Mast cells are present in epithelial layers of different tissues of the mollusc <Emphasis Type="Italic">Anomalocardia brasiliana</Emphasis>. <Emphasis Type="Italic">In situ</Emphasis> characterization of heparin and a correlation of heparin and histamine concentration

Heparin, other sulphated glycosaminoglycans and histamine were extracted from various dissected organs of Anomalocardia brasiliana, a mollusc from the South Atlantic, and quantified. A good correlation between heparin and histamine content was found in the labial palp, intestine, ctenidium, mantle and foot tissues. The tissue location of metachromatic cells, putatively containing heparin, was identified histologically with Alcian Blue, Toluidine Blue, Masson trichrome, Haematoxylin–Eosin and PAS. Except for the foot, cells containing metachromatic granules were found in the epithelium surfaces of all the organs analysed. An in situ identification of heparin using nitrous acid and heparinase degradation has established unequivocally the presence of this compound in the metachromatic cells. The location of 'mast-like' cells at the epithelium surface of mollusc tissues exposed to the environment are very similar to the distribution of mammalian and other vertebrate mast cells and gives support to the suggestion for a role of mast cells in defense mechanisms.     

Mast cell heterogeneity between two different species of Hoplias sp. (Characiformes: Erythrinidae): response to fixatives, anatomical distribution, histochemical contents and ultrastructural features

Mast cells from two erythrinid species: Hoplias malabaricus and Hoplias lacerdae, were studied in several tissues throughout the body using light and electron microscopy. Mast cells were found in all organs studied, but were especially abundant in the gastrointestinal tract, and were always in association with connective tissue. These cells showed different characteristics between the two species studied, like varied morphology, anatomical distribution, density, basophilic/eosinophilic staining and heparin content. In H. malabaricus, the tissues fixed with Helly's solution contained mast cells that were basophilic, metachromatic and had heparin in their cytoplasmic granules, while the tissues fixed with Karnovsky's solution contained eosinophilic and orthochromatic mast cells in which heparin was not detected. In H. lacerdae, the use of both fixatives resulted in mast cells that were eosinophilic, orthochromatic, with no identifiable heparin content. Exclusively in H. malabaricus oesophagus, the mast cells were additionally seen among the epithelial cells. The ultrastructural studies performed in hindgut fixed with Karnovsky's solution revealed that the cytoplasmic granules seen in H. lacerdae mast cells were better preserved than in H. malabaricus mast cells. The latter had electron-lucent granules that were often merged, forming channels. The present study demonstrated that mast cells from two species belonging to the same genus or even mast cells from the same species but under different fixatives can present heterogeneous characteristics, possibly due to their functional properties or to their sensitivity to fixatives.     

Histochemical heterogeneity of dermal mast cells in athymic and normal rats

Summary Mucosal mast cells (MMC) and connective tissue mast cells (CTMC) of the rat contain different proteoglycans, which can be distinguished using histochemical methods. The chondroitin sulphate proteoglycan of the MMC, unlike the heparin of the CTMC, does not show fluorescent berberine binding, is susceptible to aldehyde fixatives and stains preferentially with Alcian Blue in a staining sequence with Safranin. The majority of the dermal mast cells are typical CTMC and are located in the deep part of the dermis. Subepidermal mast cells are comparatively few in normal rats but numerous in athymic rats and mice. These cells differ from other dermal mast cells in that they stain preferentially with Alcian Blue and they appear to contain little histamine. We examined some of the histochemical properties of the skin mast cells of female PVG-rnu/rnu rats and their heterozygous littermates aged from 5 to 29 weeks. The thiazine dye-binding of the subepidermal mast cells was partially blocked by formaldehyde fixation and only about half of them showed a weakly fluorescent berberine binding. The critical electrolyte concentration of the Alcian Blue staining of the subepidermal mast cells was between that of CTMC and MMC. Deaminative cleavage with nitrous acid abolished the staining of all skin mast cells, while that of the MMC was unaffected. There were no statistically significant differences in the staining patterns of the dermal mast cells between different ages or groups of rat. These results indicate that the subepidermal mast cells contain a heparin proteoglycan which is, however, different from that of the typical CTMC of other sites. They thus appear to represent a second example of a mast cell within a defined anatomical location exhibiting a distinct proteoglycan expression.     

The histological localization of heparin in the northern quahog clam, Mercenaria mercenaria.

The cellular location of heparin in Mercenaria mercenaria, the northern quahog clam, was identified histologically by azure II and alcian blue/safranin staining. A survey of various organs indicates that heparin was found in several morphological cell subpopulations of the labial palp, ctenidia, intestine, siphon, and pallium. Cells containing these compounds were restricted to areas proximal to epithelial surfaces and granules were observed in all of the cell types except those of the intestine. The "mast-like" cells that we report here may play a role analogous to that of mammalian mast cells in inflammatory responses, using heparin proteoglycan as a supportive defense molecule.     

Distribution and enzyme histochemical characterisation of mast cells in cats

Mast cells from 15 different cat organs were examined in terms of distribution and protease activity. The number of mast cells in each site was found to vary when visualised by metachromatic staining using Alcian Blue. Enzyme histochemical analysis revealed the existence of two subtypes of mast cells. These were categorised based on protease content, i.e. whether the mast cells contained chymase or tryptase. Tryptase-positive mast cells were clearly identifiable in every organ examined, whereas chymase-containing mast cells were predominantly observed in the ear (skin), tongue, spleen, and submucosa of the stomach and rectum. The chymase-reactive cells were not detected in the heart, or in the muscularis or serosa of the duodenum, jejunum, ileum or rectum. In addition, we suggest the existence of another subtype of mast cell containing both chymase and tryptase and localised within the ear (skin), tongue, spleen and submucosa of the rectum.     

Absence of heparin or heparine-like compounds in mast-cell-free tissues and animals

Three models were used for the analysis of heparin concentration and the presence of mast cells, namely different fetal and adult bovine tissues, mast-cell-deficient mice and athymic mice. It was observed that heparin and mast cells are present mainly in spleen and liver during fetal development and in skin, lung and ileum in adults. A good correlation between the concentration of heparin and the number of mast cells was observed in all tissues examined. No heparin was detected in animals that did not have mast cells, such as the WBB₆Fl W/W^v mice, again suggesting a correlation between mast cells and heparin. No differences in the other sulfated glycosaminoglycans were observed between the mast cell-deficient mice and the normal littermates and breeders. Studies in ‘nude’ mice have shown that the heparin concentration in different tissues is similar to normal strains.     

Immunologic release of heparin from purified rat peritoneal mast cells.

High m.w. [35S]heparin, labeled in vivo or in vitro, was released from purified rat mast cells by challenge with rabbit anti-rat F(ab')2, guinea pig anti-rat IgE, or calcium ionophore. The released and the residual heparin were isolated by Dowex 1 chromatography and were of comparable size by Sepharose 4B gel filtration. The majority of the released heparin was found by differential centrifugation to be granule-associated. Net percentage of mast cell heparin release, quantitated by metachromasia after isolation on Dowex 1 chromatography, correlated in a linear fashion with net percentage of histamine release, with heparin exhibiting a threshold requirement for onset of release. The correlation of histamine and high m.w. heparin release provides chemical support for the conclusion of others from ultrastructural studies that mast cell activation by immunologic means or by the calcium ionophore results in secretion of the whole granule.     

Observations on development and morphological effects of histamine liberator 48/80 on PAS-positive granular leukocytes and heterophils of Catostomus commersoni

Developmental stages of the two circulating blood granulocytes, the heterophil and the periodic acid-Schiff-positive granular leukocyte (PAS-GL) are described. There are no metachromatic basophils in this fish and eosinophils, when present, are confined to extra-vascular tissues. Fish were killed up to 24 h after injection with histamine liberator 48/80. Morphological (L/M and E/M) and histochemical studies of blood, haemopoietic tissue and gills from experimental fish were compared with those of untreated control fish.
Blood cells other than PAS-GL and heterophils were generally unaffected by 48/80. Most PAS-GL and heterophils showed alterations in granules and other cytoplasmic features. Stretching and splitting of the PAS-GL nucleus occurred. Very little, if any, histamine was detectable in PAS-GL and heterophils.
The authors support the postulate that during evolution PAS-GL become basophils/ mast cells through two major stages, (1) sulphation of the granule polysaccharide to give heparin resulting in metachromasia of the granules and (2) storage of large quantities of histamine in the granules.     

Alpha-thrombin stimulation of heparin secretion by the peritoneal mast cells in rats

The interaction of alpha-thrombin with connective tissue-type mast cells (CTMC) purified by Ficoll density gradient centrifugation has been examined. It was demonstrated that exposure of CTMC to polymixin (widely used histamine liberator) (3 mg/ml) induced the release of heparin and histamine. Exposure of CTMC to 10(-11) M alpha-thrombin resulted in increase of heparin secretion by 75.5% in relation to basal level. CTMC which were stimulated by very low concentrations of alpha-thrombin (10(-11)-10(-8) M) can release high level of heparin, but not histamine. We have a suggestion that the thrombin specificity is connected with the additional recognition binding site for high molecular substrates (HMS) distinct from the active centre. Unlike alpha-thrombin which has both the active centre and the recognition site for HMS, beta/gamma-thrombin with catalytic activity but with disrupted recognition site induced the heparin release from mast cells only at higher concentrations than alpha-thrombin. It was revealed that DIP-alpha-thrombin without proteolytic activity was unable to activate mast cells in contrast to alpha-thrombin. We consider that alpha-thrombin induced release of heparin by CTMC account for proteolytic and hormone-like activity enzyme by means of both the active centre and the additional recognition site for HMS.     

Immunologic mast cell-mediated responses and histamine release are attenuated by heparin.

Heparin has been shown to act as a competitive inhibitor of inositol 1,4,5-triphosphate (InsP3) receptors in various cell types. Because InsP3 is one of the second messengers involved in stimulus-secretion coupling in mast cells, it is possible that heparin may inhibit mast cell-mediated reactions. Therefore, in allergic sheep, we tested this hypothesis in two mast cell-mediated reactions induced by immunologic and nonimmunologic stimuli: immediate cutaneous reaction (ICR) and acute bronchoconstrictor response (ABR). In 12 sheep allergic to Ascaris suum antigen, the surface area of the skin wheal was determined 20 min after intradermal injection (0.05 ml) of increasing concentrations of specific antigen, compound 48/80, and histamine, without and after pretreatment with heparin (100, 300, or 1,000 U/kg i.v.). Antigen, compound 48/80, and histamine produced concentration-dependent increases in ICR. Heparin "partially" inhibited the ICR to antigen and compound 48/80 in a dose-dependent manner without modifying the ICR to histamine. The heparin preservative benzyl alcohol was ineffective. In 11 additional sheep, specific lung resistance was measured before and after inhalation challenges with antigen, compound 48/80, and histamine without and with aerosol heparin pretreatment (1,000 U/kg). Heparin blocked the antigen- and compound 48/80-induced bronchoconstriction without modifying the airway effects of histamine. In isolated human uterine mast cells, heparin inhibited the anti-immunoglobulin E- but not the calcium ionophore- (A23187) induced histamine release. These data suggest that heparin inhibits the ICR and ABR induced by stimuli that produce immunologic and nonimmunologic mast cell degranulation without attenuating the effects of histamine.(ABSTRACT TRUNCATED AT 250 WORDS)     

Gel formation with leucocytes and heparin

Heparin in concentrations of 5–225 units/ml caused suspensions of thymus lymphocytes, spleen or bone marrow cells to gel. The extent of gel formation was related to concentration of heparin and of cells. The reaction was observed only with intact cells and was temperature-dependent. It did not require Ca⁺⁺, was not inhibited with EDTA, adenosine, prostaglandin synthetase inhibitors, or phosphodiesterase inhibitors and, in this respect, differed from platelet aggregation induced by heparin. Since heparin is released along with histamine from mast cells during injury and certain forms of allergic reaction, a possible role for heparin in promoting accumulation of white cells in the extravascular space is suggested.     

尼罗罗非鱼消化道肥大细胞的组化性质

实验采用改良甲苯胺蓝(MTB)、阿利新蓝-沙黄(AB/SO)、甲基绿-派洛宁(MG-P)、天青Ⅱ-伊红-瑞氏混合液和硫堇5种组化染色法,对尼罗罗非鱼(Nile tilapia)消化道组织中的肥大细胞(Mast cell,MC)组化性质进行研究。尼罗罗非鱼的食管、胃及小肠壁内均显示有肥大细胞,在食管和胃的切片标本上肥大细胞主要分布在黏膜固有层和胃腺体之间。在肠道中的肥大细胞主要分布在黏膜固有层和肠上皮下方,少量肥大细胞存在于黏膜下层结缔组织中。细胞呈圆形、椭圆形,也有长梭形的。而且肥大细胞有沿血管分布的特点。5种组化染色结果表明:AB/SO、MTB和MG-P显示的MC效果较好,尤其AB/SO染色效果最好,肥大细胞轮廓清楚,胞质颗粒较清晰;尼罗罗非鱼肥大细胞胞浆颗粒都呈红色,即肥大细胞胞浆主要含肝素,不含组胺。天青Ⅱ-伊红-瑞氏混合液染色效果也很好,但被染的肥大细胞较少;80%乙醇硫堇染色,在尼罗罗非鱼消化道各段组织中均未能鉴定出肥大细胞。尼罗罗非鱼消化道肥大细胞大多分布于浅层的黏膜或血管、腺体周围的结缔组织等易表露于环境抗原的位点。罗非鱼消化道黏膜层结缔组织中的肥大细胞与大多数脊椎动物的肥大细胞一样,具有沿血管分布的特性,说明硬骨鱼的肥大细胞如哺乳动物肥大细胞一样与血管有着密切的关系。       

Colocalization of heparin and histamine in the intracellular granules of test cells from the invertebrate Styela plicata (Chordata-Tunicata)

In most ascidian species the oocytes are surrounded by two types of accessory cells called follicle cells and test cells. Test cells are located on the periphery of oocytes and remain in the perivitelline space during egg development until hatching. Heparin and histamine were previously described in the test cells of the ascidian Styela plicata. In the present study, electron microscopy techniques were used to characterize the ultrastructure of the S. plicata test cells and to localize heparin and histamine in these cells. Test cells contain several intracellular granules with unique ultrastructural features. They are formed by elongated filaments composed of serial globules with an electron-lucent circle, containing a central electron-dense spot. Immunocytochemistry showed that heparin and histamine colocalize at the border of granule filaments in the test cell. Compound 48/80, a potent secretagogue of heparin-containing mast cells, also induced degranulation of test cells. According to these results, we suggest that test cells represent ancient effector cells of the innate immunity in primitive chordates.     

Migrating mast cells in the gallbladder epithelium of cattle and sheep

Summary This paper reports the existence of mast cells in an epithelial location in the gallbladders of both cattle and sheep. The histochemical studies performed on these cells showed that their cytoplasmic granules contain heparin and biogenic amines in both species. Optical- and electron microscopic observations demonstrated that, in both species, mast cells from the connective tissue of the gallbladder diapedese across the basal lamina and migrate through the epithelium all the way to the luminal surface, and that a degranulation process takes place during this migration. The biochemical results showed a correlation between the number of mast cells present in the epithelium and the amount of heparin detected in the different regions of the gallbladders of the species studied. Unusually high contents of heparin were found in both cattle and sheep gallbladders, suggesting that they should be studied as possible commercial sources of this polimer.     

Bovine mast cells: distribution, density, heterogeneity, and influence of fixation techniques

Mast cells can be distinguished according to various characteristics: rodent mast cells have been subtyped by histochemical criteria, whereas canine and human mast cells have been classified according to their proteases. Comparisons of mast cells from different species have therefore resulted in contradictory and confusing opinions on mast cell heterogeneity. Thus, it is essential to obtain species-specific data on mast cell density and heterogeneity. The present study was carried out to determine the physiological distribution of mast cell numbers and types in bovines according to tissue location, staining, and fixation methods. Samples were fixed in formalin or Carnoy’s fluid. The average number of mast cells was determined by using a metachromatic staining method. Protease content of mast cells was examined with a double-enzyme-immunohistochemical staining technique. Three mast cell subtypes were distinguished: T-, TC-, and C-mast cells. The T-mast cell was the predominant subtype in nearly all investigated organs and tissue locations. Only tryptase-positive mast cells could be demonstrated in bovine skin and uterus. No chymase activity was found in these organs, regardless of the fixation type. A larger number of mast cells was observed after fixation in Carnoy’s fluid. The three different mast cell subtypes were only demonstrated in formalin-fixed tissue; chymase-positive mast cells were not found after fixation in Carnoy’s fluid. Increasing experimental data suggest that mast cell subtypes have different functions in promoting and modulating inflammation and in remodeling the extracellular matrix. Since mast cell tryptase and chymase have different functional properties, these results may clarify the different reaction patterns observed in various organs and species.     

Effect of heparin and related glycosaminoglycan on PDGF-induced lung fibroblast proliferation, chemotactic response and matrix metalloproteinases activity

Fibroblast migration, proliferation, extracellular matrix protein synthesis and degradation are the key events in various biological and pathological processes in pulmonary fibrosis. In addition, biopsy specimens from the lungs of patients with pulmonary fibrosis show increased numbers of mast cells which have metachromatic granules containing heparin, histamine and proteases. Little is known about how these products influence pulmonary fibrosis. In the present study, we investigated the effect of heparin and related glycosaminoglycans on PDGF-induced lung fibroblast proliferation and chemotactic response in vitro. In addition, we examined the effect of heparin on both the induction of matrix metalloproteinases (MMPs) and MMPs activity in lung fibroblasts in vitro. Heparin, de-N-sulphated heparin but not heparan sulphate inhibited PDGF-induced lung fibroblast proliferation. In contrast, only heparin inhibited PDGF-stimulated human lung fibroblast chemotaxis. Negatively charged poly-L-glutamic acid had no effect on either fibroblast proliferation or chemotaxis. Thus the negative charge alone cannot account for the ant-proliferative and anti-chemotactic effects of heparin. Furthermore, heparin and heparan sulphate also had no inhibitory effect on induction of MMPS, including MMP-1 (interstitial collagenase), MMP-2 (gelatinase A) and MMP-9 (gelatinase B). Only heparin inhibited both MMP-1 and MMP-2/MMP-9 activity. Additionally, tissue inhibitor of metalloproteinase type 1 (TIMP-1) and type 2 (TIMP-2) inhibited PDGF-stimulated human lung fibroblast chemotaxis. The ability of heparin to inhibit fibroblast chemotaxis may account for the inhibitory effect of heparin on MMP activity. The above results suggested that heparin and related glycosaminoglycans differentially regulate PDGF-induced lung fibroblast proliferation, chemotaxis and MMPs activity and further that these effects may have a key role in extracellular matrix remodeling in inflammatory lung disease.     

Processing of macromolecular heparin by heparanase

Heparanase is an endo-glucuronidase expressed in a variety of tissues and cells that selectively cleaves extracellular and cell-surface heparan sulfate. Here we propose that this enzyme is involved also in the processing of serglycin heparin proteoglycan in mouse mast cells. In this process, newly synthesized heparin chains (60-100 kDa) are degraded to fragments (10-20 kDa) similar in size to commercially available heparin (Jacobsson, K. G., and Lindahl, U. (1987) Biochem. J. 246, 409-415). A fraction of these fragments contains the specific pentasaccharide sequence required for high affinity binding to antithrombin implicated with anticoagulant activity. Rat skin heparin, which escapes processing in vivo, was used as a substrate in reaction with recombinant human heparanase. An incubation product of commercial heparin size retained the specific pentasaccharide sequence, although oligosaccharides (3-4 kDa) containing this sequence could be degraded by the same enzyme. Commercial heparin was found to be a powerful inhibitor (I50 approximately 20 nM expressed as disaccharide unit, approximately 0.7 nM polysaccharide) of heparanase action toward antithrombin-binding oligosaccharides. Cells derived from a serglycin-processing mouse mastocytoma expressed a protein highly similar to other mammalian heparanases. These findings strongly suggest that the intracellular processing of the heparin proteoglycan polysaccharide chains is catalyzed by heparanase, which primarily cleaves target structures distinct from the antithrombin-binding sequence.     

Histamine immunohistochemistry: a new and highly sensitive method for studying cutaneous mast cells

Summary Mast cells have characteristic granulae containing various glucoseaminoglycans, proteases and amines (predominantly histamine). The conventional histological methods for studying mast cells are based upon acidic ortho-and metachromatic routine stains of the glucoseaminoglycans. However, the success of these procedures is dependent upon both the fixatives and the tissues used. In this study, we wanted to find out whether an immunohistochemical procedure could overcome some of these difficulties. Normal human skin was fixed in five different types of fixative and processed for indirect immunofluorescence, using an antiserum to histamine. Only one, 4% carbodiimide in 0.1m phosphate buffer (pH 7.4), resulted in immunostaining. The quality of the staining was good, with a high signal-to-noise ratio, and was located on the mast cells. The method, made it possible to visualize small structures such as a single secreted granula, the thin cytoplasmatic extension of some cells, and a previously undescribed dendritic morphology of some of the mast cells. We therefore recommend, this procedure for cellular studies of mast cells when accuracy is needed.     

Association between histamine-containing mast cells and sensory nerves in the skin and airways of control and capsaicin-treated pigs

Summary The association between mast cells (visualized by routine staining and immunohistochemistry for histamine) and capsaicin-sensitive nerves (containing calcitonin gene-related peptide (CGRP) and substance P (SP)) was studied in the pig. In the 1-ethyl-3(3-diethylaminopropyl)carbodiimide (EDCDI)-fixed skin tissue, histamine-containing mast cells and CGRP/SP-positive nerves were found in close association around blood vessels. In the EDCDI-fixed airway mucosa, only single histamine-containing mast cells were detected. However, many alcian blue-positive mast cells were found, sometimes close to the airway epithelium where CGRP/SP-containing nerve fibres were absent 2 days after systemic capsaicin pretreatment, but no changes in the number and distribution of tissue mast cells, granulocytes or lymphocytes, or the number of blood leukocytes were detected. Local injection of allergen, histamine and capsaicin into the skin of pigs actively sensitized with ascaris antigen caused a rapid light red-flare (vasodilation) reaction. Allergen and histamine, but not capsaicin, also produced plasma protein extravasation. In contrast to the absent flare, the protein extravasation response still occurred in capsaicin-treated pigs. The sensitivity to ascaris antigen was mediated by an IgE-like antibody. We conclude that a functional and morphological relationship exists between histamine-containing mast cells and capsaicin-sensitive sensory nerves in the pig skin. Mast cells and sensory nerves are also found in the airway mucosa and appear to be closely associated with the epithelium.     

Colocalization of heparin and histamine in the intracellular granules of test cells from the invertebrate Styela plicata (Chordata-Tunicata)

In most ascidian species the oocytes are surrounded by two types of accessory cells called follicle cells and test cells. Test cells are located on the periphery of oocytes and remain in the perivitelline space during egg development until hatching. Heparin and histamine were previously described in the test cells of the ascidian Styela plicata. In the present study, electron microscopy techniques were used to characterize the ultrastructure of the S. plicata test cells and to localize heparin and histamine in these cells. Test cells contain several intracellular granules with unique ultrastructural features. They are formed by elongated filaments composed of serial globules with an electron-lucent circle, containing a central electron-dense spot. Immunocytochemistry showed that heparin and histamine colocalize at the border of granule filaments in the test cell. Compound 48/80, a potent secretagogue of heparin-containing mast cells, also induced degranulation of test cells. According to these results, we suggest that test cells represent ancient effector cells of the innate immunity in primitive chordates.