Development of mucosal mast cells after injection of a single connective tissue-type mast cell in the stomach mucosa of genetically mast cell-deficient W/Wv mice

Mast cells may be classified into at least two phenotypically distinct populations: connective tissue-type mast cells (CTMC) and mucosal mast cells (MMC). Mast cells in the peritoneal cavity of mice are typical CTMC, whereas mast cells in the mucosa of the stomach show morphologic characteristics of MMC. We investigated whether CTMC may change to MMC. A single peritoneal mast cell of WBB6F1-+/+ mice was identified under the phase-contrast microscope, picked up with the micromanipulator, and injected into the stomach wall of genetically mast cell-deficient WBB6F1-W/Wv mice. The cells with histochemical and electron microscopical features of MMC developed in the mucosa, and those with histochemical features of CTMC in the muscularis propria. This directly demonstrates that a certain proportion of CTMC may function as a bipotent precursor for both MMC and CTMC.     

Distribution, Histochemical and Enzyme Histochemical Characterization of Mast Cells in Dogs

This study describes the distribution, proteoglycan properties and protease activity of mast cells from 15 different dog organs. In beagles and mixed breed dogs, staining with Alcian Blue-Safranin O revealed mast cells in all the organs examined. However, their numbers varied and they demonstrated unique localization patterns within some of these organs. Berberine sulphate fluorescence-positive mast cells were observed in the submucosa, muscularis and serosa of the intestines, as well as the tongue and liver (within the connective tissue). Mast cells within the intestinal mucosa were negative for, or demonstrated weak, berberine sulphate staining. Heterogeneity of mast cells in terms of the proteoglycans contained within their granules was further confirmed by determination of critical electrolyte concentrations (CECs). The CECs of mast cells within the connective tissue of several organs, including the intestines (submucosal and muscularis-serosal layers) were all greater than 1.0 M. The results from CEC experiments together with berberine staining indicate that heparin was contained within their granules. Relative to the CECs of mast cells in other organs, mast cells in the intestinal mucosa exhibited lower CECs, suggesting that the proteoglycans within their granules were of lower charge density and/or molecular weight. Although mast cells were classified into two groups by proteoglycans within the granules, enzyme histochemical analysis in beagles revealed three subtypes of mast cells: chymase (MC(C)), tryptase (MC(T)) and dual positive (MC(TC)) cells. There was no correlation between the proteoglycan content and enzyme properties of the mast cell granules.     

Establishment and characterization of hybrid rat mast cells

Rat peritoneal mast cells (RPMC) and rat basophilic leukemia (RBL) cells are representative of connective tissue-type (CTMC) and mucosal-type (MMC) mast cells, respectively. Using polyethylene glycol, we have fused RPMC with 6-thioguanine resistant, HAT (hypoxanthine, aminopterin, thymidine) sensitive RBL-CA10.7 or RBL-CK2 cells, yielding several hybrid rat mast cell lines (HRMC). The hybridomas exhibited different size and cytoplasmic granularity when compared with parental cell lines. Analysis of both high (Fc epsilon RI) and low affinity (Fc epsilon RL) receptors for IgE revealed that the hybrid lines had more variable receptor patterns than the parent lines. Three hybridoma lines were chosen for further study. Differential histochemical staining with alcian blue and safranin O dyes indicated the hybrids to be predominantly of the MMC type: however, a few cells of one of these uncloned hybridomas were found to be of the CTMC type. Attempts to isolate the CTMC hybridomas yielded one culture which was predominantly of the CTMC phenotype and in a number of other cultures, cells were found expressing simultaneously both the CTMC and the MMC phenotype. After 3 weeks in culture, however, all hybridomas, including those which were cloned further, expressed only the MMC histochemical phenotype. This was found to correlate with the presence of rat mast cell protease II (RMCPII) and the absence of RMCPI in all hybridomas, as detected by Western blot analysis. In addition, the histamine content of all cells was significantly lower than that of the parent RPMC. Most hybrid mast cells expressed both Fc epsilon RI and Fc epsilon RL which in some cases exhibited significant variations in the Mr. These results indicate that somatic cell hybrids expressing the MMC and CTMC phenotype can be produced by the fusion of RBL and RPMC. The CTMC phenotype, however, is unstable, and possible reasons for this are discussed.     

Stochastic model for mast cell proliferation in culture of murine peritoneal cells

We recently identified two types of mast cell colonies derived from murine peritoneal cells: type 1 and type 2. Type 1 mast cell colonies consisted of berberine sulfate(+)- safranin(+) connective tissue-type mast cells (CTMC) and were derived from mature CTMC in the heaviest fraction obtained by Percoll density gradient centrifugation. In contrast, type 2 mast cell colonies consisted of alcian blue(+)- berberine sulfate(-)- safranin(-) mucosal mast cells (MMC) and were derived from immature progenitors in low density fractions. We replated a total of 60 type 1 and 60 type 2 mast cell colonies and examined their capability for producing secondary colonies. Although all of the primary colonies yielded secondary colonies, the replating efficiencies of individual colonies varied over a wide range. Cumulative distributions of secondary colonies from both type 1 and type 2 primary colonies could be fitted well by gamma distributions obtained by computer simulation. These findings are in agreement with the stochastic model for CTMC- and MMC proliferation. Cytological analyses of secondary colonies from primary type 1 colonies revealed heterogeneous distributions of alcian blue(+)- safranin(-)- berberine sulfate(-) mast cells, suggesting that transdifferentiation from mature CTMC to safranin(-)- berberine sulfate(-) mast cells is also governed by stochastic mechanisms.     

间接免疫过氧化物酶技术鉴定猪和牛的肥大细胞

用小鼠抗人肥大细胞类胰蛋白酶单克隆抗体ＡＡ１,ＡＡ３及ＡＡ５的间接免疫过氧化物酶技术对经Ｃａｒｎｏｙ液或中性缓冲福尔马林固定的猪和犊牛空肠,舌及胸腺的石蜡切片进行了免疫染色。对猪和牛的肥大细胞特异性免疫染色与常规的组织化学染色的结果进行了比较。     

Phenotypic expression of proteoglycan in mast cells of the human nasal mucosa

Summary The phenotypic expression of the proteoglycan of human mast cells in the nasal mucosa and normal skin was analysed using histochemical techniques. Nasal mucosa was obtained from normal subjects, from patients with seasonal allergic rhinitis before and during the pollen season and from patients with nasal polyps. In the latter groups, specimens were taken from both polyp tissue and adjacent nasal mucosa. Formaldehyde treatment blocked the cationic dye binding in 75–84% of the mast cells located in the nasal mucosa, as compared to the optimum fixation with IFAA (iso-osmotic formaldehyde-acetic acid). A significantly lower degree of blocking of dye binding was obtained in the human skin where 45% of the mast cells were susceptible to formaldehyde treatment (P<0.01). The mast cells of the polyp tissue also showed a relatively low degree of blocking (54%), which was significantly lower than the blocking of mast cells of the nasal mucosa taken from the same individuals (P<0.05). Staining of serial tissue sections in Alcian Blue containing graded concentrations of MgCl₂ was used to determine the critical electrolyte concentration (CEC) of the dye binding, defined as the salt concentration at which the staining of 50% of the mast cells is extinguished. The CEC of the skin mast cells was 0.64m MgCl₂ which is significantly higher than that of the mast cells of the nasal mucosa of normal subjects [0.49m (P<0.05)], allergic subjects [0.52m (P<0.01)], patients with polyp disease [0.52m (P<0.01)] and the polyp tissue proper [0.57m (P<0.05)]. This implies that mast cells of the nasal mucosa contain glycosaminoglycans of a relatively lower charge density and/or molecular size than the connective tissue mast cells found in the human skin. A similar difference has been observed between rat mucosal mast cells, containing a chondroitin suphate proteoglycan, and rat connective tissue mast cells which contain a heparin proteoglycan. However, unlike the rat mucosal cells, the mast cells of the human nasal mucosa showed a weakly fluorescent Berberine binding and, like the rat connective tissue mast cells, entirely lost the ability to bind Toluidine Blue after treatment with nitrous acid. Such treatment results in a deaminative cleavage of heparin and heparan sulphate, but does not degrade chondroitin sulphate. These results provide further evidence of the existence of a distinctive mucosal mast cell phenotype also in man. It is suggested that the lower CEC of the mucosal mast cells is an expression of a content of haparan sulphate, while the relatively higher CEC of the skin mast cells is compatible with a content of heparin.     

新生大鼠雌激素注射后睾丸肥大细胞的变化

新生大鼠注射雌二醇后,睾丸肥大细胞于第30天可见到,细胞数量随年龄增长而增多,生后4－6个月,睾丸网附近仍可见大量肥大细胞。睾丸内的肥大细胞比皮肤内的结缔组织肥大细胞（CTMC）小而与小肠粘膜的粘膜肥大细胞（MMC）相近,AB－S染色后基本着蓝色,硫酸小檗碱荧光染色后呈现中等强度黄色荧光,结果提示,新生大鼠雌激素注射后睾丸内肥大细胞的增多可能与免疫过程有关,睾丸内肥大细胞与CTMC和MMC皆有所不同。     

The role of mast cell degranulation products in mast cell hyperplasia. I. Mechanism of action of nerve growth factor

A variety of mast cell degranulating agents have previously been shown to induce mast cell hyperplasia in adult rats. In neonates 2.5 S nerve growth factor (NGF) induces a hyperplasia of both mucosal and connective tissue mast cells (MMC and CTMC). We have examined the role of the potent mast cell degranulating properties of NGF on its ability to induce mast cell hyperplasia. Administration of NGF in combination with the mast cell stabilizing agent disodium cromoglycate was found to abrogate the CTMC hyperplasia induced by NGF alone. Treatment of neonatal rats with the alternate degranulating agent compound 48/80 was found to induce a limited CTMC but not a MMC hyperplasia. A supernatant obtained by degranulating purified adult rat peritoneal mast cells with anti-IgE was found to induce hyperplasia of the CTMC population similar to that observed with NGF administration. However, this degranulation product supernatant only induced a limited MMC hyperplasia as judged by RMCP II content of the tissues. These results suggest that NGF has dual action inducing mast cell hyperplasia; CTMC hyperplasia being dependent on the ability of NGF to degranulate mast cells. MMC hyperplasia induced by NGF is independent of CTMC degranulation. Degranulation products from peritoneal mast cells act to increase both MMC and CTMC populations in the neonate. These data suggest that the CTMC population may be regulated by an autocrine positive feedback mechanism in vivo.     

Histochemical method for demonstrating quail mast cell types simultaneously

Abstract

The development and application of selective staining methods for routine detection of mast cells are of considerable interest, because these cells play an important role in health and disease. The composition of cytoplasmic mast cell granules depends on the species and type of mast cell. The study reported here was conducted to investigate the combined use of aldehyde fuchsin (AF) and the Alcian blue-critical electrolyte concentration (AB-CEC) (pH 5.8, 0.3 M MgCl₂) techniques for differentiating avian mast cell subtypes. Tissue samples from skin, intestines, and lungs of six healthy adult quail and two control rats were fixed in Carnoy's solution and 10% formolin for routine histological processing. To determine the staining properties of sulfated glycosaminoglycans (GAGs), a three-step staining technique was applied using berberine sulfate, AF, and AB-CEC. In quail, AF positivity following application of the AB-CEC technique was found only in the lungs, mostly in cells that gave a berberine sulfate-positive reaction, and this positivity was determined to be localized particularly in the nucleus and perinuclear cytoplasm. In other regions, the pale AF staining of cells that did not emit fluorescence when stained with berberine sulfate was determined to be replaced by a blue color after application of AB-CEC. The AF/AB-CEC (pH 5.8, 0.3 M MgCl₂) technique demonstrated that rat and quail mast cells varied in both GAG types and their distribution within the cell. Especially in avian species, this technique can be applied to distinguish mast cells according to their GAG content. It can be used as an alternative to the AB/safranin O staining procedure for differentiating mast cells that contain and lack heparin.     

Microwave-assisted staining of mucosal mast cells and granulated intra-epithelial lymphocytes after formalin fixation

Summary Rat jejunum was fixed with either formalin or methanol-formalin acetic acid (MFAA) and stained with Astra Blue or Alcian Blue with or without microwave irradiation. Staining of both mucosal mast cells and granulated intra-epithelial lymphocytes after formalin fixation was considerably improved by microwave irradiation. On the other hand, microwave irradiation slightly impaired staining of mucosal mast cells (MMC) and even more strongly granulated intra-epithelial lymphocytes (GIEL) after MFAA fixation.     

Variations in the staining of cutaneous mast cells

Synopsis Mast cells of dog skin were examined by staining with Alcian Blue in magnesium chloride solutions and by a periodic acid-Schiff method. The results suggest that the usual fall in cell-count with age is largely due to increasing blockage of staining by protein-saccharide interaction. The degree of sulphation and molecular weight of the saccharide polymer appears to be reduced with age in animals with either normal or diseased skin, but in the diseased animals the protein-polysaccharide interaction did not occur. Significant differences between body regions occur, particularly in the anal region. It is considered unlikely that significant amounts of glycosaminoglycans other than heparin are present in dog mast cells.     

Mucosal mast cells of the rat intestine: a re-evaluation of fixation and staining properties, with special reference to protein blocking and solubility of the granular glycosaminoglycan

Mucosal mast cells of the gastrointestinal tract constitute a separate cell line within the mast cell system of the rat, differing in several respects from the classical connective tissue mast cells and, unlike the latter, requiring special fixation techniques for their demonstration. We have examined some histochemical properties of mucosal mast cells of the duodenum and compared them with connective tissue mast cells of the tongue or skin. The results indicate that the structural integrity of the granules of both types of mast cell is partly dependent on ionic linkages between glycosaminoglycan and protein. The so far unidentified glycosaminoglycan of mucosal mast cells appears to be more soluble than the heparin of connective tissue mast cells. The strongly fluorescent binding of Berberine to the granules of connective tissue mast cells and, depending on their content, of heparin is absent from mucosal mast cells, confirming previous findings which suggested that they contain a glycosaminoglycan with a lower degree of sulphation. Aldehyde fixation by routine procedures reversibly blocks the cationic dye binding of mucosal mast cell granules. The dye binding groups may be unmasked by trypsination or by long staining times of the order of several days. The results suggest that the blocking of staining by aldehydes is caused by a diffusion barrier of a protein nature. Mucosal and connective tissue mast cells thus differ with respect to the spatial arrangement of glycosaminoglycan and protein in their granules. As a result of the study a modified method for the demonstration of mucosal mast cells in tissue sections is described, based on normal formaldehyde fixation and staining in Toluidine Blue for a long time. It has some advantages over previous methods and preserves the structure of mucosal and connective tissue mast cells equally well.     

Histochemistry and morphology of porcine mast cells

Summary Mast cells have been described extensively in rodents and humans but not in pigs, and the objective of this study was to characterize porcine mast cells by histochemistry and electron microscopy. Carnoy's fluid proved to be a good fixative but fixation with neutral buffered formalin blocked staining of most mast cells. Alcian Blue stained more mast cells than did Toluidine Blue (pH 0.5), although Alcian Blue also stained goblet cells. In pigs, unlike rodents, the Alcian Blue method did not distinguish between mast cells in the intestinal mucosa and those in the connective tissue of the intestinal submucosa, tongue and skin. Mast cells were significantly larger in adult pigs than in piglets; in adult pigs and piglets, mast cells in the intestinal mucosa were significantly larger than those in submucosal connective tissue, and they were more varied in shape in piglets and adults. Granules in mast cells in the intestinal mucosa stained less intensely than those in mast cells in connective tissue of tongue, skin and intestinal submucosa. Mast cells in the connective tissue of the tongue, skin and intestinal submucosa fluoresced strongly when stained with berberine sulphate or with a mixture of berberine sulphate and Acridine Orange, but mast cells in the intestinal mucosa did not. All mast cells reacted positively in an enzyme-histochemical method previously used to detect human tryptase but not in a method previously used to detect human chymase. Mast cells in the medulla of thymus stained similarly to mast cells in the intestinal mucosa. Ultrastructural differences between mast cells were not detected.     

几种肥大细胞染色方法的比较

运用ABC—爱先蓝—PAS混合染色及PAP技术对大鼠肝、胃、肠及DAB诱发的大鼠肝癌中肥大细胞进行了染色对比实验,结果表明:Carnoy及福尔马林等固定液固定的组织内肥大细胞均能被爱先蓝染色成蓝色,其染色时间不同,该种染色方法可作为一种常规的染色方法,用于确定肥大细胞在组织中的分布及数量。ABC—爱先蓝—PAS混合染色方法及PAP技术均能准确、有效地确定肥大细胞(MC)性质。ABC—爱先蓝—PAS混合染色使结缔组织肥大细胞(CTMC)呈棕褐色,周边略蓝色。粘膜肥大细胞(MMC)则呈蓝色,通过不同颜色的显示,可清楚地将CTMC与MMC区分开来。PAP方法具更高的特异性。但有关的抗体来源缺乏,因此在无特异Ⅰ抗体的情况下,ABC—爱先蓝—PAS混合染色方法亦可视为鉴别两类不同性质MC的一种较为理想的方法。     

Enzyme histochemistry of rat mast cell tryptase

Fixation and staining conditions for rat mast cell tryptase and its histochemical distribution in different rat tissues were investigated. Prostate, skin, lung, gut, stomach and salivary glands were fixed in either aldehyde or Carnoy fixatives and then frozen or embedded in paraffin wax. Preservation of tryptase enzymic activity against peptide substrates required aldehyde fixation and frozen sectioning. Of the peptide substrates examined, z-Ala-Ala-Lys-4-methoxy-2-naphthylamide and z-Gly-Pro-Arg-4-methoxy-2-naphthylamide proved the most effective for the demonstration of tryptase. Double staining by enzyme cytochemistry followed by immunological detection of tryptase showed that, in all tryptase-containing mast cells, the enzyme is at least in part active. Conventional dye-binding histochemistry was used to confirm the identity of mast cells. Aldehyde-fixed mucosal mast cells required a much shorter staining time with Toluidine Blue if tissue sections were washed directly in t-butyl alcohol. Double staining by enzyme cytochemistry and dye binding showed that tryptase is absent from mucosal and subepidermal mast cells, which are also smaller in size and appear to contain fewer granules than connective tissue mast cells. This study demonstrates that rat mast cell tryptase, unlike tryptases in other species, is a soluble enzyme. It is stored in an active form and is absent from some mast cell subpopulations in mucosa, skin and lung. © 1998 Chapman & Hall     

Role of gastric mast cells in the regulation of central TRH analog-induced hyperemia in rats

RX 77368 (RX) increases gastric mucosal blood flow by a vagal cholinergic mechanism. The relative roles of mucosal and connective tissue mast cells (MMC and CTMC) were investigated in RX-injected rats. Blood flow and mast cell degranulation were measured after intracisternal RX. RX significantly increased gastric mucosal blood flow, and sequentially degranulated CTMC and MMC. Ketotifen or doxantrazole inhibited the hyperemic response. Ondansetron, RS-039604-90, or famotidine, but not ketanserin or pyrilamine, reduced hyperemia. Mast cells mediate RX-induced gastric hyperemia via 5-HT3, 5-HT4, and H2 receptors; initial increase depends upon CTMC whereas MMC contributes to the later response.     

Lectin histochemistry of the mast cell: Heterogeneity of rodent and human mast cell populations

Summary Mast cell granules contain a variety of N-linked saccharides. Heterogeneity of the expression of these saccharides in mast cells was studied in rodent and human tissues which were so selected as to contain all the mast cell subsets previously identified using other criteria. Dermal and intestinal mucosal mast cells were stained with lectins using an avidin-biotin system. It was found that dermal and subepidermal mast cells in the rat and mouse, and mucosal and dermal human mast cells showed very similar lectin binding properties to each other, with a fine variation in the inlensity of staining with certain lectins. Rat mucosal mast cells, however, showed a distinctive pattern of lectin binding which was not seen in mast cells from any other tissue studied. The chemical basis of the differences seen were deduced and the possible significance of these structural variations is discussed.     

Investigations of dye binding in the sequential staining of mucosaccharides by Alcian Yellow-Alcian Blue. II. Spot tests and experiments on dye-mucopolysaccharide (glycosaminoglycan) precipitates

Synopsis The amounts of dye bound to mucopolysaccharide in the histochemical sequential staining Alcian Yellow-Alcian Blue method were determined by studying dye-mucopolysaccharide (glycosaminoglycan) precipitates in test-tube and spot test experiments. In the second step (Alcian Blue) of the method, previously bound Alcian Yellow was released into the staining solution and simultaneously the precipitate took up Alcian Blue. The amounts of Alcian Yellow released and Alcian Blue taken up varied for different mucosaccharides, and depended on the staining time of the second step (Alcian Blue) of the sequence, as well as on the concentration of dye and salt in the Alcian Blue solution. It is thought that, among other things, the Alcian Blue in solution displaces some of the bound Alcian Yellow. Some observations could be explained by the aggregation of dye molecules. The results were in agreement with previous histochemical observations.     

Changes in numbers and heparin content of peritoneal fluid mast cells of growing rats measured by flow cytofluorometry

A cytofluorometric method, based on berberine staining of mast cell heparin, was used for flow cytofluorometric counting and heparin quantitation of mast cells in crude peritoneal suspensions of growing rats. The automatic flow cytofluorometric counting of mast cells correlated well with hemocytometer cell counts. The mean mast cell heparin content obtained by flow cytofluorometry showed good agreement with such obtained by cytofluorometry of microscopically identified mast cells. The number of peritoneal mast cells and the mean mast cell heparin content was found to increase as the animals grew older. The results of the microscope fluorometric measurements suggested that the heparin content was normally distributed within mast cell populations of both young and old rats. However, the heparin distributions obtained by flow cytofluorometry were often positively skewed but did not fulfill the condition of the log-normal distribution.     

Immunohistochemical localization of vascular endothelial growth factor in the globule leukocyte/mucosal mast cell of the rat respiratory and digestive tracts

 Vascular endothelial growth factor (VEGF) is a potent angiogenic mitogen that also increases vascular permeability. Immunohistochemical localization of VEGF in the respiratory and digestive tracts of healthy adult rats was investigated at light and electron microscopic levels using a specific antibody. The results revealed solitary cells with strong VEGF immunoreactivity scattered in the epithelium of the respiratory tract as well as in the lamina propria and epithelium of the intestine. From ultrastructural features of their large cytoplasmic granules, VEGF-positive cells in the respiratory tract were identified as globule leukocytes (GL). The immunoreactivity was localized exclusively in the cytoplasmic granules of GL. Most of the VEGF-positive cells in the small intestine were located in the lamina propria, whereas those in the large intestine were found more frequently in the epithelium than in the lamina propria. They showed the same morphological features as respiratory tract GL and were identified as mucosal mast cells (MMC). When examined in serial sections, GL/MMC in the respiratory and digestive tracts showed only weak reactivity to anti-histamine antibody. In contrast, connective tissue mast cells (CTMC), which were located in the submucosa of the digestive tract and in the connective tissues of the respiratory tract and other organs, were intensely immunopositive for histamine, whereas they showed no reactivity to anti-VEGF antibody. The specific occurrence of VEGF in GL/MMC suggests that this cell type is involved in paracrine regulation of the permeability of nearby microvessels, and that VEGF immunoreactivity can be used as a histochemical marker to distinguish GL/MMC from CTMC. Accepted: 28 July 1998