Roles of mast cells in the pathogenesis of inflammatory myopathy

Introduction

In addition to the pivotal roles of mast cells in allergic diseases, recent data suggest that mast cells play crucial roles in a variety of autoimmune responses. However, their roles in the pathogenesis of autoimmune skeletal muscle diseases have not been clarified despite their distribution in skeletal muscle. Therefore, the objective of this study is to determine the roles of mast cells in the development of autoimmune skeletal muscle diseases.

Methods

The number of mast cells in the affected muscle was examined in patients with dermatomyositis (DM) or polymyositis (PM). The susceptibility of mast cell-deficient WBB6F1-Kit^W/Kit^Wv mice (W/W^v mice) to a murine model of polymyositis, C protein-induced myositis (CIM), was compared with that of wild-type (WT) mice. The effect of mast cell reconstitution with bone marrow-derived mast cells (BMMCs) on the susceptibility of W/W^v mice to CIM was also evaluated.

Results

The number of mast cells in the affected muscle increased in patients with PM as compared with patients with DM. W/W^v mice exhibited significantly reduced disease incidence and histological scores of CIM as compared with WT mice. The number of CD8⁺ T cells and macrophages in the skeletal muscles of CIM decreased in W/W^v mice compared with WT mice. Engraftment of BMMCs restored the incidence and histological scores of CIM in W/W^v mice. Vascular permeability in the skeletal muscle was elevated in WT mice but not in W/W^v mice upon CIM induction.

Conclusion

Mast cells are involved in the pathogenesis of inflammatory myopathy.     

Histamine from Brain Resident MAST Cells Promotes Wakefulness and Modulates Behavioral States

Mast cell activation and degranulation can result in the release of various chemical mediators, such as histamine and cytokines, which significantly affect sleep. Mast cells also exist in the central nervous system (CNS). Since up to 50% of histamine contents in the brain are from brain mast cells, mediators from brain mast cells may significantly influence sleep and other behaviors. In this study, we examined potential involvement of brain mast cells in sleep/wake regulations, focusing especially on the histaminergic system, using mast cell deficient (W/W^v) mice. No significant difference was found in the basal amount of sleep/wake between W/W^v mice and their wild-type littermates (WT), although W/W^v mice showed increased EEG delta power and attenuated rebound response after sleep deprivation. Intracerebroventricular injection of compound 48/80, a histamine releaser from mast cells, significantly increased histamine levels in the ventricular region and enhanced wakefulness in WT mice, while it had no effect in W/W^v mice. Injection of H1 antagonists (triprolidine and mepyramine) significantly increased the amounts of slow-wave sleep in WT mice, but not in W/W^v mice. Most strikingly, the food-seeking behavior observed in WT mice during food deprivation was completely abolished in W/W^v mice. W/W^v mice also exhibited higher anxiety and depression levels compared to WT mice. Our findings suggest that histamine released from brain mast cells is wake-promoting, and emphasizes the physiological and pharmacological importance of brain mast cells in the regulation of sleep and fundamental neurobehavior.     

Hemopoietic progenitor cells of W anemic mice studied in vivo and in vitro

The proliferation and differentiation of hemopoietic cells from genetically anemic W^v/W^x,W/W^v, and W^v/W^v mice, and from nonanemic carrier W/+, W^b/+, and W^v/+ mice have been evaluated in vivo by transplantation techniques and in vitro by the agar gel culture method. Marrow from anemic and carrier mice contained progenitor cells which were decreased in number and formed small, often rudimentary, colonies in the spleens of irradiated recipient mice. Proliferation and differentiation of both erythropoietic and leukopoietic progenitor cells were delayed and reduced, but erythropoiesis was more severely affected than leukopoiesis. The severity of the hemopoietic impairment was gene-dose dependent. The W gene effect on leukopoietic progenitor cells was not secondary to anemia or to abnormal erythropoiesis. The marrow cells of anemic and carrier mice which form colonies of granulocytic and mononuclear cells in vitro were neither decreased in number nor impaired in proliferation and differentiation. Hypertransfusion of red blood cells increased the frequency of in vitro colony-forming cells, but not that of in vivo progenitor cells. The data demonstrate that colony-forming cells which proliferate in the agar gel cultures in vitro are distinct from the in vivo colony-forming cells and suggest that the former are primitive members of the granulocytic cell line. Perhaps in vitro CFU are in an intermediate stage of differentiation between in vivo CFU and myeloblasts, analogous to that which has been suggested for the erythropoietin-sensitive cell in the red cell series. W mutant alleles appear to act, therefore, at or very near the beginning of hemopoietic differentiation.     

A microassay for mammalian histidine decarboxylase.

This report describes a microassay procedure for mammalian histidine decarboxylase (HDC) based on the measurement of [¹⁴C]O₂ formed from l-[1-¹⁴C]histidine. This assay is particularly useful for quick measurement of HDC activity both in microgram quantities of cell or tissue extract and in tissues that contain significant levels of endogenous histamine.Using this assay, we have shown that the pH optimum, K_m and thermolability of HDC are similar for extracts prepared both from normal rat peritoneal mast cells and from the Furth mouse mastocytoma. HDC activity could be detected in homogenates prepared from 10⁵ rat mast cells, and it was expressed on a per cell basis. Mast cell HDC activity varied with the strain of rat from which the cells were obtained and with the season when they were assayed.     

Concentration of mast-cell progenitors in bone marrow,spleen, and blood of mice determined by limiting dilution analysis

When hematopoietic cells of congenic +/+ mice were injected into the skin of genetically mast-cell-depleted (WB × C57BL/6)F₁-W/W^v mice, mast cells appeared at the injection site. The donor origin of developing mast cells was confirmed by using granules of C57BL/6-bgl/bgl mice as a marker. When the number of injected cells was decreased, the proportion of injection sites at which mast cells did not appear increased according to the expected frequency of null response in a Poisson distribution. Therefore, such proportions were used to calculate the concentration of mast-cell precursors in the bone marrow, spleen, and peripheral blood. The relative concentration of mast-cell precursors in these tissues was similar to that of spleen-colony-forming cells. The present method seems useful as a semiquantitative in vivo assay for a population of progenitor cells which are committed to differentiate into mast cells.     

Analysis of Pleiotropism at the Dominant White-Spotting (W) Locus of the House Mouse: A Description of Ten New W Alleles

Characterization of the pleiotropic effects of ten new putative W locus mutations, nine co-isogenic and one highly congenic with the C57BL/6J strain, reveals a wide variety of influences upon pigmentation, blood formation and gametogenesis. None of the putative alleles, each of which is closely linked to Ph, a gene 0.1 cM from W, gave evidence of complementation with W³⁹, a new allele previously shown to be allelic to W^v. All W*/W³⁹ genotypes resulted in black-eyed-white anemics with reduced gametogenic activity.¹ Homozygotes for seven of these mutations are lethal during perinatal life; anemic embryos have been identified in litters produced by intercross matings involving each of these alleles.—Phenotypes of mice of several mutant genotypes provide exceptions to the frequent observation that a double dose of dominant W alleles (e.g., W/W^v or W/W) results in defects of corresponding severity in each of the three affected tissues. One viable homozygote has little or no defect in blood formation, and another appears to have normal fertility. The phenotypes of these homozygotes support the conclusion that the three tissue defects are not dependent on each other for their appearance and probably do not result from a single physiological disturbance during the development of the embryo.—Although homozygosity for members of this series results in a wide range of phenotypes, the absence of complementation of any allele with W³⁹, the close proximity of each mutant to Ph, and the fact that all alleles produce detectable (though sometimes marginal) defects in the same tissues affected by W and W^v, support the hypothesis that each new mutant gene is a W allele.     

Precursor of mast cells fixed in the skin of mice

The presence and origin of mast-cell precursors fixed in the skin tissue of mice were investigated. Giant granules of beige (C57BL/6-bg^j/bg^j, Chediak-Higashi syndrome) mice were used to distinguish different populations of mast cells. Pieces of the skin were grafted from the intact WBB6F¹ (WB × C57BL/6)F¹?+/+ mice onto the back of the WBB6F¹?+/+ mice which had been irradiated and injected with bone marrow cells of C57BL/6-bg^j/bj^j mice (bg^j/bg^j ?+/+ chimeras). Although the number of mast cells in the skin grafts decreased after the transplantation, the mast-cell precursors circulating in the bloodstream of bg^j/bg^j ?+/+ chimeras (bg^j/bg^j type) did not seem to enter into the skin grafts, because most of mast cells were of +/+ type after the recovery of mast-cell number to pregrafting levels. As a considerable proportion of +/+-type mast cells was labeled with ³H-thymidine, the recovery of mast-cell number in the grafts was attributed to the proliferation and differentiation of +/+-type precursor cells fixed in the skin tissue of the donor. On the other hand, the skin of WBB6F¹-W/W^v mice seemed to be depleted of fixed precursors, because most of mast cells were of bg^j/bg^j type in skin grafted from WBB6F¹-W/W^v mice to bg^j/bg^j?+/+ chimeras. Since the fixed precursor cells which proliferate and differentiate into mast cells after skin grafting may be transferred to WBB6F¹-W/W^v mice by bone marrow transplantation, such precursor cells seem to have been derived from the bone marrow.     

Tyrosine kinase-deficient Wv c-kit induces mast cell adhesion and chemotaxis

W/W^v mice are deficient intissue mast cells, and mast cells cultured from these mice do notproliferate in response to the c-kit ligand, stem cell factor (SCF). Inthis paper, we report that mouse bone marrow cultured mast cellsderived from W/W^v mice do adhereto fibronectin in the presence of SCF and exhibit chemotaxis to SCF,and we explore this model for the understanding of c-kit-mediatedsignaling pathways. Both in vitro and in vivo (in intact cells)phosphorylation experiments demonstrated a low residual level ofW/W^v c-kit proteinphosphorylation. SCF-induced responses inW/W^v mast cells were abolished bythe tyrosine kinase inhibitor herbimycin A and by thephospatidylinositol 3-kinase (PI 3-kinase) inhibitor wortmannin butwere not affected by protein kinase C inhibitors. These observationsare consistent with the conclusions thatW^v c-kit initiates a signalingprocess that is PI 3-kinase dependent and that mutatedW^v c-kit retains the ability toinitiate mast cell adhesion and migration.

     

Effects of Alleles at the W Locus on Testicular Luteinizing Hormone Receptors in Adult Mice

Abstract

The autoregulation of testicular LH receptors was studied in W^x/W^v mice with germ cell aplasia and in normal (±/±) mice. To assess the effects of each individual allele, W^x/± and W^v/± mice were also examined. Basal testicular LH receptor concentration was higher in W^x/W^v mice than in all other genotypes, and higher in W^x/± than in ±/± mice. Twenty-four h after injection of 0.3 IU hCG/g bw, LH receptor concentration was decreased in ±/± and W^v/± mice, but not in W^x/W^v or W^x/± animals. Administration of hCG caused a significant increase in plasma testosterone levels in all genotypes. However, injection of the highest dose of hCG used (0.9 IU/g bw) caused a significantly greater elevation in plasma testosterone in W^x/W^v than in ±/± mice. Plasma gonadotropin levels were significantly higher in W^x/W^v mice than in all other genotypes. The present results indicate that the W^x allele is responsible for the changes in testicular function observed in W^x/W^v mice, and suggest that this allele may be involved in the genetic regulation of testicular LH receptors in the mouse.     

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.     

Decreased neutrophils and megakaryocytes in anemic mice of genotype W/W

The concentration of neutrophils and megakaryocytes was determined in the marrow of anemic mice of genotype W/W^v and their normal (+/+) litter mates. In all groups studied, the humerus of W/W^v mice contained significantly less neutrophils and megakaryocytes than did normal animals. Blood neutrophil concentration was less in all groups of W/W^v mice but in only one group which was the youngest group studied, did this value differ significantly from normal. The blood and marrow neutrophil response to endotoxin was similar in W/W^v and “+/+” animals. This suggests that the neutrophilic system of W/W^v mice responds to this stimulus in a relatively normal manner, much as their erythroid system responds to hypoxia, and androgens.     

Effects of degranulation of mast cells on proliferation of mesenchymal cells in the mesentery of mice

Summary A mast-cell activator, compound 48/80, causes proliferation of mesenchymal cells in the mesentery of rats. Its effect on W/W ^vmice deficient in mast cells was tested to determine whether the proliferation is mediated in the degranulation of mast cells. Incorporation of [³H]thymidine into mesenchymal cells in the mesentery of these mice with or without compound 48/80 was very small compared to their normal litter mates. However, bone marrow transplantation markedly enhanced the effect of compound 48/80, and resulted in an incorporation of [³H]thymidine almost comparable to that observed in normal mice. Our results provide evidence that mesenchymal cell proliferation is caused by a product secreted by mast cells when stimulated by compound 48/80.Supported by a Grant-in-Aid for Scientific Research, No. 366, from the Japanese Ministry of Health and WelfareThe authors are indebted to Drs. Motomu Minamiyama and Yukio Hirata for valuable advices, and to Miss Mitsuko Inoue for technical assistance     

Mast cells contribute to double-stranded RNA-induced augmentation of airway eosinophilia in a murine model of asthma

Background

Clinical studies showed the contribution of viral infection to the development of asthma. Although mast cells have multiple roles in the pathogenesis of allergic asthma, their role of in the virus-associated pathogenesis of asthma remains unknown. Most respiratory viruses generate double-stranded (ds) RNA during their replication. dsRNA provokes innate immune responses. We recently showed that an administration of polyinocinic polycytidilic acid (poly IC), a mimetic of viral dsRNA, during allergen sensitization augments airway eosinophilia and hyperresponsiveness in mice via enhanced production of IL-13.

Methods

The effect of poly IC on allergen-induced airway eosinophilia was investigated for mast cell-conserved Kit^+/+ mice and -deficient Kit^W/Kit^W-v mice. The outcome of mast cell reconstitution was further investigated.

Results

Airway eosinophilia and IL-13 production were augmented by poly IC in Kit^+/+ mice but not in Kit^W/Kit^W-v mice. When Kit^W/Kit^W-v mice were reconstituted with bone marrow-derived mast cells (BMMCs), the augmentation was restored. The augmentation was not induced in the mice systemically deficient for TIR domain-containing adaptor-inducing IFN-β (TRIF) or interferon regulatory factor (IRF)-3, both mediate dsRNA-triggered innate immune responses. The augmentation was, however, restored in Kit^W/Kit^W-v mice reconstituted with TRIF-deficient or IRF-3-deficient BMMCs. Although leukotriene B₄ and prostaglandin D₂ are major lipid mediators released from activated mast cells, no their contribution was shown to the dsRNA-induced augmentation of airway eosinophilia.

Conclusions

We conclude that mast cells contribute to dsRNA-induced augmentation of allergic airway inflammation without requiring direct activation of mast cells with dsRNA or involvement of leukotriene B₄ or prostaglandin D₂.     

Mast cells impair the development of protective anti-tumor immunity

Mast cells have emerged as critical intermediaries in the regulation of peripheral tolerance. Their presence in many precancerous lesions and tumors is associated with a poor prognosis, suggesting mast cells may promote an immunosuppressive tumor microenvironment and impede the development of protective anti-tumor immunity. The studies presented herein investigate how mast cells influence tumor-specific T cell responses. Male MB49 tumor cells, expressing HY antigens, induce anti-tumor IFN-??⁺ T cell responses in female mice. However, normal female mice cannot control progressive MB49 tumor growth. In contrast, mast cell-deficient c-Kit^Wsh (W^sh) female mice controlled tumor growth and exhibited enhanced survival. The role of mast cells in curtailing the development of protective immunity was shown by increased mortality in mast cell-reconstituted W^sh mice with tumors. Confirmation of enhanced immunity in female W^sh mice was provided by (1) higher frequency of tumor-specific IFN-??⁺ CD8⁺ T cells in tumor-draining lymph nodes compared with WT females and (2) significantly increased ratios of intratumoral CD4⁺ and CD8⁺ T effector cells relative to tumor cells in W^sh mice compared to WT. These studies are the first to reveal that mast cells impair both regional adaptive immune responses and responses within the tumor microenvironment to diminish protective anti-tumor immunity.     

Effects of Mutations at the W Locus (c-kit) on Inner Ear Pigmentation and Function in the Mouse

The W locus encodes a tyrosine kinase receptor, c-kit, which affects survivial of melanoblasts from the neural crest. The primary cochlear defect in Viable Dominant Spotting (W^v/W^v) mutants is a lack of melanocytes within the stria vascularis (SV) associated with an endocochlear potential (EP) close to zero and hearing impairment. In this study, we compare inner ear pigmentation with cochlear potentials in three other W alleles (W^x, W^sh, and W⁴¹) and reveal an unequivocal correlation between presence of strial melanocytes and presence of an EP. Asymmetry was common, and 8.3% of W^sh/W^x, 25% of W^sh/W^sh, 60% of W⁴¹/W^x, and 69.2% of W⁴¹/W⁴¹ ears had a pigmented stria and an EP, while the remainder had no strial melanocytes and no EP. In those mutants that partially escaped the effects of the mutation, strial melanocytes rarely extended the entire length of the stria, but were confined to the middle and/or basal turns of the cochlea. The extent of strial pigmentation was unrelated to the EP value, which was measured from the basal turn only. Compound action potential (CAP) responses recorded from ears with an EP were variable and they showed greatly raised thresholds or were absent in all ears where the EP was close to zero. In controls, melanocytes in the vestibular part of the ear were found in the utricle, crus commune, and ampullae, whereas in many mutants only one or two of these regions were pigmented. There was a broad correlation between pigmentation of the stria and pigmentation of the vestibular region but this was not absolute. All W⁴¹/W^x, W^sh/W^sh, and W⁴¹/W⁴¹ mutants had some pigment on the pinna but, in contrast to controls where melanocytes were found in the epidermis and dermis of the pinna, pigment cells were reduced in number and generally restricted to the dermis. Injection of normal neural crest cells into 9.5-day-old mutant embryos increased the extent of skin pigmentation on the head and coat of adult chimeras and was associated with a small increase in the proportion of pigmented strias.     

Marrow allograft success inW/W v anemic mice: Relation to skin graft survival times

Genetically anemicW/W ^v mice were cured by marrow allografts from donors of 13 out of 18 tested strains that differed at non-H-2 histocompatibility alleles defined by skin or tumor grafting. They were also cured by donors from all four tested congenic lines whose antigenic differences had been defined by induction of serum antibodies. They were not cured acrossH-2 differences. Tail skin graft survival times on uncuredW/W ^v recipients were determined for all congenic lines used as marrow donors. The longest and shortest skin graft survival times predicted correctly marrow graft success or failure. NoW/W ^v mice were cured by marrow grafts from donors of the three congenic lines whose skin grafts were rejected in fewer than three weeks. Almost everyW/W ^v mouse grafted was cured by marrow grafts from donors of the 13 congenic lines whose skin grafts survived longest, from 11 to more than 25 weeks. Intermediate skin graft survival times failed to predict whether marrow grafts would succeed.W/W ^v mice were cured by marrow from four congenic lines with mean skin graft survival times of 4.2, 4.4, 8, and 9 weeks, while marrow grafts failed from other congenic lines with mean skin graft survival times of 3.3, 3.4, 4.8, and 8.7 weeks. The simplest explanation for these results is that the antigens specified by theH-2, H-3, H-4, H-25, andH-28 loci are strongly immunogenic on both marrow precursor cells and skin,H-17 andH-24 are strongly immunogenic on skin but not on marrow, andH-12 is strongly immunogenic on marrow precursor cells but less strongly on skin.     

Involvement of histidine permease (Hip1p) in manganese transport in Saccharomyces cerevisiae

In a search for components involved in Mn²⁺ homeostasis in the budding yeast Saccharomyces cerevisiae, we isolated a mutant with modifications in Mn²⁺ transport. The mutation was found to be located in HIP1, a gene known to encode a high-affinity permease for histidine. The mutation, designated hip1–272, caused a frameshift that resulted in a stop codon at position 816 of the 1812-bp ORF. This mutation led to Mn²⁺ resistance, whereas the corresponding null mutation did not. Both hip1–272 cells and the null mutant exhibited low tolerance to divalent cations such as Co²⁺, Ni²⁺, Zn²⁺, and Cu²⁺. The Mn²⁺ phenotype was not influenced by supplementary histidine in either mutant, whereas the sensitivity to other divalent cations was alleviated by the addition of histidine. The cellular Mn²⁺ content of the hip1–272 mutant was lower than that of wild type or null mutant, due to increased rates of Mn²⁺ efflux. We propose that Hip1p is involved in Mn²⁺ transport, carrying out a function related to Mn²⁺ export.     

A kinetic study of the genetic control of hemopoietic progenitor cells assayed in culture and in vivo

The kinetics of growth of bone marrow cells from normal or genetically anemic mice (Sl/Sl^d and W/W^v) were studied in irradiated normal and genetically anemic hosts. The parameters followed included total cellularity, the number of peroxidase positive cells, and the number of cells capable of forming colonies in vivo (CFU-S) or in culture (CFU-C). The results of these experiments demonstrate that W and Sl defects alter the growth of CFU-C and peroxidase-positive cells to a modest degree; that the defects are more obvious when studied in spleen rather than in bone marrow; and that there is no additivity of W and Sl defects. Nineteen irradiated recipients of marrow from W/W^v mice were studied after three to six months. Of these, 18 showed host-type erythrocytes, while in one mouse the erythrocytes had the size distribution of W/W^v cells. This finding indicated that occasionally genetically defective stem cells may repopulate irradiated hosts.     

Relationship between interstitial cells of Cajal, fibroblast-like cells and inhibitory motor nerves in the internal anal sphincter

Interstitial cells of Cajal (ICC) have been shown to participate in nitrergic neurotransmission in various regions of the gastrointestinal (GI) tract. Recently, fibroblast-like cells, which are positive for platelet-derived growth factor receptor ?? (PDGFR??⁺), have been suggested to participate additionally in inhibitory neurotransmission in the GI tract. The distribution of ICC and PDGFR??⁺ cell populations and their relationship to inhibitory nerves within the mouse internal anal sphincter (IAS) are unknown. Immunohistochemical techniques and confocal microscopy were therefore used to examine the density and arrangement of ICC, PDGFR??⁺ cells and neuronal nitric-oxide-synthase-positive (nNOS⁺) nerve fibers in the IAS of wild-type (WT) and W/W ^v mice. Of the total tissue volume within the IAS circular muscle layer, 18% consisted in highly branched PDGFR??⁺ cells (PDGFR??⁺-IM). Other populations of PDGFR??⁺ cells were observed within the submucosa and along the serosal and myenteric surfaces. Spindle-shaped intramuscular ICC (ICC-IM) were present in the WT mouse IAS but were largely absent from the W/W ^v IAS. The ICC-IM volume (5% of tissue volume) in the WT mouse IAS was significantly smaller than that of PDGFR??⁺-IM. Stellate-shaped submucosal ICC (ICC-SM) were observed in the WT and W/W ^v IAS. Minimum surface distance analysis revealed that nNOS⁺ nerve fibers were closely aligned with both ICC-IM and PDGFR??⁺-IM. An even closer association was seen between ICC-IM and PDGFR??⁺-IM. Thus, a close morphological arrangement exists between inhibitory motor neurons, ICC-IM and PDGFR??⁺-IM suggesting that some functional interaction occurs between them contributing to inhibitory neurotransmission in the IAS.     

The contribution of mast cells to the histamine content of the central nervous system: A regional analysis

W/W^V mice are severely deficient in mast cells. The absence of mast cells in skin and salivary glands was found to be paralleled by a drastic decrease of the histamine levels in these tissues when compared to non-anemic +/+ control mice. Brains of W/W^V mice are also devoid of mast cells. A comparison of the histamine concentrations in several brain regions of W/W^V mice and controls revealed a moderate decrease in cerebral cortex, thalamus, hypothalamus and midbrain but no change in pons, medulla and cerebellum. These findings provide strong evidence that mast cells contribute to the histamine content in forebrain regions but not in hindbrain regions. It is speculated that there may exist histaminergic neurons intrinsic to the medulla and pons.