个分布在粘膜肌层内。结果表明： １ＶＩＰ能和ＳＰ能神经在人十二指肠壁内分布有差异。２粘膜内存在ＶＩＰ能和ＳＰ能神经元     

C 肤对糖尿病大鼠坐骨神经结构和功能的影响

目的：探讨外源性C肽对Ⅰ型糖尿病大鼠坐骨神经结构及功能的影响。方法：选取Wistar大鼠40只,分为正常对照组（NC组）和糖尿病组（Dia组）,糖尿病组链脲佐菌素诱发大鼠成模后,再随机分为三组：糖尿病组（Dia组）、胰岛素治疗组（In组）和C肽治疗组（CP组）8周后,测定各组大鼠运动、感觉神经传导速度,并对病变大鼠的坐骨神经进行病理定量图像分析及超微结构分析,结果：1．In组、CP肽组与DM组相比：大鼠运动、感觉神经传导速度均明显增加（P〈0．01）;2．腓肠神经纤维的数量和总横截面面积也显著增加（P〈0.01）。3．CP组与In组相比运动、感觉神经传导速度也显著增加（P〈0．01）。4．电镜显示：Dia组有髓神经纤维髓鞘发生分离并有无颗粒囊胞状结构聚集现象,In组有髓神经纤维髓鞘分离现象明显减轻但仍有无颗粒囊胞状结构聚集现象．而CP组有髓神经纤维结构完全接近正常组。结论：C肽在改善糖尿病大鼠的神经结构和功能方面明显优于胰岛素．     

先天性巨结肠病NOS阳性神经和VIP能神经的异常改变──酶组织化学与免疫组织化学联合法的研究

本文应用还原型辅酶Ⅱ（ＮＡＤＰＨ－Ｏ）－黄递酶组织化学和血管活性肠肽（ＶＩＰ）的免疫组织化学联合染色法,对１０例先天性巨结肠病扩张段和狭窄段结肠及４例“正常对照”结肠进行观察,结果发现：（１）狭窄段结肠壁丛内均缺失含一氧化氮合酶（ＮＯＳ）和ＶＩＰ神经元胞体。（２）狭窄段结肠肌层内ＮＯＳ和ＶＩＰ阳性纤维比“正常”结肠明显减少,酶活性或免疫反应性弱。结果表明,二种神经在病变肠段痉挛狭窄的神经病理机制诸因素中起重要作用。     

Tissue distribution and innervation pattern of peptide immunoreactivities in the rat pancreas.

The distribution of calcitonin gene-related peptide (CGRP), substance P/tachykinin (SP/TK), vasoactive intestinal polypeptide (VIP), neuropeptide Y (NPY) and gastrin-releasing peptide (GRP) immunreactivities (IR) in the rat pancreas was investigated using radioimmunoassay and immunohistochemistry. CGRP, NPY and VIP tissue contents are much higher than GRP and SP/TK concentrations. Peptide-containing nerves are distributed to both the exocrine and endocrine pancreas. However, differences exist in terms of density and targets of innervation for each peptidergic system. In the acini and through the stroma, fibers IR for CGRP, NPY and VIP are greater than GRP- and SP/TK-containing processes. The vasculature is supplied by a prominent NPY, CGRP and, to a lesser extent, SP/TK innervation. VIP-IR is found occasionally, and GRP-IR is never detected, in fibers associated with blood vessels. Around ducts, CGRP- and NPY-positive neurites are greater than SP/TK- greater than or equal to VIP-IR fibers, whereas GRP-containing nerves are not visualized. In the islets, the density of peptidergic nerves is: VIP-, GRP- greater than or equal to CGRP-IR greater than NPY or SP/TK. In intrapancreatic ganglia. VIP- and, to a lesser extent, NPY-IRs are found in numerous neuronal cell bodies and in nerve fibers; GRP-IR is present in numerous nerve processes and in few cell bodies; CGRP- and SP/TK-IRs are detected only in fibers wrapping around unlabeled ganglion cells. The majority of CGRP-IR fibers contain SP/TK-IR. The existence of differential patterns of peptidergic nerves suggests that peptides exert their effects on pancreatic functions via different pathways.     

Presence and co-localization of vasoactive intestinal polypeptide with neuronal nitric oxide synthase in cells and nerve fibers within guinea pig intrinsic cardiac ganglia and cardiac tissue

The presence of vasoactive intestinal polypeptide (VIP) has been analyzed in fibers and neurons within the guinea pig intrinsic cardiac ganglia and in fibers innervating cardiac tissues. In whole-mount preparations, VIP-immunoreactive (IR) fibers were present in about 70% of the cardiac ganglia. VIP was co-localized with neuronal nitric oxide synthase (nNOS) in fibers innervating the intrinsic ganglia but was not present in fibers immunoreactive for pituitary adenylate cyclase-activating polypeptide, choline acetyltransferase (ChAT), tyrosine hydroxylase, or substance P. A small number of the intrinsic ChAT-IR cardiac ganglia neurons (approximately 3%) exhibited VIP immunoreactivity. These few VIP-IR cardiac neurons also exhibited nNOS immunoreactivity. After explant culture for 72 h, the intraganglionic VIP-IR fibers degenerated, indicating that they were axons of neurons located outside the heart. In cardiac tissue sections, VIP-IR fibers were present primarily in the atria and in perivascular connective tissue, with the overall abundance being low. VIP-IR fibers were notably sparse in the sinus node and conducting system and generally absent in the ventricular myocardium. Virtually all VIP-IR fibers in tissue sections exhibited immunoreactivity to nNOS. A few VIP-IR fibers, primarily those located within the atrial myocardium, were immunoreactive for both nNOS and ChAT indicating they were derived from intrinsic cardiac neurons. We suggest that, in the guinea pig, the majority of intraganglionic and cardiac tissue VIP-IR fibers originate outside of the heart. These extrinsic VIP-IR fibers are also immunoreactive for nNOS and therefore most likely are a component of the afferent fibers derived from the vagal sensory ganglia. This work was supported by NIH grant HL65481 (R.L.P.) and HL54633 (D.B.H.). Use of the DeltaVision Restoration microscope was provided through the Imaging/Physiology Core supported by NIH Grant P20 RR16435 from the COBRE program of the National Center for Research Resources     

Development of VIP in the peripheral nervous system of avian embryo

The distribution of the VIP containing structures was studied in the gut and in the paravertebral sympathetic ganglia of the quail and chick embryos by immunocytochemistry. In the gut, development of peptidergic nerves followed a craniocaudal gradient. Immunoreactive fibres were first visible in the oesophagus at day 9 in the quail and day 10 in the chick, at 12 days they extended over the whole length of the gut. Cell bodies were localized at day 9 in the foregut and observed in the mid- and hind-gut just before hatching. Transplantations on the chorioallantoic membrane of fragments of various parts of the digestive tract clearly demonstrated that VIP nerve cell bodies belonged to the intrinsic innervation of the gut. Besides the gut, sympathetic paravertebral ganglia contained cells with VIP immunoreactivity detected at day 9 and 10 in quail and chick respectively. In order to find out whether VIP containing neurons differentiated normally in chick embryos in which quail neural crest cells had been implanted at an early stage of development we looked for the appearance of peptidergic neurones in the following situations: when the quail neural primordium had been grafted orthotopically and isochronically into chick host (1) at the adrenomedullary (somites 18-24) and (2) at the vagal (somites 1-7) levels of the neural axis. In all conditions VIP immunoreactivity was observed in quail cells located either in the sympathetic paravertebral ganglia of the trunk at the level of the graft or in the enteric ganglia according to the graft was made at the adrenomedullary and vagal levels respectively.(ABSTRACT TRUNCATED AT 250 WORDS)     

Pituitary adenylate cyclase activating polypeptide is expressed in autonomic neurons

Pituitary adenylate cyclase activating polypeptide (PACAP) is a novel vasoactive intestinal peptide (VIP)-like peptide, which is present in neuronal elements of several peripheral organs, and thus a putative neurotransmitter/modulator. In the present study, the expression of PACAP in two parasympathetic ganglia (otic, sphenopalatine) and one mixed parasympathetic/sensory ganglion (jugular-nodose) in rat was characterized by use of in situ hybridization and immunocytochemistry and compared to that of VIP and calcitonin gene-related peptide (CGRP). PACAP and VIP were expressed in virtually all nerve cell bodies in the otic and sphenopalatine ganglia; PACAP and VIP were also expressed in subpopulations of nerve cell bodies in the jugular-nodose ganglion. CGRP was expressed in numerous nerve cell bodies in the jugular-nodose ganglion and in a few, scattered, nerve cell bodies in the sphenopalatine ganglion. In the otic and sphenopalatine ganglia, PACAP- and VIP-like immunoreactivities were frequently co-localized; in the jugular-nodose ganglion, PACAP-like immunoreactivity was frequently co-localized with CGRP-like immunoreactivity in presumably sensory neurons and to a lesser extent with VIP in parasympathetic neurons. Thus, PACAP is synthesized and stored in autonomic parasympathetic neurons as well as in vagal sensory neurons, which provides an anatomical basis for the diverse effects of PACAP previously described.     

Immunohistochemical detection of ganglia in the rat stomach serosa, containing neurons immunoreactive for gastrin-releasing peptide and vasoactive intestinal peptide

Ganglia, not previously described, were identified in the rat stomach serosa along the minor curvature. The ganglia consisted of varying number of cell bodies lying in clusters along or within nerve bundles. The ganglia were shown to contain GRP and VIP immunoreactive nerve fibers and cell bodies and also some NPY immunoreactive fibers, whereas they were devoid of somatostatin immunoreactivity. Nerve ligation experiments indicated that the ganglia are intrinsic to the stomach.     

Immunohistochemical detection of ganglia in the rat stomach serosa,containing neurons immunoreactive for gastrin-releasing peptide and vasoactive intestinal peptide

Summary Ganglia, not previously described, were identified in the rat stomach serosa along the minor curvature. The ganglia consisted of varying number of cell bodies lying in clusters along or within nerve bundles. The ganglia were shown to contain GRP and VIP immunoreactive nerve fibers and cell bodies and also some NPY immunoreactive fibers, whereas they were devoid of somatostatin immunoreactivity. Nerve ligation experiments indicated that the ganglia are intrinsic to the stomach.     

Histochemical,Immunohistochemical, and Electron Microscopy Study of the Caudal Portion of the Chicken Intestinal Nerve of Remak

In order to deepen our knowledge of the different components of the chicken intestinal nerve of Remak (I.N.R.), we have studied it by means of histochemical, immunohistochemical and electron microscopy techniques to distinguish the different neurotransmitters. We have found cholinergic cell bodies, as well as acetylcholinesterase (AChE) positive neuronal fibers, forming part of the web that constitutes the I.N.R. in its caudal portion, with a higher density of neuronal bodies in the ganglia. We also observed catecholaminergic neuronal bodies and fibers, located fundamentally in the periphery of the nerve, and a low density of catecholaminergic cell bodies. With respect to the vasoactive intestinal peptide (VIP) and substance P (SP) positive peptidergic innervation, we found more abundant neuronal bodies positive for the V.I.P. than for S.P. Electron microscopy corroborated the results observed under the optic microscope, showing the various types of vesicles containing different neurotransmitters.