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.     

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 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.     

The occurrence of serotonin-containing cells in the esophageal epithelium of the bullfrog Rana catesbeiana: a fluorescence histochemical and immunohistochemical study

Fluorescence histochemical examination of biogenic amines of the frog esophageal mucosa revealed that a serotonin-like monoamine exhibiting an yellow fluorescence was present in a certain type of cells. The new type of cells was specifically stained by the immunohistochemical method using anti-serotonin antiserum. From these observations, it is suggested that the new cell type in the esophageal mucosa probably contains 5-hydroxytryptamine (serotonin). The serotonin-containing cells were argentaffin, but negative for Grimelius' silver stain.     

The occurrence of serotonin-containing cells in the esophageal epithelium of the bullfrog Rana catesbiana

Summary Fluorescence histochemical examination of biogenic amines of the frog esophageal mucosa revealed that a serotonin-like monoamine exhibiting an yellow fluorescence was present in a certain type of cells. The new type of cells was specifically stained by the immunohistochemical method using anti-serotonin antiserum. From these observations, it is suggested that the new cell type in the esophageal mucosa probably contains 5-hydroxytryptamine (serotonin). The serotonin-containing cells were argentaffin, but negative for Grimelius' silver stain.     

Immunohistochemical colocalization of glucagon,serotonin, and aromatic L-amino acid decarboxylase in islet A cells of chicken pancreas

Summary The identity of monoamine-emitted, formaldehyde-induced fluorescence in some pancreatic islet cells was studied in pancreatic tissue of male chickens by fluorescence and immunohistochemistry either on the same tissue section or on serial tissue sections. Pancreatic islet cells emitting intense formaldehyde-induced fluorescence also react immunohistochemically with antisera directed against glucagon, serotonin and aromatic L-amino acid decarboxylase. These results show that chicken pancreatic islet A cells contain glucagon, serotonin, and aromatic L-amino acid decarboxylase, an enzyme involved in the synthesis of serotonin. The islet B cells identified with anti-insulin immunoreactivity, which displayed a very weak formaldehyde-induced fluorescence, did not react with anti-serotonin serum.     

Immunocytochemical study of argyrophil (Sevier Munger) endocrine cells of adult human pancreas

Bouin-fixed tissues from non-diabetic adult human pancreata display an argyrophil reaction mainly in the periphery of the islets with the silver technique of Sevier-Munger. The nature of these argyrophil cells was examined after restaining by an indirect immunocytochemical method using antibodies against insulin, glucagon, somatostatin and pancreatic polypeptide. After this procedure the argyrophil cells were identified as glucagon (A-) cells and pancreatic polypeptide (PP-) cells, although the latter exhibited a weaker reaction. The insulin (B-) cells and somatostatin (D-) cells were unreactive. The results show that the Seiver-Munger stain is of equal value to the Grimelius silver nitrate stain in adult human pancreatic islets after fixation in Bouin's fluid.     

克氏原螯虾消化道内分泌细胞的鉴别与定位

目的 对克氏原螯虾（Procambarus clarkii）消化道的嗜银细胞及5种内分泌细胞进行鉴别与定位。方法应用整块组织Grimelius银染法和过氧化物酶标记的链霉亲和素（SP法）免疫组织化学技术结合生物统计学分析。结果嗜银细胞在克氏原螫虾消化道除幽门胃外的各段均有分布,位于消化道上皮细胞间及结缔组织中。五羟色胺（5-HT）细胞在除幽门胃外的消化道各段均有分布。生长抑素（SS）细胞仅在食道和后肠中有分布。胃泌素（Gas）细胞分布于除幽门胃和中肠外的消化道各段。胰高血糖素（Glu）细胞在除幽门胃外的整个消化道均有分布,在食道和贲门胃中最多。胰多肽（PP）细胞仅在肠道中有较多分布。结论克氏原螫虾消化道中存在多种内分泌细胞,它们的分布情况与其它甲壳动物存在一定的共性,然而也有其一定的特异性。     

Immunocytochemical study of argyrophil (Sevier Munger) endocrine cells of adult human pancreas

Summary Bouin-fixed tissues from non-diabetic adult human pancreata display an argyrophil reaction mainly in the periphery of the islets with the silver technique of Sevier-Munger. The nature of these argyrophil cells was examined after restaining by an indirect immunocytochemical method using antibodies against insulin, glucagon, somatostatin and pancreatic polypeptide. After this procedure the argyrophil cells were identified as glucagon (A-) cells and pancreatic polypeptide (PP-) cells, although the latter exhibited a weaker reaction. The insulin (B-) cells and somatostatin (D-) cells were unreactive. The results show that the Sevier-Munger stain is of equal value to the Grimelius silver nitrate stain in adult human pancreatic islets after fixation in Bouin's fluid.Supported by grants from the Swedish Medical Research Council (Project No. 102)     

中华稻蝗消化道内分泌细胞的鉴别与定位

采用整块组织Grimelius银染法和过氧化物酶标记的链霉亲和素免疫组织化学技术,结合生物统计学分析,对中华稻蝗Oxya chinensis消化道内分泌细胞进行鉴别与定位。结果表明：嗜银细胞分布于中华稻蝗的胃盲囊、中肠和后肠各段,以中肠和直肠中最多（P<0.05）, 前肠中未见分布。免疫组织化学法检测出了五羟色胺（5-hydroxytryptamine, 5-HT）、 胃泌素（gastrin, Gas）、 胰高血糖素（glucagon, Glu）和胰多肽（pancreatic polypeptide, PP）细胞, 未检出生长抑素（somatostatin, SS）细胞。免疫阳性细胞分布于中肠和后肠中, 前肠中未见分布。5-HT细胞和Gas细胞均主要分布于胃盲囊、中肠及直肠中,且均以直肠中最多（P<0.05）。Glu细胞在胃盲囊及整个中、后肠均有分布, 在中肠和直肠中最多（P<0.05）。PP细胞主要分布于中肠、回肠和直肠中,中肠中分布密度最大（P<0.05）。本研究显示中华稻蝗消化道中存在多种内分泌细胞,它们的分布情况与其他节肢动物相比存在一定的共性,也有其一定的特异性,可能与中华稻蝗特定的消化道结构和消化生理功能有关。     

Localization of human pancreatic polypeptide in an argyrophilic fourth cell type in islets of the rat pancreas.

An argyrophilic fourth cell type in the rat pancreatic islet can be differentiated from other silver-staining cells by using a modification of the Grimelius aqueous silver nitrate technique. Restaining of the tissues using fluorescent techniques with anti-HPP (Human Pancreatic Polypeptide) serum results in bright fluorescence in the fourth cell type.     

Localization of chromogranin A-immunoreactivity in bovine gastrointestinal endocrine cells with special reference to Grimelius silver stain.

Immunohistochemical studies of the gastrointestinal tract were carried out to characterize the cells exhibiting immunoreactivity for chromogranin A (CGA), a glycosylated protein primarily found in secretory granules of the adrenal medulla. Double immunostaining for gastrointestinal hormones and CGA revealed that in the bovine gastrointestinal tract CGA immunoreactivity occurs in mucosal epithelial cells containing gastrin, glucagon, substance P or motilin, but not in those containing somatostatin. Combined staining with anti-CGA serum and Grimelius' silver demonstrated frequent association of the two stains in a variety of endocrine cells. However, intracellular distribution of the two stains was different: CGA-immunoreactivity was detected in both supra- and infranuclear cytoplasm, whereas Grimelius' silver was mostly localized in the infranuclear region. These results suggest that CGA is the target of Grimelius' silver, as postulated recently (Rindi et al., 1986), but that some subcellular structure-related modification of molecules such as sialation is necessary for the positive Grimelius reaction.     

Gut hormones in Salamandra salamandra

Summary Histological, cytochemical and immunocytochemical methods were used in light and electron microscopical studies to demonstrate the presence of a neuroendocrine system in the gut of the urodele, Salamandra salamandra.Cytochemical stains capable of detecting peptide-producing endocrine cells demonstrate cells reacting with Masson's silver (argentaffin) method, Grimelius' argyrophil silver method, masked metachromasia method and the lead haematoxylin stain.Using antisera raised to a variety of mammalian gut peptides, cells containing bombesin-, gastrin-, somatostatin-, substance P- and glucagon-like immunoreactivity were identified; vasoactive intestinal polypeptide- and substance P-like immunoreactivities were found in nerve fibres in the submucous and myenteric plexus. No immunoreactivity was detected for motilin, gastric inhibitory polypeptide, cholecystokinin or secretin.The ultrastructure of the immunoreactive cells and nerves was revealed by the semithin/thin method. All the cells identified contained numerous electrondense secretory granules, which varied in their chracteristic morphological structure from one cell type to another.The evidence collected in this study indicates that a complex neuroendocrine system regulating gut function is present in this amphibian and may have developed prior to the emergence of the phylum.     

The islets of Langerhans in ducks and chickens with special reference to the argyrophil reaction

Summary The pancreas of birds is a suitable object for studying the A and B cells separately, since the two cell systems are topografically almost entirely segregated in the form of light (= B cells) and dark (= A cells) islets of Langerhans.On the whole in the chicken and duck the actual distribution of the light islets into different size classes followed the same regular pattern previously found in the rat and man. In the body of the pancreas, containing the great majority of islets, the volume distribution curves thus appeared symmetrical.With the silver impregnation method used a distinct argyrophil reaction in both types of islets was obtained on paraffin sections of the pancreas. According to the presence or absence of blackening, the cells of the dark islets could be divided into two distinct fractions. Especially in the duck the silver-positive cells were grouped in a characteristic way along the walls of the capillaries. Ducks and chickens are not the only animals in which it is possible to identify an argyrophil fraction in what the usual granule stains had shown to be A cells. Parallel studies of various mammals are in complete agreement with these observations. It is, however, still uncertain whether we are here dealing with differences in function, age etc. in one and the same type of cell or with two completely different kinds. No correlation between the argyrophil reaction in the dark islet cells and their content of SH and SS groups or tryptophane could be established.This work was aided by grants from the Swedish Medical Research Council.     

Chromogranin A, B and C immunoreactivities of mammalian endocrine cells. Distribution, distinction from costored hormones/prohormones and relationship with the argyrophil component of secretory granules

Antibodies specific for chromogranin A, B or C have been used to detect immunohistochemically these three anionic proteins. Pancreatic A, B and PP cells, gut argentaffin EC, argyrophil ECL and gastrin G cells, thyroid C cells, parathyroid cells, adrenal medullary cells, pituitary TSH, FSH and LH cells as well as some axons of visceral nerves have been found to react with chromogranin A antibodies. Pancreatic A, gut EC and G, adrenal medullary and pituitary cells as well as some gut nerve fibers showed chromogranin B immunoreactivity. Chromogranin C immunoreactivity has been detected in pancreatic A, pyloric D1, intestinal L, thyroid C, adrenal medullary and pituitary cells, as well as in some gut neurons and nerve fibers. No crossreactivity has been found in immunohistochemical tests between chromogranins A, B or C and costored monoamines or peptide hormones/prohormones, from which chromogranins can be separated by selective extraction during fixation. On both morphological and chemical grounds a relationship seems to exist between chromogranin A and Grimelius' argyrophilia. Sialooligosaccharide chains of chromogranin A and, possibly, chromogranins' phosphoserine/phosphothreonine groups, seem to interact with guanidyl, amino, and/or imidazole groups of non-chromogranin components to form silver complexing sites accounting for granules' argyrophilia, which can be removed or blocked without affecting chromogranin immunoreactivities. The abundant anionic groups of the three proteins should contribute substantially to granules' basophilia, the partly "masked" pattern of which supports the existence of a close interaction of such groups with other components of secretory granules, including monoamines and peptide hormones or prohormones. Chromogranins could play a r?le in hormone postranslational biosynthesis and intragranular packaging.     

变色树蜥消化道5-羟色胺细胞的免疫组织化学定位

用免疫组织化学ABC法,应用5-羟色胺(5-HT)特异性抗血清,对变色树蜥(Calotes versicolor)消化道内含有5-HT的内分泌细胞进行了免疫组织化学的定位研究和形态学观察。结果显示,5-HT细胞在变色树蜥消化道的各个部位均有分布,分布密度近似呈“M”形,其中以空肠分布密度最高,胃体次之,食管最低。5-HT细胞的形态多样,呈圆形、椭圆形、锥体形、长锥体形等,其中胃、幽门和直肠以圆形和椭圆形为主,小肠则以长锥体形为主,其细长突起指向肠腔或固有膜;细胞分布于上皮基部、上皮细胞之间、腺泡上皮细胞之间或固有膜内;多数细胞以内分泌功能为主,少数细胞具有外分泌功能。比较分析表明,5-HT细胞分布型可能与动物的食性有关。     

Ultrastructural identification of human secretin cells by the immunogold technique. Their costorage of chromogranin A and serotonin

Summary We have localized secretin in a morphologically distinctive endocrine cell scattered in the epithelium covering the villi and uppermost crypts of the human duodenum and jejunum. The human secretin cell was characterized by relatively large (mean diameter 299 nm±69 SD), fairly irregular granules, the majority of which showed homogeneous distribution of secretin and chromogranin A immunolabelling in a structurally homogeneous core. Other granules had a targetoid pattern due to an inner, argyrophobe, secretin-immunoreactive body surrounded by an argyrophil, chromogranin A immunoreactive mantle. These targetoid granules represent a distinctive ultrastructural marker of the secretin cell. Secretin cell granules have been shown to react with chromogranin A antibodies and Grimelius' silver, while lacking chromogranin B immunoreactivity. About 1/3 of secretin cells also showed serotonin immunostaining.     

Light and electron microscopic identification of the histamine-storing argyrophil (ECL) cell in murine stomach and of its equivalent in other mammals

Summary A peculiar type of cell, the ECL cell, accounts for a large portion of nonenterochromaffin endocrine cells in the gastric oxyntic glands of several mammals, including rat, mouse, guinea pig, rabbit, cat, dog, pig, and man. The ECL cell is characterized mainly by its secretory granules with irregular cores heavily reacting to Grimelius' silver, Sevier-Munger silver and phosphotungstic acid, while failing to react, in all species but the cat and rabbit, to Masson's argentaffin method. In the rat and mouse, the ECL cell seems to correspond exactly to the argyrophil non-argentaffin histamine-storing enterochromaffin-like cell of Håkanson and Owman (1967); in the remaining species, ECL cells seem to account for only a part of the gastric argyrophil enterochromaffin-like cells described by Håkanson and coworkers. Besides sporadic amines, ECL cell granules store non-amine components, whose possible nature is discussed.This investigation was supported in part by Farmitalia S.p.A., Milano.     

蝘蜓消化道5-羟色胺细胞的免疫组织化学定位

应用5-羟色胺(5-Hydroxytryptamine 5-HT)特异性抗血清对蝘蜓(Sphenomorphus iudieus)消化道5-HT细胞的分布及形态进行了免疫组织化学研究。结果表明,5-HT阳性细胞在堰蜓消化道各段均有分布,其中以胃幽门部位分布密度最高,食道与直肠部位其次,空肠部位分布密度最低。消化道各段5-HT细胞形态多样,有圆形、椭圆形、梭形、楔形、不规则形,其中梭形细胞多具有胞突。文中对堰蜓消化道5-HT细胞的分布、形态与功能相适应的特点进行了讨论。     

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.