UNIPROT:P15088 - FACTA Search

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Query: UNIPROT:P15088 (mast cell)
14,925 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The relationship between production of IgE and collagen-induced arthritis in mice was examined. Collagen-specific IgE was produced as a consequence of immunization of DBA/1 mice with chicken type II collagen emulsified in CFA. We observed a rise in collagen-specific IgE antibody levels at the onset of CIA clinical and histologic signs in DBA/1 mice. This rise in IgE paralleled that of IgG2a anticollagen antibodies, an isotype implicated in the pathogenesis of CIA by other laboratories. The collagen-specific IgE contained in the plasma of mice with CIA could arm basophils for Ag- (collagen) dependent degranulation. Collagen-specific IgE may thus contribute to CIA by promoting mast cell degranulation in the synovia of susceptible mice immunized with chick type II collagen; but, further work is required to establish such a role for IgE in CIA. However, genetic differences in disease susceptibility could not be accounted for by quantitative differences in collagen-specific IgE production. Further, comparable levels of IgE anticollagen antibodies were observed in animals with active CIA and after spontaneous remission, thereby confirming that the presence of such antibodies is insufficient for disease. Total IgE levels peaked just before spontaneous remission indicating active production of IL-4. IL-4 was administered to animals with CIA to determine if this lymphokine could be involved in the remission process. IL-4 facilitated remission of CIA. Enhanced total IgE production may thus be a marker for activation of Th2 cells that produce lymphokines such as IL-4 and IL-10, factors that may be involved in the spontaneous remission process.
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PMID:Collagen-induced arthritis in mice. Relationship of collagen-specific and total IgE synthesis to disease. 175 95

The functional role of mast cells in rheumatoid synovium was investigated by assessing the ability of mast cell tryptase to activate latent collagenase derived from rheumatoid synoviocytes. Tryptase, a mast cell neutral protease, was demonstrated in situ to reside in rheumatoid synovial mast cells, by an immunoperoxidase technique using a mouse mAb against tryptase, and in vitro to be released by dispersed synovial mast cells after both immunologic and nonimmunologic challenge. Each rheumatoid synovial mast cell contains an average of 6.2 pg of immunoreactive tryptase and the percent release values of this protease correlated with those of histamine (r = 0.58, p less than 0.01). The ability of purified tryptase to promote collagenolysis was demonstrated in a dose-dependent fashion using latent collagenase derived from rheumatoid synovium, synovial fluid, IL-1-stimulated cultured synoviocytes, and partially purified latent collagenase derived from conditioned media, with between 10 and 92% of the collagen substrate degraded. [3H] Collagen, treated with tryptase-activated latent collagenase, was subjected to electrophoresis on SDS polyacrylamide gels and autoradiography showed the collagen degradation pattern (A, B) characteristically produced by collagenase. Mast cell lysates also activated synovial latent collagenase yielding 24% digestion of collagen substrate. This activator in mast cell lysates could be inhibited by diisopropylflurophosphate or by immunoadsorption of tryptase. Thus, mast cells may activate metalloproteinases and play a role in the catabolism of collagen that occurs in rheumatoid synovium.
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PMID:Activation of latent rheumatoid synovial collagenase by human mast cell tryptase. 245 61

Collagen-like proteins, thought to be responsible for maintaining the structural integrity of the nematode cuticle, were isolated from adult Necator americanus and shown to be susceptible to digestion by purified mast cell proteases. Although these collagens would appear normally to be masked by superficially expressed (surface) antigens, it is suggested that a sufficiently avid and specific immune response could remove this potentially protective coat, rendering the structurally important underlying layers open to immune attack.
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PMID:The action of a mast cell protease on the cuticular collagens of Necator americanus. 267 69

An animal model of radiation-induced lung disease was established using male Wistar rats given sublethal bilateral thoracic irradiation (15 Gy). The rats were studied for up to 20 weeks and compared to sham-irradiated controls. Three distinct syndromes were identified. Two weeks after irradiation there was an increase in wet lung weight without an increase in dry lung weight. Interstitial edema was confirmed ultrastructurally, but aside from minor abnormalities of endothelial cells, both capillary and alveolar basement membranes were intact and there was no alveolar protein leak. At 4 weeks after irradiation, there was an abrupt increase in both wet and dry lung weights, as well as intra-alveolar macrophages, lymphocytes, polymorphs, and protein. These changes persisted for periods of up to 8 weeks. Electron microscopy at 4 weeks revealed prominent interstitial edema and severe endothelial cell damage. There was patchy thickening of the cytoplasm of type I cells as well as some cells which appeared to be transforming from type II to type I cells, suggesting previous epithelial denudation. Mast cell density increased in perivascular and peribronchial areas from 4 weeks, and this and parenchymal mast cell density peaked at 7 weeks. The total collagen content of the lungs (determined biochemically) rose by up to 50% above control values from 5 weeks after irradiation, the bulk of the increase having occurred by 12 weeks. Further increases up to 20 weeks were similar to that seen in growing control animals. Collagen deposition (as defined by electron microscopy and Picrosirius polarization) was prominent in peribronchial and perivascular areas in all animals, but in alveolar walls it was increased severalfold above controls by 20 weeks after irradiation. In summary, this model provides sequential changes of interstitial edema, alveolitis, and interstitial fibrosis which can be studied independently. The temporal relationship between the appearance of mast cells and increased collagen deposition supports the hypothesis that mast cells are intimately related to the development of fibrosis.
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PMID:The pulmonary response to sublethal thoracic irradiation in the rat. 821 Mar 33

Solar elastosis is a hallmark of photoaged human skin and a prominent feature in experimentally produced photoaging in murine skin. The products of mast cells have been implicated in the development of photoaged skin. We evaluated whether products from mast cells mediate chronic UVB-induced changes in murine skin by employing a strain of mast cell-deficient mice, WWv. The responses in these mice were compared to those in BALB/c, another albino mouse strain. Mice were exposed three times per week to UVB radiation for 11 weeks; the total dose was 18.8 J/cm2. Irradiated WWv mice showed greater epidermal alterations than the irradiated BALB/c mice. In the dermis, a 3.6-fold increase in elastin content, as measured by desmosine, was produced in the UVB-treated BALB/c mice; in contrast, no difference was observed in elastin between UVB-treated and untreated WWv mice. Collagen content was not increased by UVB treatment in either strain, and the glycosaminoglycan content increased a similar amount in UVB-treated mice in both strains. The number of mast cells increased two-fold and the number of neutrophils increased six-fold in UVB-treated BALB/c mice compared to age-matched unirradiated controls. Neutrophils, as well as mast cells, were absent in untreated and UVB-treated WWv mouse skin. These results suggest that products of mast cells are important in the development of solar elastosis in murine skin either by directly inducing elastin production by fibroblasts or indirectly by mediating the presence of other cell types that produce products that increase fibroblast elastin production.
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PMID:Chronic photodamage in skin of mast cell-deficient mice. 1046 64

Mast cell hyperplasia is a characteristic feature of many inflammatory and fibrotic conditions, including intestinal radiation injury (radiation enteropathy). This study used mast cell-deficient rats to define the role of mast cells in the mechanisms underlying early radiation-induced mucosal injury and delayed intestinal wall fibrosis. Mast cell-deficient (Ws/Ws) mutant rats and mast cell-competent (+/+) littermates were used. A 4-cm loop of ileum was exposed to 21 Gy single-dose radiation. Irradiated and unirradiated intestine were examined at 2 or 26 weeks using quantitative histology and morphometry. Quantitative immunohistochemistry was used to assess transforming growth factor beta (Tgfb), myeloperoxidase, and epithelial and smooth muscle cell proliferation. Collagen content was measured colorimetrically, and steady-state Tgfb1 mRNA was determined with fluorogenic probe RT-PCR. Compared to +/+ rats, Ws/Ws animals exhibited strikingly exacerbated mucosal injury but minimal reactive intestinal wall fibrosis. Ws/Ws rats exhibited less radiation-induced intestinal smooth muscle cell proliferation and collagen accumulation than +/+ littermates. Tgfb expression increased to a similar extent in Ws/Ws and +/+ rats. Unirradiated intestine from Ws/Ws and +/+ rats did not differ significantly. Mast cells protected the intestinal mucosa during the early phase of radiation enteropathy and promoted intestinal fibrosis after the breakdown of the mucosal barrier. Mast cells may be required for Tgfb to exert its full fibrogenic effect in radiation enteropathy.
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PMID:Role of mast cells in early and delayed radiation injury in rat intestine. 1079 Feb 74

The potential differences in bone repair of calvaria defects treated with a collagen sponge (HELISTAT) or a collagen-hydroxyapatite composite (HEALOS) in young and aged rats were evaluated at 8 weeks after surgery. A histomorphometric analysis of new bone formation and an evaluation of angiogenesis, mast cell, and eosinophil local infiltration were performed. Evaluation showed that HELISTAT induced a similar amount of new bone in both young and aged rats. However this occurred to a lesser degree than in young rats treated with HEALOS. The largest number of blood vessels was present in the defects of aged rats treated with HEALOS, and the number of mast cells was highest in the defects treated with HELISTAT in both young and aged rats. Eosinophils were present to the greatest extent in defects treated with HEALOS in comparison to defects treated with HELISTAT in both young and aged rats. Collagen-hydroxyapatite composite (HEALOS) enhances calvarial bone repair more than collagen sponge alone (HELISTAT) in young rats but not in aged rats at 8 weeks after surgery. HEALOS appears to induce a more intense inflammatory response than HELISTAT especially in aged rats.
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PMID:Collagen-hydroxyapatite composite enhances regeneration of calvaria bone defects in young rats but postpones the regeneration of calvaria bone in aged rats. 1795 64

Mast cell-fibroblast interactions may contribute to fibrosis in asthma and other disease states. Fibroblast contraction is known to be stimulated by coculture with the human mast cell line, HMC-1, or by mast cell-derived agents. Matrix metalloproteinases (MMPs) can also mediate contraction, but the MMP-dependence of mast cell-induced fibroblast contractility is not established, and the consequences of mast cell activation within the coculture system have not been fully explored. We demonstrate that activation of primary human mast cells (pHMC) with IgE receptor cross-linking, or activation of HMC-1 with C5a, enhanced contractility of human lung fibroblasts in a three-dimensional collagen lattice system. This enhanced contractility was inhibited by the pan-MMP antagonist, batimastat, and was transferrable in the conditioned medium of activated mast cells. Exogenously added MMPs promoted gel contraction by mediating the proteolytic activation of latent transforming growth factor-beta (TGF-beta). Consistent with this, fibroblast contraction induced by mast cell activation was enhanced by addition of excess latent TGF-beta to the cultures. Batimastat inhibited this response, suggesting that MMPs capable of activating latent TGF-beta were released following mast cell activation in coculture with fibroblasts. Collagen production was also stimulated by activated mast cells in an MMP-dependent manner. MMP-2 and MMP-3 content of the gels increased in the presence of activated mast cells, and inhibition of these enzymes blocked the contractile response. These findings demonstrate the MMP dependence of mast cell-induced fibroblast contraction and collagen production.
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PMID:MMP dependence of fibroblast contraction and collagen production induced by human mast cell activation in a three-dimensional collagen lattice. 1906 Feb 29

Dexamethasone (Dex), for prevention of chronic lung disease in preterm infants, showed potential negative long-term effects. Studies regarding long-term cardiovascular effects are lacking. We investigated possible histopathological myocardial changes after neonatal Dex in the young and adult rat heart. Rats were treated with Dex on d 1, 2, and 3 (0.5, 0.3, and 0.1 mg/kg) of life. Control-pups received saline. At 4, 8, and 50 wk after birth rats were killed and anatomic data collected. Heart tissue was stained with hematoxylin and eosin, Cadherin-periodic acid schiff, and sirius red for cardiomyocyte morphometry and collagen determination. Presence of macrophages and mast cells was analyzed. Cardiomyocyte length of the Dex-treated rats was increased in all three age groups, whereas ventricular weight was reduced. Cardiomyocyte volumes were increased at 50 wk indicating cellular hypertrophy. Collagen content gradually increased with age and was 62% higher in Dex rats at 50 wk. Macrophage focus score and mast cell count were also higher. Neonatal Dex affects normal heart growth resulting in cellular hypertrophy and increased collagen deposition in the adult rat heart. Because previous studies in rats showed premature death, suggesting cardiac failure, cardiovascular follow-up of preterm infants treated with glucocorticoids should be considered.
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PMID:Histopathological changes of the heart after neonatal dexamethasone treatment: studies in 4-, 8-, and 50-week-old rats. 1928 45

Almost all biomaterial implants are surrounded by a fibrotic capsule, although the mechanism of biomaterial-mediated fibrotic reactions is mostly unclear. To search for the types of cells responsible for triggering the tissue responses, we used poly-L glycolic acid polymers capable of releasing various reagents. We first identified that CD45(+)/Collagen 1(+) fibrocytes are recruited and resided within the fibrotic capsule at the implant interface. Interestingly, we found that the recruitment of fibrocytes and the extent of fibrotic tissue formation (collagen type I production) were substantially enhanced and reduced by the localized release of compound 48/80 and cromolyn, respectively. Since it is well established that compound 48/80 and cromolyn alter mast cell reactions, we hypothesized that mast cells are responsible for triggering fibrocyte recruitment and subsequent fibrotic capsule formation surrounding biomaterial implants. To directly test this hypothesis, similar studies were carried out using mast cell deficient mice, WBB6F1/J-Kit(W)/Kit(W-v)/, and their congenic controls. Indeed, mast cell deficient mice prompted substantially less fibrocyte and myofibroblast responses in comparison to C57 wild type mice controls. Most interestingly, subcutaneous mast cell reconstitution of WBB6F1/J-Kit(W)/Kit(W-v)/J mice almost completely restored the fibrocyte response in comparison to the C57 wild type response. These results indicate that the initial biomaterial interaction resulting in the stimulation of mast cells and degranulation byproducts not only stimulates the inflammatory cascade but significantly alters the downstream fibrocyte response and degree of fibrosis.
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PMID:The pivotal role of fibrocytes and mast cells in mediating fibrotic reactions to biomaterials. 2186 99

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