Immunocytochemical localization of S-100 beta beta protein in olfactory and supporting cells of lamb olfactory epithelium

By immunocytochemistry, we have identified two novel cell types, olfactory and supporting cells of lamb olfactory epithelium, expressing S-100 beta beta protein. S-100 immune reaction product was observed on ciliary and plasma membranes, on axonemes and in the cytoplasm adjacent to plasma membranes and to basal bodies of olfactory vesicles. A brief treatment of olfactory mucosae with Triton X-100 before fixation is necessary for detection of S-100 beta beta protein within olfactory vesicles. In the absence of such a treatment, the immune reaction product is restricted to ciliary and plasma membranes. On the other hand, irrespective of pre-treatment of olfactory mucosae, S-100 beta immune reaction product in supporting cells is restricted to microvillar and plasma membranes. The anti-S-100 beta antiserum used in these studies does not bind to basal cells of the olfactory epithelium or to cells of the olfactory glands, whereas it binds to Schwann cells of the olfactory nerve. An anti-S-100 alpha antiserum does not bind to cellular elements of the olfactory mucosa, Schwann cells, or axons of the olfactory nerve. The present data provide, for the first time, evidence for the presence of S-100 beta beta protein in mammalian neurons (olfactory cells).     

突触体素、S-100蛋白、NSE免疫反应神经纤维在人淋巴结的分布

探讨突触体素、S－100蛋白、NSE免疫反应神经纤维在人淋巴结的分布,为淋巴结的神经免疫相互作用提供形态学资料。应用免疫组织化学ABC法观察人类腹股沟、腋窝、肠系膜、肺等淋巴结40例,10％福尔马林固定,石蜡包埋组织切片。结果显示：突触体素、S－100蛋白、NSE免疫反应神经纤维呈细丝状沿被膜和门部结缔组织小梁及血管进入皮质后主要分布于副皮质区,环境淋巴小结,进一步分支到达髓质。同时在淋巴小结发生中心及副皮质区有S－100蛋白免疫反应阳性细胞。在髓质髓窦内有NSE免疫反应阳性细胞。结论;淋巴结内有突触体素、S－100蛋白、NSE免疫反应神经纤维的支配、并有S－100蛋白、NSE免疫反应阳性细胞,为淋巴结的神经免疫相互作用提供形态学资料。     

Innervation of periodontal ligament and dental pulp in the rat incisor: An immunohistochemical investigation of neurofilament protein and glia-specific S-100 protein

Summary Nervous elements in the periodontal ligament and dental pulp of rat incisors were investigated by means of immunohistochemistry for neurofilament protein (NFP) and glia-specific S-100 protein. The periodontal ligament in the incisors was densely innervated by NFP-immunoreactive nerve fibers; the distribution of the nerve fibers and their terminations differed markedly from those in molars. NFP-positive, thick nerve bundles entered the lingual periodontal ligament through slits located in the mid-region of the alveolar socket, and immediately formed numerous Ruffini-like corpuscles. In the labial periodontal ligament, all of the NFP-immunoreactive nerve fibers terminated in free endings. The restricted location of the stretch receptor, Ruffini-like corpuscle, in the lingual periodontal ligament appears to be an essential element, because this region is regularly extended during mastication. The nervous elements were restricted to the alveolar half of the periodontal ligament in every region; they avoided the dental half of the periodontal ligament, which presumably moves continuously with the tooth. Pulpal nerve fibers in incisors also showed a characteristic distribution different from those in molars; individual nerve fibers with beaded structures ran in the center of the pulp toward the incisai edge, and did not form the subodontoblastic nerve plexus of Raschkow.Immunostaining for S-100 protein revealed a distribution pattern of nervous elements similar to that for NFP, suggesting that the nerves supplying the periodontal ligament and dental pulp were mostly covered by a Schwann sheath.     

Immunohistochemical studies of neurochemical markers in normal human buccal mucosa

The content of various substances, such as regulatory peptides, hormones and structural proteins, was investigated in normal buccal mucosa using indirect immunofluorescence. Thin nerve fibres, which from a morphological point of view were most probably sensory, showed immunoreactivity for substance P (SP), calcitonin gene-related peptide (CGRP), neuropeptide K (NPK) and neurokinin A (NKA). Also galanin (GAL), -melanocyte stimulating hormone (-MSH) and somatostatin (SOM) stained thin fibres were found in the propria, which were, however, few in number and the -MSH staining was weak. CGRP, vasoactive intestinal polypeptide (VIP), peptide histidine isoleucine amide (PHI) and neuropeptide Y (NPY) immunoreactive nerve fibres were observed in close connection to blood vessels. SOM positive cells with processes were found, mostly scattered, in the connective tissue. A population of cells within the epithelium also showed somatostatin immunoreactivity. Protein S-100 (S-100) stained distinct populations of cells at two separate locations. In the propria, cells with one or two slender processes were seen, being mostly single but sometimes forming groups. In the epithelium, dendritic cells with many processes with or without spines were observed, mainly located to the basal layer of the lamina epithelialis. Single nerve fibres and nerve bundles were also stained. Neurofilament (NF) positive fibres, singly and in bundles, as well as endorgan-like structures were seen. Neuron-specific enolase (NSE) and protein gene product 9.5 (PGP 9.5) both stained the same structures, namely single fibres, nerve bundles, nerves surrounding vessels and innervating muscles and glands (if present in the section), as well as Merkel cells. Also with these two markers endorgan-like structures were seen. No clear innervation of the epithelium could be observed with the markers used. No methionine-enkephalin (ENK) or synaptophysin (SYN) immunoreactive material was found.     

Neuron-specific enolase and S-100 protein immunohistochemistry for defining the structure and topographical relationship of the different enteric nerve plexuses in the small intestine of the pig

Summary The morphological and topographical features of the intramural enteric nervous system in the small intestine of the pig has been studied on whole mounts by means of neuron-specific enolase (NSE) and S-100 protein immu-nohistochemistry. A clear visualization of the myenteric plexus allows the recognition of its characteristic morphology, including the thin tertiary plexus coursing within the smooth muscle layers. In the tela submucosa two ganglionated plexuses, each with its own specific characteristics, can clearly be demonstrated: (1) the plexus submucosus externus (Schabadasch) located near the inner surface of the circular muscle layer at the abluminal side of the submucosal vascular arcades, and (2) the plexus submucosus internus (Meissner) close to the outer surface of the lamina muscularis mucosae at the luminal side of the submucosal vascular arcades. Due to the possibility to trace clearly the perivascular plexuses of these vascular arcades by use of immunohistochemical techniques with antibodies to NSE and S-100 protein, the two submucosal nerve plexuses can be demonstrated with exceptional clarity. This is the first report of an investigation of the intramural nerve plexuses of the small intestine of the pig using the NSE and S-100 immunostaining methods, which is sufficiently detailed to substantiate the characteristic topography and structure of the two submucosal plexuses and their relation to the smooth muscle layers and perivascular plexuses. The level of NSE immunoreactivity for enteric neurons displays great variation, a substantial proportion of the type-II neurons appearing strongly stained. Although little is known of the specific function of these enzymes, proposals are discussed.     

异型一氧化氮合酶在爪蛙鼻粘膜中的分布

用还原型辅酶Ⅱ黄递酶组织化学和一氧化氮合酶（ＮＯＳ）免疫细胞化学技术研究了成年爪蛙（Ｘｅｎｏｐｕｓｌａｅｖｉｓ）鼻粘膜ＮＯＳ的阳性结构。嗅上皮中嗅感觉神经元和支持细胞,以及固有层中的神经束、血管和粘膜下腺均呈还原型辅酶Ⅱ黄递酶阳性染色。在嗅上皮中,未见Ⅰ型或Ⅱ型ＮＯＳ抗体免疫反应阳性结构,但鼻内侧窦和内侧窦口顶嗅上皮中的嗅感觉神经元见有Ⅲ型ＮＯＳ强免疫反应。在固有层中,Ⅰ型或Ⅲ型ＮＯＳ免疫反应性存在于神经束和血管中,未见于粘膜下腺的腺泡中。结果表明,不同异型的ＮＯＳ存在于爪蛙鼻粘膜中,提示一氧化氮可能参与爪蛙的化学感觉活动。     

Peptidergic regulation of secretory activity in amphibian olfactory mucosa: Immunohistochemistry,neural stimulation,and pharmacology

Summary The role of substance P in the regulation of secretion from sustentacular cells, Bowman's glands and deep glands in the amphibian olfactory mucosa was investigated using immunohistochemical, electrophysiological, and pharmacological methods. Substance P-like immunoreactive varicose fibers extended through the olfactory epithelium, terminating at or near the surface. In addition, immunoreactive varicose fibers innervated Bowman's glands, deep glands, and blood vessels in the lamina propria. Innervation of Bowman's gland was sparse, with fibers terminating on basal acinar cell membranes; deep gland innervation was abundant, with fibers often extending between acinar cells almost to the lumen. Stimulation of the ophthalmic branch of the trigeminal nerve resulted in slow potentials recorded at the surface of the olfactory epithelium. When the olfactory mucosae from trigeminal-stimulated animals were examined histologically, morphological signs of secretory activity were observed, suggesting that substance P was released from the trigeminal nerve terminals. Topical application of 10^-5 to 10^-3 mol substance P resulted in morphological signs of secretion that were very similar to those seen as a result of trigeminal stimulation. Thus, substance P released from trigeminal fibers may modulate secretory activity within the olfactory mucosa.     

Calretinin-immunoreactive neurons and their projections in the guinea-pig colon

The distribution of nerve cells and fibres with immunoreactivity for the calcium-binding protein, calretinin, was studied in the distal colon of the guinea-pig. The projections of the neurons were determined by examining the consequences of lesioning the myenteric plexus. Calretinin-immunoreactive neurons comprised 17% of myenteric nerve cells and 6% of submucous nerve cells. Numerous calretinin-immunoreactive nerve fibres were located in the longitudinal and circular muscle, and within the ganglia of the myenteric and submucous plexuses. Occasional fibres were found in the muscularis mucosae, but they were very rare in the lamina propria of the mucosa. Lesion studies revealed that myenteric neurons innervated the underlying circular muscle and provided both ascending and descending processes that gave rise to varicose branches in myenteric ganglia. Calretinin-immunoreactive fibres also projected to the tertiary component of the myenteric plexus, and are therefore likely to be motor neurons to the longitudinal muscle. Varicose fibres that supplied the submucous ganglia appear to arise from submucous nerve cells. Arterioles of the submucous plexus were sparsely innervated by calretinin-immunoreactive fibres. The submucous plexus was the principal source of immunoreactive nerve fibres in the muscularis mucosae. This work shows that calretinin-IR reveals different neuronal populations in the large intestine to those previously reported in the small intestine.     

Trigeminal substance P-like immunoreactive fibres in the frog olfactory mucosa

The location and distribution of nerve fibres displaying substanceP (SP) immunoreactivity were studied in the frog olfactory mucosa.Many immunoreactive nerve fibres were noted in close associationwith Bowman's glands and blood vessels in the lamina propria.In addition, such fibres were also found beneath and withinthe olfactory epithelium proper. These fibres are clearly oftrigeminal origin since SP immunoreactivity was abolished aftersection of the trigeminal nerve. Functionally, they might influencelocal blood flow, secretion of Bowman's glands and/or activityof olfactory receptor cells.     

Distribution of nerve fibers immunoreactive to neurofilament protein in rat molars and periodontium

Summary The distribution of nerve fibers in molars, periodontal ligament and gingiva of the rat shows a complex pattern. Decalcified material including the alveolar bone was sectioned in three different planes and stained by means of immunohistochemistry for detection of the neurofilament protein (NFP); the immunoreactive neural elements were clearly visualized in three-dimensional analyses. NFP-positive nerve fibers formed a subodontoblastic plexus in the roof area of the dental pulp; some of them entered the predentin and dentin directly through the dentinal tubules. This penetration was found mainly in the pulp horn, and was limited to a distance of about 100 m from the pulpo-dentinal junction. In the periodontal ligament, NFP-positive nerve fibers were found densely distributed in the lower half of the alveolar socket. Two types of nerve terminals were recognized in the periodontal ligament: free nerve endings with tree-like ramifications, and expanded nerve terminals showing button- or glove-like shapes. The former tapered among the periodontal fibers, some even reaching the cementoblastic layer. The latter were located, frequently in groups, within the ligament restricted to the lower third of the alveolar socket. A well-developed plexus of NFP-positive nerves was revealed in the lamina propria of the free gingiva, the innervation being denser toward the epithelium of the gingival crevice. The characteristic distribution of NFP-immunoreactive nerve fibers revealed in this study is discussed in relation to region-specific sensations in the teeth and surrounding tissues.     

Immunohistochemical study of sensory nerve formations in human glabrous skin.

The sensory nerve formations (or corpuscles) of normal human glabrous skin from hand and fingers, obtained by punch biopsies, were studied by the streptavidin-biotin method using monoclonal antibodies directed against neurofilament protein (NFP), S-100 protein, glial fibrillary acidic protein (GFAP), cytokeratins, and vimentin. NFP immunoreactivity (IR) was observed in the central axons of most sensory formations, while S-100 protein IR was restricted to non-neuronal cells forming the so-called inner cells core or lamellar cells. Furthermore, vimentin IR was found in the same cells of Meissner's and glomerular corpuscles. None of the sensory nerve formations were stained for GFAP or keratin. The present results suggest that the main nature of the intermediate filaments of the non-neuronal cells of sensory nerve formations from human glabrous skin is represented by vimentin and not by GFAP. Thus, our findings suggest that lamellar and inner core cells of SNF are modified and specialized Schwann cells and not epithelial or perineurial derived cells.     

Association of substance-P-immunoreactive nerves with the murine olfactory mucosa

Location and distribution of nerve fibers immunoreactive to substance P were studied in the mouse olfactory mucosa. A moderately dense plexus of fibers is present at the interface of the olfactory epithelium and the connective tissue of the lamina propria. In addition, many immunoreactive nerve fibers are noted in close association with Bowman's glands and blood vessels in the lamina propria. However, such fibers were not observed in olfactory epithelium proper nor in the fila olfactoria. Substance-P-immunoreactivity is almost totally abolished by treatment of animals with capsaicin, an agent known to deplete substance P from primary sensory neurons. It is suggested that the substance-P-immunoreactive fibers are of sensory origin, with their perikarya most likely located in the trigeminal ganglia. Functionally, they might influence local blood flow and/or the secretion of Bowman's glands.     

Immunohistology of gastrointestinal carcinoid tumors

DAKO quick staining kits were used to immunostainings for Epithelial Membrane Antigen (EMA) Neuron Specific Enolase (NSE) and S-100 protein (S-100) in 18 carcinoid tumors of the gastrointestinal tract classified according to Soga and Tazawa. EMA was always absent in carcinoid tumors, being at the same time present within glandular epithelium. 88% of cases showed positive immunostaining for NSE. S-100 immunostaining showed immunopositive stellate cells present within the tumor especially within type A carcinoids. In addition in one carcinoid tumor thick, strongly S-100 positive bundles were noticed at the periphery of nests of tumor cells. Combined immunohistochemical and ultrastructural studies are needed to elucidate interrelation of neoplastic and neural elements within carcinoid tumorsa.     

Changes in mitotic rate and GFAP expression in the primary olfactory axis of Streptozotocin-induced diabetic rats

Many diabetic individuals develop anosmia but the mechanism(s) causing the dysfunction in the olfactory system is (are) unknown. Glial fibrillary acidic protein expression is reduced in diabetic retinopathy and is also reduced, with unknown consequences, in other brain regions of diabetic rats. We used immunohistochemistry and immunoblotting from untreated control and streptozotocin-induced type 1 (insulin dependent) diabetic rats to investigate main olfactory epithelial mitotic rate and glial fibrillary acidic protein expression in the lamina propria of the sensory epithelium and in the olfactory bulb. Numbers of bromodeoxyuridine-positive cells were significantly lower in the diabetic sensory epithelium compared to non-diabetic controls. Immunohistochemical observations suggested a qualitative difference in glial fibrillary acidic protein expression in both regions examined especially in the olfactory bulb external plexiform layer and the lamina propria. Immunoblot analysis confirmed that the diabetic olfactory bulb and lamina propria expressed less glial fibrillary acidic protein compared to the non-diabetic control group. The lower expression levels in the olfactory bulb external plexiform layer suggested by immunohistochemistry do not reflect a change in the number of astrocytes since the numbers of S100B(+) cells were not different between the two groups.     

Immunohistochemical localization of S-100 protein,glial fibrillary acidic protein,and neuron-specific enolase in the pars distalis of quail,rat, and human hypophyses

Summary In the present study, we have localized immunohistochemically S-100 protein, glial fibrillary acidic (GFA) protein, and neuron-specific enolase (NSE) by the unlabelled antibody peroxidase-antiperoxidase technique. Special attention was paid to the influence of fixation and of pretreatment of sections with proteolytic enzymes. It appeared that the final immunostaining of a given antigen largely depends on the fixative and on the species used. Moreover, pepsin pretreatment proved to be necessary to unmask S-100 protein in quail and GFA protein in rat. S-100 protein (rat, human) and GFA protein (human) immunoreactivities were detected in the folliculo-stellate (FS) cells. In quail, S-100 protein was also found in cells, which were not arranged around a follicular lumen and, in rat, the endothelial cells were immunostained for GFA protein. Clusters of granular cells were weakly immunostained for NSE in all species. An exclusive relationship between FS cells and S-100 protein could not be ascertained from this study.     

S-100 protein in human lung neuroendocrine neoplasms. Immunohistochemical study of 14 cases and review of the literature

A group of lung neuroendocrine (NE) neoplasms are investigated in view of the possible presence of S-100 protein immunoreactivity in their cells. The selected tumours were classified according to Gould et al. (1983a) and Mosca et al. (1985). They comprise 5 carcinoids, 3 neuroendocrine carcinomas of the well-differentiated type, or peripheral carcinoids, 5 neuroendocrine carcinomas of the intermediate cell type, or intermediate-cell, poorly differentiated carcinomas, 3 neuroendocrine carcinomas of the microcytoma type, or small cell carcinomas-SCC and a nodal metastasis of microcytoma. All but 2 tumours were immunoreactive for neuron specific enolase (NSE). Few S-100 immunoreactive cells were detected in 4 out of 5 carcinoids, in 1 out of 3 peripheral carcinoids, in 4 out of 5 poorly differentiated carcinomas and in the 3 microcytomas examined. No S-100 positive cells were found in the SCC's nodal metastasis. The S-100 immunolabelled cells can be interpreted as dendritic reticulum cells migrating through the tumours. However, in one case of typical carcinoid, abundant S-100 positive cells were detected: their stellate morphology and their intimate relation with neoplastic cells suggest that they are part of the neoplasia as a sort of satellite cell.     

Immunohistochemical localization of S-100 protein, glial fibrillary acidic protein, and neuron-specific enolase in the pars distalis of quail, rat, and human hypophyses

In the present study, we have localized immunohistochemically S-100 protein, glial fibrillary acidic (GFA) protein, and neuron-specific enolase (NSE) by the unlabelled antibody peroxidase-antiperoxidase technique. Special attention was paid to the influence of fixation and of pretreatment of sections with proteolytic enzymes. It appeared that the final immunostaining of a given antigen largely depends on the fixative and on the species used. Moreover, pepsin pretreatment proved to be necessary to unmask S-100 protein in quail and GFA protein in rat. S-100 protein (rat, human) and GFA protein (human) immunoreactivities were detected in the folliculo-stellate (FS) cells. In quail, S-100 protein was also found in cells, which were not arranged around a follicular lumen and, in rat, the endothelial cells were immunostained for GFA protein. Clusters of granular cells were weakly immunostained for NSE in all species. An exclusive relationship between FS cells and S-100 protein could not be ascertained from this study.     

Distribution of immune cells expressing CD3a, CD21 and S-100 protein markers in the porcine gut-associated lymphoid tissues.

The distribution of immune cells within the gut-associated lymphoid tissues (GALT) of swine is highly organized. The appearance of such cells could not be separated from the effects of age, weaning and exposure to environment. Here, we have examined the distribution patterns of a subset of CD3a+ T and CD21+ B cells as well as S-100 protein+ cells and secretory (s) IgA+ cells within GALT compartments (such as jejunal lamina propria = JLP, ileal Peyerís patches = IPP, and mesenteric lymph node = MLN) of juvenile 8-week-old conventionally reared pigs using either two monoclonal antibodies (mAbs) or polyclonal antibodies (pAbs) in the immunohistochemical staining techniques with avidin-biotin complex (ABC) or peroxidase-antiperoxidase complex (PAP), respectively. The most potent porcine T-cell marker--CD3 surface antigen--is expressed as CD3a epitope on ileal intraepithelial lymphocytes, and numerous lymphocytes in the extrafollicular areas of MLN and dome region of IPP. Conversely, the cells expressing CD21 surface molecules were only demonstrable in the interfollicular areas of MLN and in the germinal centers of IPP. A strong reaction to sIgA was displayed by the plasma cells in the lumen of crypts and those residing the lamina propria of jejunum and ileum. The S-100 protein+ cells were numerous in JLP around the crypts and in IPP of weaned pigs. Both applied mAbs proved to be useful reagents for phenotypic and functional analyses of porcine lymphoid cell subsets by the ABC technique. However, further investigation of the S-100 protein marker is needed to determine which (if any) subset of porcine CD3+ CD4- CD8+ T cells could be designated as orthologue of human CD8+ CD11b+ suppressor T cells.     

S-100 protein and neuron-specific enolase in parathyroid glands and C-cells of the thyroid

Normal parathyroid glands and parafollicular cells (C-cells) of man, rat and rabbit, and also human parathyroid adenomas and medullary carcinomas were investigated for the presence of S-100 protein and neuron-specific enolase (NSE). For determination of the proteins immunoperoxidase methods were applied, i.e., the PAP method and the avidin-biotin system. The antisera, of polyclonal origin, were specifically directed against cow S-100 protein and rat or bovine NSE. The respective antisera are known to crossreact with S-100 protein from man, rat, and rabbit, as well as with NSE from man and rat. Surprisingly, the test for S-100 protein was found to be strongly positive in the parathyroid glands of rat and rabbit and was focally positive in normal and adenomatous human parathyroid glands, but completely negative in C-cells and medullary carcinoma cells. NSE was present in C-cells of rat and man, and in medullary carcinoma cells, but was absent in normal and adenomatous parathyroid cells. The results support data that indicate that both parathyroid cells and C-cells are derived from elements of the neural crest, but undergo different maturation processes during embryological development.     

S-100 protein and neuron-specific enolase in parathyroid glands and C-cells of the thyroid

Summary Normal parathyroid glands and parafollicular cells (C-cells) of man, rat and rabbit, and also human parathyroid adenomas and medullary carcinomas were investigated for the presence of S-100 protein and neuron-specific enolase (NSE). For determination of the proteins immuno-peroxidase methods were applied, i.e., the PAP method and the avidin-biotin system. The antisera, of polyclonal origin, were specifically directed against cow S-100 protein and rat or bovine NSE. The respective antisera are known to crossreact with S-100 protein from man, rat, and rabbit, as well as with NSE from man and rat. Surprisingly, the test for S-100 protein was found to be strongly positive in the parathyroid glands of rat and rabbit and was focally positive in normal and adenomatous human parathyroid glands, but completely negative in C-cells and medullary carcinoma cells. NSE was present in C-cells of rat and man, and in medullary carcinoma cells, but was absent in normal and adenomatous parathyroid cells. The results support data that indicate that both parathyroid cells and C-cells are derived from elements of the neural crest, but undergo different maturation processes during embryological development.