The Lectin ArtinM Induces Recruitment of Rat Mast Cells from the Bone Marrow to the Peritoneal Cavity

Background

The D-mannose binding lectin ArtinM is known to recruit neutrophils, to degranulate mast cells and may have potential therapeutic applications. However, the effect of ArtinM on mast cell recruitment has not been investigated.

Methodology

Male Wistar rats were injected i.p. with ArtinM or ConA (control). The ability of the lectin to degranulate peritoneal and mesenteric mast cells was examined. Recruitment of mast cells to the peritoneal cavity and mesentery after ArtinM injection was examined with or without depletion of peritoneal mast cells by distilled water.

Results

ArtinM degranulated both peritoneal and mesentery mast cells in vitro. Three days after i.p. injection of the lectin there were reduced numbers of mast cells in the peritoneal lavage, while at 7 days post injection of ArtinM, the number of peritoneal mast cells was close to control values. Since immature mast cells are recruited from the bone marrow, the effect of the lectin on bone marrow mast cells was examined. Injection of ArtinM resulted in an increased number of mast cells in the bone marrow. To determine if degranulation of mast cells in the peritoneal cavity was required for the increase in bone marrow mast cells, the peritoneal cavity was depleted of mast cells with ultrapure water. Exposure to ArtinM increased the number of mast cells in the bone marrow of rats depleted of peritoneal mast cells.

Conclusions

The ArtinM induced recruitment of mast cells from the bone marrow to the peritoneal cavity may partially explain the therapeutic actions of ArtinM.     

Maturation of adult rat peritoneal and mesenteric mast cells

Summary Repopulation and maturation of rat mesenteric and peritoneal mast cells were studied after mast cell depletion by intraperitoneal injection of distilled water. Immature mast cells were first identified in the mesentery and peritoneal fluid 5 and 6 days, respectively, after water injection. The most immature mast cells that could be identified contained a few orthochromatic granules. Upon maturation, the granules became metachromatic and increased in size and number. Heparin, revealed by toluidine blue staining and berberine sulfate fluorescence, appeared simultaneously with orthophthaldialdehyde (OPT)-induced histamine fluorescence. Paraformaldehyde-induced serotonin fluorescence appeared somewhat later. Repopulation of mesentery and peritoneal fluid by mast cells seemed to be independent of each other and to occur from undifferentiated precursor cells.     

Aging-associated shifts in functional status of mast cells located by adult and aged mesenteric lymphatic vessels

We had previously proposed the presence of permanent stimulatory influences in the tissue microenvironment surrounding the aged mesenteric lymphatic vessels (MLV), which influence aged lymphatic function. In this study, we performed immunohistochemical labeling of proteins known to be present in mast cells (mast cell tryptase, c-kit, prostaglandin D(2) synthase, histidine decarboxylase, histamine, transmembrane protein 16A, and TNF-α) with double verification of mast cells in the same segment of rat mesentery containing MLV by labeling with Alexa Fluor 488-conjugated avidin followed by toluidine blue staining. Additionally, we evaluated the aging-associated changes in the number of mast cells located by MLV and in their functional status by inducing mast cell activation by various activators (substance P; anti-rat DNP Immunoglobulin E; peptidoglycan from Staphyloccus aureus and compound 48/80) in the presence of ruthenium red followed by subsequent staining by toluidine blue. We found that there was a 27% aging-associated increase in the total number of mast cells, with an ～400% increase in the number of activated mast cells in aged mesenteric tissue in resting conditions with diminished ability of mast cells to be newly activated in the presence of inflammatory or chemical stimuli. We conclude that higher degree of preactivation of mast cells in aged mesenteric tissue is important for development of aging-associated impairment of function of mesenteric lymphatic vessels. The limited number of intact aged mast cells located close to the mesenteric lymphatic compartments to react to the presence of acute stimuli may be considered contributory to the aging-associated deteriorations in immune response.     

Mast cells in the rat brain synthesize gonadotropin-releasing hormone

Mast cells occur in the brain and their number changes with reproductive status. While it has been suggested that brain mast cells contain the mammalian hypothalamic form of gonadotropin-releasing hormone (GnRH-I), it is not known whether mast cells synthesize GnRH-I de novo. In the present study, mast cells in the rat thalamus were immunoreactive to antisera generated against GnRH-I and the GnRH-I associated peptide (GAP); mast cell identity was confirmed by the presence of heparin, a molecule specific to mast cells, or serotonin. To test whether mast cells synthesize GnRH-I mRNA, in situ hybridization was performed using a GnRH-I cRNA probe, and the signal was identified as being within mast cells by the binding of avidin to heparin. GnRH-I mRNA was also found, using RT-PCR, in mast cells isolated from the peritoneal cavity. Given the function of GnRH-I in the regulation of reproduction, changes in the population of brain GnRH-I mast cells were investigated. While housing males with sexually receptive females for 2 h or 5 days resulted in a significant increase in the number of brain mast cells, the proportion of mast cells positive for GnRH-I was similar to that in males housed with a familiar male. These findings represent the first report showing that mast cells synthesize GnRH-I and that the mast cell increase seen in a reproductive context is the result of a parallel increase in GnRH-I positive and non-GnRH-I positive mast cells.     

The intestinal mast cell response to Trichinella spiralis infection in mast cell-deficient w/wv mice

The intestinal mast cell response and lymphoblast activity, as measured by the incorporation of 3H-thymidine into mesenteric lymph node cells (MLN) of WBB6F1-w/wv(w/wv) mice, their normal congenic littermates (+/+) and C57BL/6J mice, were compared after infection with Trichinella spiralis. Marked and similar blast cell activity and an increase in number of cells were observed in the MLN of infected w/wv and C57BL/6J mice 7 and 15 days P.I. In contrast to C57BL/6J mice, primary T. spiralis intestinal infections were prolonged in w/wv mice and more muscle larvae were recovered from w/wv mice 29 days post-infection. In C57BL/6J mice mucosal mast cell (MMC) numbers increased on day 7 P.I. whereas in w/wv mice these cells did not increase significantly until day 15 post-infection, reaching a peak on day 22. In w/wv mice, the response to secondary infection as determined by an accelerated expulsion of adult worms did not occur until day 11 postchallenge whereas in +/+ and C57BL/6J mice worm expulsion was nearly complete at that time. In both primary and secondary infections, the MMC numbers in w/wv mice were significantly lower than in C57BL/6J or +/+ mice. The results suggest that prolongation of T. spiralis infection in w/wv mice is associated with delayed appearance of mast cells in the intestinal mucosa which may reflect slow generation of the intestinal inflammatory response.     

Increase in mast cell number and altered vascular permeability in thirsty rats.

The intravenous administration of 2M NaCl causes marked swelling, vacuolization and degranulation of rat mesenteric mast cells. 72 h of water deprivation (with food available) doubled the number of mast cells in the rat mesentery. Both experimental conditions induced venular labeling. $\text{In vitro}$, up to 300 mM NaCl did not elicit the release of amines from the mast cell. These results led us to infer the existence of some intermediary between hyperosmolarity and mast cell activation. Increased venular permeability, mast cell degranulation and proliferation are common features in inflammatory processes. Sodium salicylate, a non steroidal anti-inflammatory drug, was found to inhibit specifically cell dehydration thirst. A connection between inflammation and the peripheral mechanisms which trigger the central elaboration of the sensation of thirst is suggested.     

High rate of IgE-mediated histamine release from rat mesenteric mast cells.

IgE-dependent histamine release from rat mesenteric mast cells was investigated. Excised mesenterium was cut into pieces and incubated with IgE overnight at 4 degrees C for sensitization. Over 10 pieces of mesenterium specimen could be prepared from a rat. Antigen-induced histamine release from mesenterium specimen was initiated rapidly and reached a plateau in 5 min. In an optimal condition, over 50% of total histamine was released. In contrast, unpurified and purified peritoneal mast cells released only 22.5% and 5.3% of total histamine, respectively, upon IgE stimulation. Tranilast, a mast cell stabilizer, inhibited the histamine release from mesenteric mast cells significantly. The mesenterium might be useful material for studying tissue-associated mast cell activation.     

Mast cells in the rat brain synthesize gonadotropin‐releasing hormone

Mast cells occur in the brain and their number changes with reproductive status. While it has been suggested that brain mast cells contain the mammalian hypothalamic form of gonadotropin‐releasing hormone (GnRH‐I), it is not known whether mast cells synthesize GnRH‐I de novo. In the present study, mast cells in the rat thalamus were immunoreactive to antisera generated against GnRH‐I and the GnRH‐I associated peptide (GAP); mast cell identity was confirmed by the presence of heparin, a molecule specific to mast cells, or serotonin. To test whether mast cells synthesize GnRH‐I mRNA, in situ hybridization was performed using a GnRH‐I cRNA probe, and the signal was identified as being within mast cells by the binding of avidin to heparin. GnRH‐I mRNA was also found, using RT‐PCR, in mast cells isolated from the peritoneal cavity. Given the function of GnRH‐I in the regulation of reproduction, changes in the population of brain GnRH‐I mast cells were investigated. While housing males with sexually receptive females for 2 h or 5 days resulted in a significant increase in the number of brain mast cells, the proportion of mast cells positive for GnRH‐I was similar to that in males housed with a familiar male. These findings represent the first report showing that mast cells synthesize GnRH‐I and that the mast cell increase seen in a reproductive context is the result of a parallel increase in GnRH‐I positive and non‐GnRH‐I positive mast cells. © 2003 Wiley Periodicals, Inc. J Neurobiol 56: 113–124, 2003     

Differential usage of COX-1 and COX-2 in prostaglandin production by mast cells and basophils

Basophils have been erroneously considered as minor relatives of mast cells, due to some phenotypic similarity between them. While recent studies have revealed non-redundant roles for basophils in various immune responses, basophil-derived effector molecules, including lipid mediators, remain poorly characterized, compared to mast cell-derived ones. Here we analyzed and compared eicosanoids produced by mouse basophils and mast cells when stimulated with IgE plus allergens. The production of 5-LOX metabolites such as LTB4 and 5-HETE was detected as early as 0.5 h post-stimulation in both cell types, even though their amounts were much smaller in basophils than in mast cells. In contrast, basophils and mast cells showed distinct time course in the production of COX metabolites, including PGD2, PGE2 and 11-HETE. Their production by mast cells was detected at both 0.5 and 6 h post-stimulation while that by basophils was detectable only at 6 h. Of note, mast cells showed 8–9 times higher levels of COX-1 than did basophils at the resting status. In contrast to unaltered COX-1 expression with or without stimulation, COX-2 expression was up-regulated in both cell types upon activation. Importantly, when activated, basophils expressed 4–5 times higher levels of COX-2 than did mast cells. In accordance with these findings, the late-phase production of the COX metabolites by basophils was completely ablated by COX-2 inhibitor whereas the early-phase production by mast cells was blocked by COX-1 but not COX-2 inhibitor. Thus, the production of COX metabolites is differentially regulated by COX-1 and COX-2 in basophils and mast cells.     

Effects of neurotropic preparations on the intensity of 3-IHI-DOPA incorporation in mast cells of experimental animals

A sharp intensification of catecholamines synthesis in mast cells regularly followed noradrenaline and reserpine injection. The method of autoradiography makes it possible to analyse quantitatively the intensification of catecholamines synthesis in the mast cells.     

Two specific T cell factors that initiate immune responses in murine allograft systems. A comparison of biologic functions

It has been suggested that Ag-specific T cell factors play a role in the early phase of cellular immune responses. Two of these factors are studied in this paper. The first factor is specific macrophage arming factor (SMAF), that binds to (arms) macrophages and renders them specifically cytotoxic against tumor cells. The second factor is involved in the induction of an early (2 h) mast cell-dependent hypersensitivity reaction, that precedes the delayed-type hypersensitivity response (mast cell arming T cell factor; MTCF). In this study we compare both factors in an allogeneic murine tumor system (C57BL (H-2b) mice sensitized against SL2 (H-2d) lymphoma cells), both factors were: 1) dependent on T lymphocytes for their production, 2) detectable in serum 2 to 3 days after immunization, and 3) MHC (H-2)-Ag specific. Immunochemical studies showed that both factors have a molecular mass between 45 and 90 kDa and bind to the mAb 14-30 (directed against specific T cell factors), but not to anti-kappa/lambda L chain antibodies. Furthermore, it was shown that SMAF produced in vitro could induce a mast cell-dependent early 2-h hypersensitivity reaction against SL2 tumor cells, and resembled in this way MTCF. We concluded that the biologic activities and immunochemical characteristics of SMAF and MTCF are similar. Both factors are produced during the early stages of the immune response and seem to play a role in the initiation of the cell-mediated immune response.     

Inflammatory Cytokine Gene Expression in Mesenteric Adipose Tissue during Acute Experimental Colitis

Background

Production of inflammatory cytokines by mesenteric adipose tissue (MAT) has been implicated in the pathogenesis of inflammatory bowel disease (IBD). Animal models of colitis have demonstrated inflammatory changes within MAT, but it is unclear if these changes occur in isolation or as part of a systemic adipose tissue response. It is also unknown what cell types are responsible for cytokine production within MAT. The present study was designed to determine whether cytokine production by MAT during experimental colitis is depot-specific, and also to identify the source of cytokine production within MAT.

Methods

Experimental colitis was induced in 6-month-old C57BL/6 mice by administration of dextran sulfate sodium (2% in drinking water) for up to 5 days. The induction of cytokine mRNA within various adipose tissues, including mesenteric, epididymal, and subcutaneous, was analyzed by qRT-PCR. These adipose tissues were also examined for histological evidence of inflammation. The level of cytokine mRNA during acute colitis was compared between mature mesenteric adipocytes, mesenteric stromal vascular fraction (SVF), and mesenteric lymph nodes.

Results

During acute colitis, MAT exhibited an increased presence of infiltrating mononuclear cells and fibrotic structures, as well as decreased adipocyte size. The mRNA levels of TNF-α, IL-1β, and IL-6 were significantly increased in MAT but not other adipose tissue depots. Within the MAT, induction of these cytokines was observed mainly in the SVF.

Conclusions

Acute experimental colitis causes a strong site-specific inflammatory response within MAT, which is mediated by cells of the SVF, rather than mature adipocytes or mesenteric lymph nodes.     

Rat Embryonic Mast Cells Originate in the AGM

Mast cells originate from pluripotent hematopoietic stem cells. Two mast cell specific antibodies, mAbsAA4 and BGD6, have previously been used to identify and study committed mast cell precursors (MCcps) in the bone marrow of adult mice and rats. However, the embryonic origin of MCcps is still not known. In the present study, we identified MCcps in rat embryos using these previously characterized mast cell specific antibodies. The MCcps were found in the AGM (aorta-gonad-mesonephros) region of rat embryos at E11.5. These cells were BGD6+, CD34⁺, c-kit⁺, CD13⁺, FcεRI⁻, AA4⁻ CD40⁻, and Thy-1⁻. By PCR the cells contained message for the α and β subunits of FcεRI and mast cell specific proteases. In vitro, the MCcps differentiated into metachromatic mast cells. With age of gestation the percent of MCcps diminished while the percent of mast cell progenitors increased. An increased knowledge of the biology and embryonic origin of mast cells may contribute to a greater understanding of allergy, asthma, and other mast cell related diseases.     

The density of myocardial and pericardial rat mast cells in isoproterenol-induced heart failure

Myocardial mast cells (MC) respond to cardiovascular pathology. The behavior of MC population in myocardium and pericardium of rats has been studied 24 h, 14, 28 and 60 days after two isoproterenol injections (at 24 h intervals). The extent of heart failure has been estimated by supersonic inspection 28 and 60 days after isoproterenol injections. The density of MCs of different degrees of maturity was estimated on paraffin sections stained with Alcian blue--Safranin. The MC density in myocardium of intact and experimental rats was relatively low: from 4 to 6 cells/mm2. The MC density in pericardium of intact rats was several times higher than in myocardium: 48.6 +/- 13.0 cells/mm2. In 24 h and 14 days after isoproterenol injections the pericardial MC density was 1.5 times higher than in control rats (P < 0.05) at the expense of increase in the number of mature MCs with Safranine-positive granules without the increase in the number of immature cells with Alcian blue-positive granules. In 28 days the pericardial MC density was 2 times higher than in intact rats (P < 0.05) at the expense of increase in number of immature and mature cells. In 60 days after isoproterenol injections the pericardial MC density and the ratio of immature and mature cells compared with control did not reach statistical significance. The changes in pericardial MC population corresponded to severity of heart failure according to functional indices. The findings show active reaction of pericardial MCs on myocardium dysfunction that stimulates the maturation of resident immature MCs in pericardium and migration of immature cells to pericardium of damage heart.     

The importance of mast cells for the neutrophil influx in immune complex-induced peritonitis in mice

The role of mast cells in polymorphonuclear leukocyte (PMN) influx in Ag-antibody complex-induced peritonitis was evaluated in mast cell-deficient WBB6F1-W/Wv (W/Wv) mice and their normal littermates, WBB6F1-+/+ (+/+). Peritoneal cell influx was evaluated after i.p. injection of preformed immune complexes. The first significant elevation in the PMN count over PBS-treated controls in +/+ mice was observed 2 h after stimulation. During the period of maximum leukocyte concentrations (6 to 10 h), the increase in total cell count was 5-fold and in PMN 25-fold. In W/Wv mice the PMN influx started 2 h later than in the +/+ mice, and the maximum response (8 to 10 h) was only 50% of that in controls. Reconstitution of mast cells in W/Wv mice for 2 wk or more restored the PMN response to immune complexes. Mast cell release due to AG-antibody complexes was evaluated by measuring fluorescence intensity after berberine sulfate staining for heparin in mast cells from unstimulated as well as stimulated +/+ mice. There was a significant decrease in fluorescence intensity as early as 15 min after stimulation. By 30 min the fluorescence intensity had declined by 65%. This indicates extensive mast cell release that started before PMN mobilization. These experiments demonstrate that mast cells make a significant contribution to immune complex-induced inflammation.     

Is there an interaction between catecholamines and enkephalins in the inferior mesenteric ganglion of the cat?

The authors attempted to block the effects of enkephalins in the lower mesenteric ganglion of the cat by injection of Nalorphin--the antagonist to morphine. In the ganglion they observed an accumulation of catecholamines in nerve cells, nerve terminals and SIF cells. The inhibitory action of enkephalins to catecholamines secretion from nerve cells was assumed.