猫延髓吻侧腹外侧区NPY、SOM和NT免疫反应物质的分布

生理学研究表明,延髓吻侧腹外侧区(RVL)在维持血压稳定方面起着关键的作用。本文用免疫组化ABC技术,观察了猫RVL神经肽Y(NPY)、生长抑素(SOM)和神经降压肽(NT)免疫反应(IR)细胞和纤维的分布,以便为研究此区血压调节功能的机制提供形态学资料。结果表明:NPY—、SOM—IR细胞和少量NT—IR细胞主要分布于旁巨细胞外侧核、外侧网状核吻侧部以及外侧网状核背侧紧邻的网状结构。这些细胞从RVL尾侧向吻侧逐渐减少。NPY—IR纤维分布于旁巨细胞外侧核以及外侧网状核吻侧部的腹内侧区。NT—IR纤维较多,可见两丛中等密度的NT—IR纤维:一丛位于旁巨细胞外侧核;另一丛位于面后核、疑核以及二核紧邻的区域。此外还可见少量SOM—IR纤维。     

1例雄性朱鹮脑内脑啡肽的免疫组织化学分布

用免疫组织化学方法研究脑啡肽(ENK)在极危物种朱(Nipponia nippon)脑内的分布,结合计算机图像分析仪检测免疫阳性细胞和末梢的灰度值。ENK阳性细胞、纤维和终末分布如下:发声核团有原纹状体中间区腹部、丘脑背内侧核外侧部、中脑丘间核、中脑背内侧核、延髓舌下神经核。听觉中枢有丘脑卵圆核壳区、中脑背外侧核壳区、脑桥外侧丘系腹核、上橄榄核、耳蜗核等。内分泌核团有视前区前核、旧纹状体增加部、下丘脑外侧核、下丘脑腹内侧核等。结果表明,朱脑内ENK可能对发声、听觉和下丘脑内分泌的生理活动有一定的调制作用。     

大、小鼠面神经核的形成和发育

大、小鼠是生物学和医学中常用的实验动物,其面神经核的形态和发育有不少人进行过研究,本文就收集到的有关这方面文献中的一些问题作一简要综述。 (一)面神经核的位置、形态、细胞分群及分群与外周面神经分支、分布的关系 大、小鼠面神经核位于延髓腹外侧部。呈吻尾稍长,背腹扁的椭圆体。大鼠面神经核吻尾长约1.6 mm(1.70 mm或1.55mm),平均体积约1.293mm~3;小鼠面神经核吻尾长约0.56mm。面神经核发出纤维走向背内侧偏吻侧,这些纤维在外展神经核的外侧偏背方形成面神     

大鼠膀胱初级传入纤维向中枢的定位投射：CB—HRP跨神经节追踪研究

本文用大鼠１７只,将ＣＢ－ＨＲＰ注入一例膀胱壁内,ＴＭＢ法反应,明暗视野对照观察。结果：１）标记的初级传入神经元在脊神经节的分布节段为Ｔ１２－Ｓ２节,以注射侧为主。最集中的节段是Ｌ６－Ｓ１,其标记细胞数占标记细胞总数５２．５％,并集中分布在节内的背远侧端,有较明确的局部定位;２）初级传入神经元的中枢突进入脊髓后,其大部分纤维（外侧径束）终于网状核和中间外侧核形成终末区。小部分纤维（内侧径束）进入中     

大鼠延髓至下丘脑腹内侧核的儿茶酚胺能投射神经元在胃伤害性刺激后的Fos表达

本实验用ＨＲＰ注入下丘脑腹内侧核结合逆行追踪与抗ＦＯＳ蛋白和抗酪氨酸羟化酶（ＴＨ）抗血清双重免疫细胞化学相结合的三重标记方法,对大鼠孤束核和延髓腹外侧区至下丘脑腹内侧核的儿茶酚胺能投射神经元在胃伤害性刺激后的ｃ－ｆｏｓ表达进行了观察。本文发现孤束核和延髓腹外侧区有七种不同的标记细胞：ＨＲＰ、Ｆｏｓ、ＴＨ单标细胞Ｆｏｓ／ＨＲＰ、Ｆｏｓ／ＴＨ、ＨＲＰ／ＴＨ双标细胞和Ｆｏｓ／ＨＲＰ／ＴＨ三标细胞。上述七种标记细胞主要分布在延髓中段和尾段孤束核的内侧亚核和延髓腹外侧区以及两者之间的网状结构。ＨＲＰ标记细胞以注射侧为主,对侧有少量分布。本文结果证明,大鼠孤束核、延髓腹外侧区和网状结构内儿茶酚胺能神经元有些至下丘脑腹内侧核的投射,其中一部分儿茶酚胺能神经元参与了胃伤害性刺激的传导和调控。     

大白鼠中缝背核的组织结构及其向尾壳核复合体的定位投射

本实验应用Nissl法、单胺荧光组织化学法和逆行荧光标记与单胺荧光组织化学结合技术对大白鼠中缝背核的组织结构及其向尾壳核（CP）复合体的定位投射进行了观察。结果表明,中缝背核（NRD）可分为五个细胞群:尾侧细胞群、背内侧细胞群、腹内侧细胞群、外侧细胞群和前侧细胞群;大量的5-羟色胺细胞分布于NRD的各个细胞群,少量儿茶酚胺（CA）细胞只见于外侧细胞区。在CP复合体注射逆行荧光化合物快兰（Fast Blue 253/50以下简称FB）之后,中缝背核内出现不少FB标记的5—HT细胞,这些投射于CP复合体的细胞主要位于背内侧细胞群和腹内侧细胞群。本实验结果为进一步研究NRD的功能提供了形态学依据。     

江豚（Neophocaena phocaenoides）脊髓的研究

本文研究了江豚脊髓的形态和内部构造,首次报道鲸类脊髓灰质分层和神经核的对应关系;并发现在胸段8—13节、腰尾段1—6节等白质的侧索中有特殊细胞群,以多极或小三龟形细胞为多,也有少数梭形细胞,呈串珠状排列或散在分布,分别与背角Ⅰ—Ⅴ层相联系,它们显示出与感觉传导系有关,作者认为应分别称之为胸外侧核和腰尾外侧核。     

大鼠延髓网状背侧亚核内5-羟色胺能、P物质样和脑啡肽样阳性终末的中枢起源

研究用荧光金（ＦＧ）逆行追踪与免疫荧光组化染色相结合的双标技术对大鼠脑干向延髓网状背侧亚核（ＳＲＤ）的５┐羟色胺（５┐ＨＴ）能、Ｐ物质（ＳＰ）能和亮氨酸┐脑啡肽（Ｌ┐ＥＮＫ）能投射进行了观察。将ＦＧ注入ＳＲＤ后,ＦＧ逆标神经元主要见于中脑导水管周围灰质、脑干中缝核簇（中缝背核、中缝正中核、中缝桥核、中缝大核、中缝隐核和中缝苍白核）、巨细胞网状核α部、延髓网状结构的内侧部和外侧部、延髓外侧网状核、三叉神经脊束核尾侧亚核和孤束核。５┐羟色胺（５┐ＨＴ）样、Ｐ物质（ＳＰ）样和亮氨酸脑啡肽（Ｌ┐ＥＮＫ）样阳性神经元主要见于中脑导水管周围灰质、脑干中缝核簇和巨细胞网状核α部;此外,ＳＰ样和Ｌ┐ＥＮＫ样阳性神经元还见于臂旁核、背外侧被盖核和孤束核。ＦＧ逆标并呈５┐ＨＴ样、ＳＰ样或Ｌ┐ＥＮＫ样阳性的双标神经元也主要见于中脑导水管周围灰质、脑干中缝核簇和巨细胞网状核α部,尤其是位于延髓中缝核团内的双标神经元数量较多。本研究的结果说明ＳＲＤ内的５┐ＨＴ样、ＳＰ样和Ｌ┐ＥＮＫ样阳性终末主要来自中脑导水管周围灰质、脑干中缝核簇和巨细胞网状核α部,向ＳＲＤ发出５┐ＨＴ能、ＳＰ能和Ｌ┐ＥＮＫ能投射的上述核团对ＳＲＤ发挥“弥漫性伤害抑     

中缝大核的解剖学和神经生理学研究

近年来有关中缝大核(NRM)的研究工作表明:延脑腹侧网状结构各核团(包括NRM)的定位及命名仍有争议。NRM 最重要的传出和传入联系分别是到脊髓的下行纤维和来自中脑导水管周围灰质的纤维投射;参与体内痛调制系统的核团包括NRM 和邻近的诸网状细胞核群;NRM 神经元多数被伤害性刺激所兴奋,从而参与痛调节的负反馈环路;NRM 的5-羟色胺能神经元是否参与吗啡镇痛存在着分歧。作者提出假设:体内可能还存在下行易化通路调制痛觉传递。     

大鼠膀胱初级传入纤维向中枢的定位投射──CB－HRP跨神经节追踪研究

本文用大鼠１７只，将ＣＢ－ＨＲＰ注入一例膀胱壁内，ＴＭＢ法反应，明暗视野对照观察。结果：１）标记的初级传入神经元在脊神经节的分布节段为Ｔ１２－Ｓ２节，以注射侧为主。最集中的节段是Ｌ６－Ｓ１，其标记细胞数占标记细胞总数５２．５％，并集中分布在节内的背远侧端，有较明确的局部定位；２）初级传入神经元的中枢突进入脊髓后，其大部分纤维（外侧径束）终于网状核和中间外侧核形成终末区。小部分纤维（内侧径束）进入中央管背外侧区和灰质后连合形成终末区。灰质后连合被一横行的白质带分为背、腹两部，外侧径束分布在腹部并可越过中线，内侧径束分布在背部。     

八肽胆囊收缩素在猪,大鼠和豚鼠肠道的免疫组织化学定位和分布

实验采用ＡＢＣ免疫组织化学方法研究了八肽胆囊收缩素样免疫反应物质在猪、大鼠和豚鼠肠道的定位与分布,并用相邻切片免疫双标记法观察了它与５－羟色胺的关系,结果表明,ＣＣＫ－８－ＩＲ细胞主要位于肠腺的底部,少数位于绒毛上皮。节段性分布上,在猪可见于从十二指肠到结肠全长的粘膜,大鼠和豚鼠ＣＣＫ－８－ＩＲ细胞则见于从十二指肠至回肠的粘膜,但均以十二指肠密度最高;免疫双标记法证实,在三种动物肠道中均有ＣＣＫ＝     

Cerebellar afferents in the frogs,Rana esculenta and Rana temporaria

Summary Afferents to the cerebellum in frogs (Rana esculenta, Rana temporaria) were studied by use of retrograde transport of horseradish peroxidase. Following injections restricted to the molecular layer of the cerebellum cell labelling was found in the contralateral inferior olive and the ventral portion of the caudal medullary raphe. Injections involving the granular layer resulted in labelling in the ventral horn of the cervical spinal cord, the caudal spinal trigeminal nucleus, the nucleus caudalis and the medial portion of the nucleus ventralis of the vestibular nerve, the inferior reticular nucleus and the nucleus of the fasciculus longitudinalis medialis. Following larger injections, which may have spread significantly into the cerebellar, secondary gustatory, trigeminal or vestibular nuclei, labelled cell bodies were also found in the nucleus ruber, nucleus solitarius, the rostral spinal trigeminal nucleus and the rostral rhombencephalic reticular formation. It is unclear whether the fibers from these latter areas innervate the cerebellum of the frog, as they do in mammals, or only reach the underlying areas. This situation emphasizes a limitation of the HRP technique when applied to small structures as is often the case in lower vertebrates.Supported by Grant Gr 276 to U. G.-C. from the Deutsche Forschungsgemeinschaft.     

Brainstem areas involved in the aspiration reflex: c-Fos study in anesthetized cats

Expression of the immediate-early gene c-fos, a marker of neuronal activation was employed in adult anesthetized non-decerebrate cats, in order to localize the brainstem neuronal populations functionally related to sniff-like (gasp-like) aspiration reflex (AR). Tissues were immunoprocessed using an antibody raised against amino acids of Fos and the avidin-biotin peroxidase complex method. The level of Fos-like immunoreactivity (FLI) was identified and counted in particular brainstem sections under light microscopy using PC software evaluations in control, unstimulated cats and in cats where the AR was elicited by repeated mechanical stimulation of the nasopharyngeal region. Fourteen brainstem regions with FLI labeling, including thirty-seven nuclei were compared for the number of labeled cells. Compared to the control, a significantly enhanced FLI was determined bilaterally in animals with the AR, at various medullary levels. The areas included the nuclei of the solitary tract (especially the dorsal, interstitial and ventrolateral subnuclei), the ventromedial part of the parvocellular tegmental field (FTL -- lateral nuclei of reticular formation), the lateral reticular nucleus, the ambigual and para-ambigual regions, and the retrofacial nucleus. FLI was also observed in the gigantocellular tegmental field (FTG -- medial nuclei of reticular formation), the spinal trigeminal nucleus, in the medullar raphe nuclei (ncl. raphealis magnus and parvus), and in the medial and lateral vestibular nuclei. Within the pons, a significant FLI was observed bilaterally in the parabrachial nucleus (especially in its lateral subnucleus), the Kolliker-Fuse nucleus, the nucleus coeruleus, within the medial region of brachium conjunctivum, in the ventrolateral part of the pontine FTG and the FTL. Within the mesencephalon a significantly enhanced FLI was found at the central tegmental field (area ventralis tegmenti Tsai), bilaterally. Positive FLI found in columns extending from the caudal medulla oblongata, through the pons up to the mid-mesencephalon suggests that the aspiration reflex is thus co-ordinated by a long loop of medullary-pontine-mesencephalic control circuit rather than by a unique "center".     

Opposite effects of cholecystokinin octapeptide (CCK-8) and tetrapeptide (CCK-4) after injection into the caudal part of the nucleus accumbens or into its rostral part and the cerebral ventricles

Neurons with colocalized cholecystokinin and dopamine are present predominantly in the ventral tegmental area and project mainly to the caudal part of the medial nucleus accumbens. The activity of this dopamine system can be evaluated by means of the intracranial self-stimulation behavior on male Wistar rats having chronic electrodes implanted into the medial forebrain bundle in the postero-lateral area of the hypothalamus. The direct injection of 150 pmol CCK-8 into the medio-caudal accumbens induced an increase of intracranial self stimulation while a similar administration into its rostral portion produced a slight decrease of intracranial self-stimulation. The administration of 300 pmol CCK-4 into the same medio-caudal part of the accumbens produced an inhibitory action on intracranial self stimulation lasting for 25 min. The injection of 70 to 1300 pmol CCK-4 into the cerebral ventricles produced no change on intracranial self-stimulation. The intracerebroventricular injection of 70 pmol CCK-8 induced a large decrease of intracranial self-stimulation lasting for 20 min. Sodium chloride 0.15 M or unsulphated CCK-8 injection were without effect in either case. These results support the ideas that intracerebroventricular CCK-8 injection inhibits accumbens dopaminergic activity but that CCK-8 injection into the medio-caudal part of the accumbens, where nerve terminals with colocalized CCK and DA are present, facilitates this dopaminergic activity. In addition at the level of medio-caudal accumbens, CCK-8 and CCK-4 have opposite effects.     

Intramedullary projections of the rostral nucleus of the solitary tract in the rat: gustatory influences on autonomic output

The efferent connections of the rostral nucleus of the solitary tract (NTS) in the rat were studied by anterograde transport of Phaseolus vulgaris leucoagglutinin. Rostral to the injection site, fibers travel through the rostral parvocellular reticular formation and deflect medially or laterally around the motor trigeminal nucleus, giving off few terminals in these nuclei and terminate in the parabrachial nucleus. Moderate projections to the peritrigeminal zone, including the intertrigeminal nucleus and the dorsal subcoeruleus nucleus, were observed. Caudally to the injection site, dense innervations from the rostral nucleus of the solitary tract were detected in the parvocellular reticular formation ventral and caudal to the injection site and in the intermediate and ventral medullary reticular formation. The rostral central and ventral subdivisions of the NTS up to the level where the nucleus of the solitary tract abuts the fourth ventricle and the hypoglossal nucleus, receive moderate input from the rostral nucleus of the solitary tract. In general, the projections from the rostral nucleus of the solitary tract were bilateral with an ipsilateral predominance. The caudal part of the nucleus of the solitary tract, the dorsal motor nucleus of the vagus and the facial nucleus were not labeled. It is concluded that medullary rNTS projections participate in oral motor behavior and autonomic control of abdominal organs.     

The neurons of origin of non-cortical afferent connections to the oculomotor nucleus. A retrograde labeling study in the rabbit.

The cellular origin of the brainstem projections to the oculomotor nucleus in the rabbit has been investigated by using free (HRP) and lectin-conjugated horseradish peroxidase (WGA-HRP). Following injections of these tracers into the somatic oculomotor nucleus (OMC), retrogradely labeled cells have been observed in numerous brainstem structures. In particular, bilateral labeling has been found in the four main subdivisions of the vestibular complex, predominantly in the superior and medial vestibular nuclei and the interstitial nucleus of Cajal, while ipsilateral labeling was found in the rostral interstitial nucleus of the medial longitudinal fascicle (Ri-MLF), the Darkschewitsch and the praepositus nuclei. Neurons labeled only contralaterally have been identified in the following structures: mesencephalic reticular formation dorsolateral to the red nucleus, abducens internuclear neurons, group Y, several areas of the lateral and medial regions of the pontine and medullary reticular formation, ventral region of the lateral cerebellar nucleus and caudal anterior interpositus nucleus. This study provides also information regarding differential projections of some centers to rostral and caudal portions of the OMC. Thus, the rostral one-third appears to receive predominant afferents from the superior and medial vestibular nuclei, while the caudal two-thirds receive afferents from all the four vestibular nuclei. Finally, the group Y sends afferents to the middle and caudal, but not to the rostral OMC.     

大白鼠脚内核的传入性联系

众所周知,肉食动物和大白鼠的脚内核,相当于灵长类的内侧苍白球(Nagy et al.1978;Fox and Schmitz 1944);它们的细胞形态、传入及传出均相同。早期以及近年来的一些研究工作者,虽然在研究其他核团的投射时,联系到一些本核团的传入,但是尚缺乏对本核团传人的系统研究。本实验即是应用辣根过氧化物酶的逆行传递法来研究大白鼠脚内核的传入性联系。     

Effects of cholecystokinin peptides and neurotensin on dopamine release and metabolism in the rostral and caudal part of the nucleus accumbens using intracerebral dialysis in the anaesthetized rat

By means of intracerebral microdialysis effects of cholecystokinin peptides and neurotensin administered via the microdialysis probe have been studied on dopamine release and metabolism in the nucleus accumbens and neostriatum of the halothane anaesthetized male rat. Levels of extra cellular dopamine (DA) and its metabolites 3,4 dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA) were assessed in nuc. accumbens (rostral and caudal part) using high performance liquid chromatography in combination with electrochemical detection.

(1) In the rostral part of the nuc. accumbens CCK-8 (10 and 100 μM), CCK-33 (100 μM) but not CCK-4 (10 and 100 μM) increased the levels of DA in the perfusate without increasing the extracellular levels of DOPAC and HVA. (2) In the caudal nuc. accumbens CCK-8 and CCK-4 in concentrations of 10 μM and 100 μ M of CCK-33 had no effect on DA release and metabolism, since the extracellular levels of DA, DOPAC and HVA were not changed. (3) In the rostral nuc. accumbens perfusion with 10 μM of neurotensin but not with any other concentration of neurotensin (0.01, 0.1, 1 and 100 μM) increased the levels of DA in the extracellular fluid. (4) In the caudal nuc. accumbens a 40 min perfusion with neutrotensin produced a concentration dependent increase of the levels of DA in the perfusate (peak action at 10 μ M) which in this case was associated with increases in the extracellular levels of DOPAC and HVA. (5) By means of receptor autoradiography using (3-[¹²⁵I]iodotyrosyl³) neurotensin it was found that a 40 min perfusion with this radioligand in the rostral nuc. accumbens reached a total volume of 0.051 mm³. The diffusion of the radioligand was limited to the rostral or caudal part of the nuc. accumbens depending upon the site of placement of the dialysis probe.

The results indicate the existence of cholecystokinin (CCK) receptors in the rostral nuc. accumbens, which are sensitive to CCK-8 and CCK-33 but not to CCK-4, and which facilitate DA release without producing any detectable increase in DA metabolites. In contrast, such receptors do not appear to play a similar role in the regulation of DA release in the caudal nuc. accumbens, where DA terminals contain CCK-like immunoreactivity. Furthermore, the results indicate that neurotensin receptors exist both in the rostral and caudal nuc. accumbens, where they inter alia enhance the release of DA. In the caudal nuc. accumbens these effects of neurotensin are also associated with an increase of DA metabolites, possibly suggesting that in this region neurotensin receptors may also control DA synthesis.     

Afferent connections to the abducent nucleus in the cat.

The afferent connections to the abducent nucleus in the cat were studied by means of retrograde transport of WGA-HRP after implantations of the tracer in crystalline form. Retrogradely labelled cells were found bilaterally in the medial and descending vestibular nuclei, mainly in their ventral and medial portions, in the rostral part of the ipsilateral gigantocellular reticular nucleus, in the medial part of the contralateral caudal pontine reticular nucleus and bilaterally in the oculomotor nucleus, mainly in its dorsolateral division. Some labelled cells were also found bilaterally in the mesencephalic reticular formation, the periaqueductal grey and the nucleus of the trapezoid body.     

Diffusible signals and fasciculated growth in reticulospinal axon pathfinding in the hindbrain

We have addressed the control of longitudinal axon pathfinding in the developing hindbrain, including the caudal projections of reticular and raphe neurons. To test potential sources of guidance signals, we assessed axon outgrowth from embryonic rat hindbrain explants cultured in collagen gels at a distance from explants of midbrain-hindbrain boundary (isthmus), caudal hindbrain, or cervical spinal cord. Our results showed that the isthmus inhibited caudally directed axon outgrowth by 80% relative to controls, whereas rostrally directed axon outgrowth was unaffected. Moreover, caudal hindbrain or cervical spinal cord explants did not inhibit caudal axons. Immunohistochemistry for reticular and raphe neuronal markers indicated that the caudal, but not the rostral projections of these neuronal subpopulations were inhibited by isthmic explants. Companion studies in chick embryos showed that, when the hindbrain was surgically separated from the isthmus, caudal reticulospinal axon projections failed to form and that descending pioneer axons of the medial longitudinal fasciculus (MLF) play an important role in the caudal reticulospinal projection. Taken together, these results suggest that diffusible chemorepellent or nonpermissive signals from the isthmus and substrate-anchored signals on the pioneer MLF axons are involved in the caudal direction of reticulospinal projections and might influence other longitudinal axon projections in the brainstem.