Endocrine cells of the human gastric mucosa

Summary By light and electron microscopy investigation of the human gastric mucosa five types of ultrastructurally different endocrine cells have been detected: 5-hydroxytryptamine storing enterochromaffin (EC) cells, gastrin storing G cells, and functionally undefined ECL, D and D₁ cells. By direct application of Masson's argentaffin reaction as well as of Sevier-Munger's and Grimelius' argyrophil method to electron microscopy specimens, selective deposition of silver grains upon the endocrine granules of such cells was obtained. In particular, only EC cell granules reacted to the argentaffin method, granules of both EC and ECL cells heavily reacted to Sevier-Munger's technique, granules of EC, ECL, G and D₁ cells reacted to Grimelius' technique, while D cell granules failed to react either to argentaffin or argyrophil methods. By the application of the same silver methods to paraffin sections as well as by other selective staining methods for endocrine granules (5-hydroxytryptamine techniques, lead-haematoxylin, HCl-basic dye method), at least four of the above cell types were also identified under light microscope. This opens the way for extensive studies of such cells in conventional histologie specimens.This investigation was supported in part by grant N.70.01022.04 from the Italian Consiglio Nazionale delle Ricerche.     

Peptide and amine producing endocrine-like cells in the chicken thymus

Summary The thymus of the chicken contains at least two types of endocrine-like cells predominating in the juxtacortical medulla. One type stores 5-hydroxytryptamine and is stained by the argentaffin, chromaffin and Schmorl methods. Treatment with reserpine markedly reduces its 5-hydroxytryptamine content. The other cell type is devoid of 5-hydroxytryptamine; if supplied withl-dopa it can produce and store dopamine. Both cell types stain with the argyrophil method of Grimelius and with HCl-basic dye methods believed to reflect the presence of peptides with masked carboxyl groups. In the electron microscope both cell types were found to contain numerous cytoplasmic 2000–3000 ? granules similar to those seen in polypeptide hormone-producing cells elsewhere. The cytoplasmic granules in one of the two endocrine-like cell types are argentaffin and chromaffin, indicating that they are the storage site for 5-hydroxytryptamine. It is suggested that the main secretory products of the two endocrine-like cell types are peptides, possibly regulating lymphatic tissue function.     

Amine-producing endocrine-like cells in the epithelium of urethra and prostate of the guinea-pig a chemical,fluorescence histochemical,and electron microscopic study

Summary The urethra and prostate of the guinea-pig contain at least two types of endocrine-like cells in the epithelium. The predominant type is argentaffin and stores 5-hydroxytryptamine. Treatment with reserpine or a dopa decarboxylase inhibitor markedly reduces the 5-hydroxytryptamine content of this cell type. The other less numerous cell type, which is argyrophil but not argentaffin, is devoid of 5-hydroxytryptamine but can be induced to store dopamine if supplied with dopa. Both cell types occur disseminated in the urethral epithelium, whilst only the argyrophyl, non-argentaffin cell type devoid of 5-hydroxytryptamine is found in the prostate. At the ultrastructural level the argentaffin cell type contains numerous electron-dense cytoplasmic 800–1000 Å granules. These granules are argentaffin, suggesting that they are the storage site for 5-hydroxytryptamine. The cells sometimes reach the urethral lumen via a narrow neck, the apex being endowed with microvilli. This arrangement suggests that the cells are capable of responding to stimuli in the urethral lumen. Preliminary attempts to test the effect of depriving or loading guinea-pigs with water failed to induced changes in the 5-hydroxytryptamine content of the urethral endocrine-like cells.     

Age and changes in the number of endocrine cells in the stomach and their role in senile atrophy of the gastric glands

In the gastric mucous membrane of 40 rats representing 4 age groups (pubertal, mature, old and very old age) per 10 animals in each, thickness of the mucous membrane has been measured by the argyrophil method of Grimelius and the argentaffin method of Masson - Hamperl and the number of the endocrine cells has been counted. The thickness of the mucous membrane and the length of its glands, as well as the number of argyrophil cells increase from the pubertal towards the mature age. From the mature up to the old age the number of argyrophil cells rises in the antral part, and in the acid-producing zone it significantly decreases. The number of argentaffin cells in the stomach does not change from the pubertal towards the old age. In the very old age, against the background of atrophy of gastric glands, the number of both argyrophil and argentaffin cells decreases in both parts of the stomach studied. The data obtained are discussed taking into consideration functional role of various types of endocrine cells, producing biologically active peptides and monoamines.     

Silver stains for identification of neuroendocrine cells. A study of the chemical background

Summary The chemical background of silver stains used for visualization and characterization of peripheral neuroendocrine cells in the gastrointestinal tract and pancreas, and of their corresponding tumours, was studied in tissue sections and by a dot-blot technique. Sequential staining of pancreatic islets with an immunohistochemical procedure and silver staining of the same tissue section revealed that chromogranin A immunostained cells also displayed an argyrophil reaction with the Grimelius method, but no argentaffin reaction with the Masson technique. Accordingly, purified chromogranin A (15 g or less) treated in formalin and applied to nitrocellulose did not show any argentaffin reaction but displayed a dose-related argyrophil reaction. Equal quantities of other polypeptide components did not give rise to any silver reaction. Further dot-blot studies showed that the tryptophan and tyrosine metabolites, dopamine, norepinephrine, 5-hydroxytryptamine and 5-hydroxindole caused strongly argentaffin and argyrophil reactions while epinephrine, 5-hydroxyindole-3-acetic acid and 5-hydroxytryptophan gave only the former reaction. Among other chemical components studied, only guanine displayed weak silver staining. The results indicate that the reaction products between aldehydes and the granular content of biogenic amines synthesized from tryptophan and tryosine display an argentaffin reaction and that the granular chromogranin A caused an argyrophil but no argentaffin reaction.     

Endocrine cells of the duodenal glands in various representatives of Primates]

The duodenum of four species of monkeys, belonging to the genera Macaca and Papio, has been investigated. In order to reveal argyrophil and argentaffin Ec-cells, Grimelius and Masson-Hamperl methods have been used, respectively. In all the species studied in the terminal parts and in the ducts of the duodenal glands presence of endocrine cells is noted; their amount, however, is considerably less than in crypts. Open and close types of endocrine cells++ have been revealed in the glands. A part of the endocrine cells population is argentaffin Ec-cells (about 40% in Papio and 80% in Macaca). This demonstrates participation of serotonin they produce in regulation of the duodenal glands functional activity. Dependence between taxonomic position of the species and degree of endocrine cells++ development in the duodenal glands has been followed. In particular, in representatives of Macaca amount of argyrophil and argentaffin in the glands is greater than in Papio. Possible reasons of the differences are discussed. Comparing the results on investigation of the glands in the primates with those previously obtained for representatives of Carnivora, a suggestion is made concerning some general principles in organization of the proper endocrinic apparatus of the mammalian duodenal glands.     

褐马鸡幽门区内分泌细胞的免疫组织化学研究

在褐马鸡的幽门区显示出了大量嗜银细胞和亲银细胞。免疫组织化学染色表明,褐马鸡的幽门区内存在有大量G细胞和D细胞,少量EC细胞和极少量PP细胞,其中EC细胞是迄今为止首次在鸟类幽门区得到证实的一个内分泌细胞类型。规察到G细胞、D细胞和EC细胞伸出长的胞质突起与邻近细胞相接触。GRP细胞、Mo细胞、A细胞和B细胞均未在幽门区检出。     

Fine structure of argyrophil and argentaffin cells in the gastro-intestinal tract of the fowl

Summary The fine structure of granular cells in the proventriculus gizzard and intestine of the fowl has been described. The proventriculus and gizzard have only one type of granular cell, the pure argyrophil cell. In the intestine two cell types are shown. One corresponds to the argyrophil cell seen in the proventriculus and gizzard. The other, more common, is considered to be the argentaffin cell of the intestine. Structural differences between these two cell types confirm the known differences in histochemical reaction. Acknowledgement. I wish to thank Mr. R. N. C. Aitken, Department of Veterinary Histology and Embryology for supplying the birds used in this study.     

Quantification of endocrine cells and ultrastructural study of insulin granules in the large intestine of opossum Didelphis aurita (Wied-Neuwied, 1826)

This study aimed to investigate the distribution of argyrophil, argentaffin, and insulin-immunoreactive endocrine cells in the large intestine of opossums (Didelphis aurita) and to describe the ultrastructure of the secretory granules of insulin-immunoreactive endocrine cells. Fragments of the large intestine of 10 male specimens of D. aurita were collected, processed, and subjected to staining, immunohistochemistry, and transmission electron microscopy. The argyrophil, the argentaffin, and the insulin-immunoreactive endocrine cells were sparsely distributed in the intestinal glands of the mucous layer, among other cell types of the epithelium in all regions studied. Proportionally, the argyrophil, the argentaffin, and the insulin-immunoreactive endocrine cells represented 62.75%, 36.26%, and 0.99% of the total determined endocrine cells of the large intestine, respectively. Quantitatively, there was no difference between the argyrophil and the argentaffin endocrine cells, whereas insulin-immunoreactive endocrine cells were less numerous. The insulin-immunoreactive endocrine cells were elongated or pyramidal, with rounded nuclei of irregularly contoured, and large amounts of secretory granules distributed throughout the cytoplasm. The granules have different sizes and electron densities and are classified as immature and mature, with the mature granules in predominant form in the overall granular population. In general, the granule is shown with an external electron-lucent halo and electron-dense core. The ultrastructure pattern in the granules of the insulin-immunoreactive endocrine cells was similar to that of the B cells of pancreatic islets in rats.     

Identification of enterochromaffin cells in adjacent Epon-embedded sections at light and electron microscopic levels

Summary Methods for light and electron microscopic comparison of individual argentaffin and argyrophil enterochromaffin cells (EC) in the sheep duodenal mucosa are described. These silver procedures were applied for light microscopy to Epon-embedded sections. The adjacent sections were examined with the electron microscope. The most specific characteristics of the argentaffin and argyrophil EC in electron microscopy are highly osmiophilic cytoplasmic granules. In one cell type these granules are smaller and more roundish than in the another type. These two cell types are stainable both by the argentaffin and argyrophil reactions. No essential difference can be observed in the localization of these elements. It is suggested that both cell types belong to the enterochromaffin system. Both silver methods are also suitable for the light microscopic identification of other intestinal structures in sections adjacent to that sectioned for electron microscopy.This work was supported by a grant from the Yrjö Jahnsson Foundation, Helsinki, Finland.The electron microscopic observations were carried out in the Electron Microscope Laboratory, University of Helsinki.     

Electron microscopic identification of the histamine-storing argyrophil (enterochromaffin-like) cells in the rat stomach

Summary In the oxyntic gland area of the rat stomach the histamine-containing epithelial cells (also referred to as enterochromaffin-like cells because of their morphologic similarity with the 5-hydroxytryptamine-storing enterochromaffin cells) constitute the system of argyrophil cells in this area as previously shown by the combined use of fluorescence and light microscopic techniques. By performing the argyrophil staining reaction directly on ultra-thin sections it could be demonstrated in the electron microscope that the argyrophil cells have features suggesting that they are endocrine. Based on the ultrastructure of their secretory granules at least two such endocrine cell systems—both argyrophil—could be recognized in the oxyntic glands. The silver deposits were accumulated over the secretory granules of both these cell systems.It is well known that after injection of 1-3,4-dihydroxyphenylalanine, the histamine-storing (enterochromaffin-like) cells of the oxyntic glands store also dopamine. Under these conditions the enterochromaffin-like cells stain argentaffin, which has been shown at the light microscopic level. Also this reaction could be performed directly on ultra-thin sections. By electron microscopy it was then established that the two endocrine cell systems of the oxyntic gland area stained argentaffin upon treatment with 1-3,4-dihydroxyphenylalanine, and that the staining was confined to the secretory granules.The results clearly show that the enterochromaffin-like cells of the rat oxyntic gland area (which is devoid of 5-hydroxytryptamine-containing enterochromaffin cells) are identical with cells characterized as endocrine by ultrastructural criteria, and that gastric non-mast-cell histamine occurs in at least two separate systems of enterochromaffin-like cells.     

Electron microscopic classification of amine-producing endocrine cells by selective staining of ultra-thin sections

Summary The argyrophil, argentaffin and chromaffin reactions were performed directly on ultra-thin sections for examination in the electron microscope. Glutaraldehyde fixation was appropriate for the argentaffin and chromaffin reactions; additional fixation with osmium tetroxide, however, caused impairment of these reactions. Fixation with formaldehyde, but not with glutaraldehyde, was adequate for the argyrophil reaction; post-fixation with osmium tetroxide did not affect this staining. At the light microscopic level the staining reactions were correlated with fluorescence histochemistry according to the method of Falck and Hillarp. The techniques described were used to study certain amine-producing endocrine cell systems: adrenal medullary cells and thyroid parafollicular cells of the mouse, gastric endocrine cells from the oxyntic gland area of the mouse, rat and rabbit. All these cells stained argyrophil. The adrenal medullary cells and one cell type in the oxyntic gland area of the rabbit were strongly argentaffin and chromaffin. The remainder of the cells were non-argentaffin and non-chromaffin but could be induced to give an argentaffin (and chromaffin) reaction after injection of the animals with l-3,4-dihydroxyphenylalanine or l-5-hydroxytryptophan, a treatment which is known to result in the accumulation of the highly reducing dopamine and 5-hydroxytryptamine, respectively, in these endocrine cells. Without exception the precipitates formed in all the staining reactions accumulated selectively over the secretory granules of the cells.The techniques described permit differential staining of consecutive ultra-thin sections for electron microscopic characterization of one and the same cell. They will provide information necessary for correlative studies of the stainable cells at the light and electron microscopic levels.     

Cytologic observations on the pancreatic islets with reference to some endocrine-like cells of the gastrointestinal mucosa

Summary Some findings obtained from cytological studies on the pancreatic islet of man and different animal species by applying several appropriate methods are reported. Three islet cell types were found to be simultaneously demonstrated by toluidine blue after methylation and saponification of tissue sections; metachromasia appeared to be in some way a constant finding of argyrophil D-cells which, at least in duck and man, displayed also a weak PAS-positivity. No one of the three insular cell types was found to show all the morphologic patterns of enterochromaffine cells, nor enterochromaffine cells showed all the patterns of insular cells. The existence of possible morphologic relationships between insular A-cells and some endocrine-like cells in fundic mucosa and, on the other hand, between argyrophil D-cells and some cells in antro-pyloric mucosa of the stomach is emphasized.This work was supported by the Grant N. 04/57/4/7137 of the Consiglio Nazionale delle Ricerche, Rome.     

Application of silver stains to cytologic specimens of neuroendocrine tumors metastatic to the liver

Cytologic specimens of neuroendocrine tumors metastatic to the liver were examined with regard to their silver staining properties after the application of argentaffin and argyrophil staining techniques (Masson, Grimelius and Sevier-Munger). In tumors with a content of serotonin (small intestine carcinoids), the presence of this substance was demonstrated cytologically as an argentaffin reaction in individual tumor cells; however, formalin fixation was a prerequisite for positive staining. Melanin in malignant melanoma cells displayed a positive argentaffin reaction, irrespective of the fixation used (air drying, formalin, Bouin's fluid or acetone-alcohol). Thus, serotonin and melanin can be distinguished in cytologic samples of neuroendocrine tumors by the use of the Masson argentaffin reaction with different fixatives. The nonargentaffin-positive neuroendocrine tumor cells were weakly stained or unreactive with the Grimelius argyrophil technique. The Sevier-Munger argyrophil technique was negative or gave a disturbing nonspecific background staining reaction that was difficult to interpret in the cytologic samples. Thus, the Grimelius method appears to be the most useful silver stain for identifying neuroendocrine tumor cells in cytologic material, irrespective of their hormone content, since both argentaffin-positive and argentaffin-negative cell samples were stained at least to some degree.     

Neuron-specific enolase in mucosal endocrine cells and carcinoid tumours of the small intestine: A comparative study with neuron-specific enolase immunocytochemistry and silver stains

Summary Endocrine cells of human small intestinal mucosa, small intestinal carcinoids and carcinoid liver metastases were stained with an immunocytochemical technique using an antiserum against neuron-specific enolase (NSE), with the argyrophil technique of Grimelius and with the argentaffin technique of Masson. In the normal mucosa, scattered NSE-immunoreactive cells were seen mainly in the deeper parts of the crypts. These cells, as shown in the same sections, corresponded to the argentaffin and/or argyrophil cells indicating that they were of endocrine type.All intestinal carcinoids (16 cases) displayed NSE immunoreactivity. However, this reaction did not correlate on the cellular level with the silver techniques employed. Thus, many tumour cells were NSE immunoreactive but lacked an argentaffin or argyrophil reaction and vice versa. On the light microscopical level the silver techniques reveal the presence of neurohormonal granules in the tumour cells, while the NSE immunoreactivity appears to disclose neuroendocrine differentiation of the tumour cells irrespective of their hormone and granular content.Out of 13 carcinoid liver metastases, eight displayed strong NSE immunoreactivity, three were weakly stained and two were unreactive. Consecutive or the same tumour sections showed an argentaffin and argyrophil reaction in all carcinoid metastases. Since silver staining provides one type of information and NSE immunocytochemistry another, they provide in combination a good discriminator for neuroendocrine tumours.     

Serotonin-storing cells of the chicken duodenum: light,fluorescence and electron microscopy,and immunohistochemistry

Summary In an attempt to identify duodenal endocrine cells emitting formaldehyde-induced fluorescence (FIF), chicken duodena were studied by combined fluorescence, ultrastructural, silver impregnation and immunohistochemical methods in the same or consecutive sections. Our results show that: (1) Almost all the cells emitting yellow fluorescence by both the Falck-Hillarp and the Furness methods exhibit an immunohistochemical reaction with serotonin (5-HT) antiserum. (2) Almost all cells radiating yellow fluorescence by the Furness method stain with toluidine blue in Epon-embedded sections but, by high-voltage electron microscopy, can be subdivided into two types of cell containing either small round or polymorphous types of granules. (3) In the sections from which resin had been removed, all the cells emitting yellow FIF show argentaffinity by the Singh method, but not all cells display argyrophilia with the Grimelius method. (4) Cells exhibiting both argyrophil and argentaffin reactions in deresined serial sections are also separated into two types of cell, containing either small spherical or polymorphous types of granules by conventional electron microscopy in thin sections. Therefore, chicken enterochromaffin cells emit yellow FIF, store 5-HT, show both argentaffinity and argyrophilia, but are ultrastructurally classified into two types of granule-containing cells which may be related to polypeptides coexisting with 5-HT.     

Ultrastructural studies of endocrine cell populations showing an argentaffin reaction and/or serotonin immunoreactivity in the rat antral mucosa

Summary On the basis of staining results in closely related semi-thin sections from rat antral mucosa immunostained with polyclonal serotonin antibodies and silver-stained for the argentaffin reaction, respectively, three different cell populations could be distinguished. One of these cell populations showed both serotonin immunoreactivity and an argentaffin reaction, a second one serotonin immunoreactivity alone, and a third one only an argentaffin reaction.These cell populations were studied electron microscopically in ultra-thin sections located between the stained semi-thin sections. The cell population displaying an agentaffin reaction and serotonin immunoreactivity showed secretory granules of the enterochromaffin cell type. A similar granular appearance was observed in cells which only exhibited an argentaffin reaction. Serotonin immunoreactivity in the absence of an argentaffin reaction was evident in some G (gastrin) cells. and in some D₁ and possibly also some D (somatostatin) cells; but not all the endocrine cells of the non-enterochromaffin type displayed serotonin immunoreactivity. The significance of the different reactions in the three cell populations is discussed.     

Evidence for anterograde transport of secretory granules in processes of gastric paracrine (somatostatin) cells

Certain disseminated endocrine-like cells have previously been found to give off long cytoplasmic processes which end with small bulbous expansions on the membranes of other cell types. It is believed that the process-carrying cells control the functions of the receiving cells by local and directed (paracrine) secretion of messenger molecules (peptides, biogenic monoamines) through their processes. Following injections of amine precursors paracrine cells take up and convert these to the corresponding amines, which can be cytochemically visualized by the Falck-Hillarp formaldehyde-induced fluorescence technique. As the amines are stored in the cytoplasmic (secretory) granules of the cells, they form useful markers for studies of granule turnover and transport. By injecting, at different time intervals, two different precursors (L-5-hydroxytryptophan and L-3,4-dihydroxyphenylalanine), resulting in amines giving different fluorescence colours in the Falck-Hillarp procedure, we have been able to separately label old and new secretory granule fractions in different fluorescence colours. Examination of such double-labelled paracrine cells (mostly gastric somatostatin cells) indicates that their secretory granules are transported in a proximo-distal direction in the paracrine cell processes (" paraxons "). This finding strongly supports the concept that paracrine cells control the functions of the cells they contact by way of directed, process-mediated delivery of their secretory products.     

Ultrastructural identification of argyrophil and argentaffin cells of the gastric mucosa in the rat

Ultrastructure of endocrine cells impregnated in the rat gastric mucosa by Grimelius method (identification of argyrophilia) and by Masson--Hamperl method (identification of argentaffinity) and influence of various fixatives on the structure and properties of the secretory granules in these cells have been studied. Fixation of the material in paraformaldehyde or glutaraldehyde varies in its effect on the granule structure of EC-, D1- and ECL-cells, while its influence on the granule structure of G-, D- and AL-cells is identical. The granules of EC-, ECL- and G-cells are argyrophil, and only those of EC-cells are argentaffin. Weak argyrophilia, which is evidently not appearant at the light-optical level, is specific for granules of D1- and AL-cells. Fixation in paraformaldehyde and especially the subsequent treatment in osmium tetroxide results in increasing argyrophilia of the endocrine cells, as compared to fixation in glutaraldehyde. Varieties in the effect of the fixatives do not prevent ultrastructural and histochemical identification of the endocrine cell types.     

Organogenesis and differentiation of the pancreas in the toad Bufo bufo L.

Summary In Bufo bufo at stage III₆ the first endocrine islets appear in the part of the pancreas corresponding to the dorsal anlage. At stage IV₂, 5 days later, the pancreatic duct develops and new islets arise by budding off from the ductal epithelium. The ultrastructural study of the secretory granules morphology of endocrine cells has distinguished four different cell types: B-cells (stage III₉), A-cells (stage IV₃), D-cells (stage IV₃) and a fourth type not yet identified (stage IV₃). By immunocytology insulin and corticotropin-releasing factor (CRF) cells have been demonstrated at stage III₉, and glucagon and somatostatin cells at stage IV₁. Lastly, endocrine islets can be homogeneous (predominantly containing insulin cells, rarely glucagon cells) or heterogeneous (insulin cells at the centre and glucagon or somatostatin cells at the periphery). Hypotheses are put forward for the origin and the constitution of the different generations of endocrine islets and isolated cells.