Distribution and enzyme histochemical characterisation of mast cells in cats

Histochemical and immunohistochemical investigation of the number and localization of mast cells in the feline tongue

This is the first study to describe the subtypes, number and distribution of mast cells (MC) in cat tongue by histochemical and immunohistochemical methods. Six male adult felines' tongue tissue samples consist of the study's material. Samples were fixed in 10% formaldehyde. MC number and distribution in the feline tongue were assessed using toluidine blue. Also, sections taken from blocks were stained in alcian blue/safranin O (AB/SO) combined dyes to determine the MC subtypes. The Streptavidin biotin complex method using anti-chymase and anti-tryptase primary antibodies was used for immunohistochemistry. Metachromatic MCs were mainly observed in the lamina propria close to the multilayered keratinized stratified squamous epithelium. The high number of MCs in this region may be because the dorsal surface of the tongue plays an essential role in the defence system of tongue tissue and, thus, of the body as a whole. Additionally, the number of MCs stained with AB (+) (1.7 ± 0.08) in the feline tongue was statistically higher than those with SO (+) (0.18 ± 0.02). This might be interpreted as an indication that MC heterogeneity may be due not only to their staining properties but also to their localization. It is also conceivable that the high histamine content may be a factor in this. Tryptase-positive MCs were found in the loose connective tissue around blood vessels, between the glands, as solitary cells, or in groups of several cells. Chymase-positive MCs were observed more individually rather than in groups. Moreover, chymase-positive MCs were detected to be located in the filiform papillae subepithelial and in the blood vessels' immediate vicinity. Animals often lick themselves to clean themselves and promote healing. For this reason, it is very important to protect the tongue, which is in direct contact with the external environment, against foreign agents. Considering both the functional and protective properties of the tongue, we concluded that MCs may play a role in oral cavity immunity and protective effect.

Bilateral mastocytic and fibroblastic nodular proliferative dermatosis affecting ear margins in three domestic cats

This case series describes the clinical appearance, histopathological findings and therapeutic trials of proliferative nodular lesions on bilateral ear margins of three domestic cats including two littermates. All therapeutic trials were unsuccessful. While the aetiology remains unclear, this report highlights different hypotheses in presenting this unusual inflammatory and fibroblastic dermatosis in cats.

Modern Imaging Technologies of Mast Cells for Biology and Medicine (Review)

Mast cells play an important role in the body defense against allergens, pathogens, and parasites by participating in inflammation development. However, there is evidence for their contributing to the pathogenesis of a number of atopic, autoimmune, as well as cardiovascular, oncologic, neurologic, and other diseases (allergy, asthma, eczema, rhinitis, anaphylaxis, mastocytosis, multiple sclerosis, rheumatoid arthritis, inflammatory gastrointestinal and pulmonary diseases, migraine, etc.). The diagnosis of many diseases and the study of mast cell functions in health and disease require their identification; so, the knowledge on adequate imaging techniques for mast cells in humans and different species of animals is of particular importance. The present review summarizes the data on major methods of mast cell imaging: enzyme histochemistry, immunohistochemistry, as well as histochemistry using histological stains. The main histological stains bind to heparin and other acidic mucopolysaccharides contained in mast cells and stain them metachromatically. Among these are toluidine blue, methylene blue (including that contained in May-Grünwald-Giemsa stain), thionin, pinacyanol, and others. Safranin and fluorescent dyes: berberine and avidin - also bind to heparin. Longer staining with histological dyes or alcian blue staining is needed to label mucosal and immature mast cells. Advanced techniques - enzyme histochemistry and especially immunohistochemistry - enable to detect mast cells high-selectively using a reaction to tryptases and chymases (specific proteases of these cells). In the immunohistochemical study of tryptases and chymases, species-specific differences in the distribution of the proteases in mast cells of humans and animals should be taken into account for their adequate detection. The immunohistochemical reaction to immunoglobulin E receptor (FcεRI) and c-kit receptor is not specific to mast cells, although the latter is important to demonstrate their proliferation in normal and malignant growth. Correct fixation of biological material is also discussed in the review as it is of great significance for histochemical and immunohistochemical mast cell detection. Fluorescent methods of immunohistochemistry and a multimarker analysis in combination with confocal microscopy are reported to be new technological approaches currently used to study various mast cell populations.

Distribution, density and histochemical profiles of the lung mast cells during the post-hatching period of Japanese quails (Coturnix coturnix japonica)

The distribution, density and histochemical characteristics of mast cells in the lungs of the Japanese quail were investigated during the post-hatching period. In the period starting from the first to the 60th day post-hatching, based on proteoglycan content, three types of mast cells, which were alcian blue-positive, safranin O-positive and alcian blue/safranin O-positive, were found to exist in the lungs. The application of staining with berberine sulphate demonstrated that, similar to the distribution of safranin O-positive cells, the heparin-containing cells were located in the periphery of large blood vessels. The percentages of mast cells in different localization sites of the lungs were found to vary with age in the post-hatching period with toluidine blue staining. The lack of any statistically significant increase/decrease in the number of mast cells per unit area of the right and left lung lobes is partially in favour of the proposal that the mast cell number increases with the growth of the lung volume in the post-hatching period.

The tumor microenvironment in colorectal carcinogenesis

Colorectal cancer is the second leading cause of cancer-related mortality in the United States. Therapeutic developments in the past decade have extended life expectancy in patients with metastatic disease. However, metastatic colorectal cancers remain incurable. Numerous agents that were demonstrated to have significant antitumor activity in experimental models translated into disappointing results in extending patient survival. This has resulted in more attention being focused on the contribution of tumor microenvironment to the progression of a number of solid tumors including colorectal cancer. A more complete understanding of interactions between tumor epithelial cells and their stromal elements will enhance therapeutic options and improve clinical outcome. Here we will review the role of various stromal components in colorectal carcinogenesis and discuss the potential of targeting these components for the development of future therapeutic agents.

Characterization of mast cell subtypes, distribution, and antigen-induced activation in the guinea pig esophagus

The number of esophageal mucosa mast cells (MCs) increases in allergic and inflammation conditions in the esophagus, but their role in these conditions is less clear. MCs are derived from bone marrow, migrate and mature in the peripheral tissues. Two subsets of MCs have been characterized as mucosal MC (MMC) and connective tissue MC (CTMC) defined by anatomic location, granule contents, and functions. Whether esophageal MCs share typical features with either MMC or CTMC has yet to be determined. This study characterized esophageal MCs subtypes, distribution, antigen-induced sensitization, and degranulation as measured by MC staining and histamine release assay. Immunofluorescent double staining of MC tryptase and chymase were performed in the esophagus, intestine, and skin from normal and ovalbumin (OVA) actively sensitized guinea pigs. Histamine release was measured in the esophagus from OVA-sensitized guinea pigs following in vitro antigen challenge. Similar to the MCs in the intestine and skin, esophageal MCs contained three subtypes, which included 62% MCtc (tryptase+/chymase+), 17% MCc (chymase+/tryptase-), and 21% MCt (tryptase+/chymase-). In contrast to the ileal MCs, which were distributed all over the mucosa, submucosa, and serosa, MCs in the esophagus almost all (more than 98%) lined along the lamina propria. OVA active sensitization significantly increased the esophageal MC subtype MCtc. OVA in vitro challenge of the esophagus from sensitized guinea pig significantly decreased tryptase-positive MC subtypes MCtc and MCt, and released a significant amount of tissue histamine content. In conclusion, MCs in the guinea pig esophagus have unique features in immunophenotypes, distribution, and degranulation response to OVA challenge with the release of significant amounts of proteases and histamine into the tissue. These characteristics may indicate that OVA in vitro challenge in OVA-sensitized guinea pig esophagus could be a good model to study the role of esophageal MCs in allergic and inflammation conditions.

Distribution and heterogeneity of mast cells in female reproductive tract and ovary on different days of the oestrus cycle in Angora goats

The physiological distribution of mast cells (MCs) in the reproductive tract and ovary of 12 Angora goats was determined using light microscopic histochemical techniques. Uterus (corpus uteri and cornu uteri), uterine cervix, uterine tubes (isthmus and ampulla) and ovary samples were obtained by laparatomy from groups of animals during metoestrus, dioestrus and proestrus (days 5, 10 and 16 of the oestrous cycle). Tissues were fixed in Mota's fixative (basic lead acetate) for 48 h and embedded in paraffin. Six-micrometre-thick sections were stained with toluidine blue in 1% aqueous solution at pH 1.0 for 5 min and alcian blue-Safranin at pH 1.0 for 30 min. MCs were generally associated with blood vessels in all reproductive organs. In the uterus, they were concentrated mainly in the close of the uterine gland and deep stroma in the endometrium. Higher MC numbers were observed by toluidine blue staining in the uterus, uterine cervix and uterine tubes on days 10 (corpus uterine: 4.7 +/- 3.8 and cornu uterine: 4.9 +/- 3.5) and 16 (corpus uterine: 5.9 +/- 4.5 and cornu uterine: 5.4 +/- 2.4) of the oestrous cycle compared with day 5 (p < 0.05). Mast cells were not observed in the follicles, the corpus luteum and the underside of the surface epithelium of the ovarian cortex, but were observed in the interstitial cortical stroma and the ovarian medulla. In the ovary, MC numbers were significantly higher on day 16 of the oestrous cycle (cortex: 3.4 +/- 2.4 and medulla: 5.7 +/- 4.5, p < 0.05). Safranin-positive connective tissue MCs were not observed in the uterine tube on any occasion. These results indicate oestrous cycle-related changes in the number and location of MCs in goat reproductive organs.

Histopathological and enzyme histochemical observations on mast cells in pulmonary arterial lesion of dogs with Dirofilaria immitis infestation

Histopathological and enzyme histochemical observations were performed on mast cells in pulmonary arterial lesion of Dirofilaria immitis in dogs. The results showed that chymase- and tryptase-positive mast cells were diffusely present in the lesions, especially in the adventitia and proliferated intima. At 2 weeks after surgical worm transplantation, mast cells already appeared in the intima and media, and chymase-positive cells were dominant in the adventitia. Results of this study suggested a possibility that mast cells would be involved in the pathogenesis of pulmonary arterial lesion of dogs with Dirofilaria immitis infestation.

Optimization of an Acridine Orange-bisbenzimide procedure for the detection of apoptosis-associated fluorescence colour changes in etoposide-treated cell cultures

This study was initiated in order to investigate the possibility of improving fluorescence microscopy as a method for evaluating apoptosis in cells by combining two fluorescent dyes with different staining characteristics. Cells were vitally stained with bisbenzimide (1.3 microM) and Acridine Orange (6.6 microM) and observed using the following filter configuration: excitation 380 nm, beamsplitter 395 nm and longpass filter 397 nm. Control cells exhibited clear blue fluorescent nuclei and red fluorescing lysosomes. In cells treated with etoposide to induce apoptosis, two distinct occurrences were observed: a change in the spectrum of emitted light from bisbenzimide bound to the nuclear region and an increase in lysosomal Acridine Orange fluorescence. The two occurrences together permit a more unbiased detection of apoptosis than most assays. Only one filter set is required for evaluation and the resulting images can be easily evaluated visually or processed further by image analysis.