Dermal mast cells affect the development of sunlight-induced skin tumours

Ultraviolet (UV) radiation contained in sunlight is considered a major risk in the induction of skin cancer. While mast cells are best known for their role in allergic responses, they have also been shown to play a crucial role in suppressing the anti-tumour immune response following UV exposure. Evidence is now emerging that UV may also trigger mast cell release of cutaneous tissue remodelling and pro-angiogenic factors. In this review, we will focus on the cellular and molecular mechanisms by which UV recruits and then activates mast cells to initiate and promote skin cancer development.     

Effects of basophil-priming and stimulating cytokines on histamine release from isolated human skin mast cells

Cell priming and stimulation of different cytokines (which include chemokines and growth factors) are typical features of human basophils. Recently, it has been shown that the macrophage chemotactic protein-1 (MCP-1), RANTES and macrophage inflammatory protein-1α (MIP-1α) are potent direct secretagogues for human basophils and that interleukin-3 (IL-3), IL-5 and granulocyte/macrophage colony-stimulating factor (GM-CSF) are priming factors for subsequent potentiation of mediator release from basophils induced by different stimuli. This observation may be clinically important for the activation and recruitment of inflammatory cells in different immune responses of the skin (e.g. late-phase reactions). The aim of the present study was to investigate whether cytokines and chemokines are also capable of priming or stimulating isolated human skin mast cells (SMC). SMC were either stimulated directly with the cytokines alone or preincubated with these factors for 10 min before being activated with suboptimal concentrations of anti-IgE, A23187 or substance P. IL-3, IL-5, GM-CSF, platelet factor-4 (PF-4), IL-8, MCP-1 and MIP-1α (each at concentrations of 1 ng/ml to 1 μg/ml, log steps) did not significantly modulate histamine release from SMC induced by the three different secretagogues. RANTES exhibited a weak but significant potentiating effect on IgE-mediated activation. Stem cell factor (SCF) as a positive control was able to prime mast cell histamine release strongly. In addition, PF-4, MCP-1, RANTES and MIP-1α were incapable of inducing direct histamine release from SMC. In experiments with isolated human peripheral basophils, however, we observed potent Fc _ε RI-mediated priming effects evoked through IL-3, IL-5, and GM-CSF. We conclude that SMC derived from healthy donors are not targets of (immuno)modulatory factors that prime or stimulate basophils. Received: 21 June 1995     

Human skin mast cells rapidly release preformed and newly generated TNF-alpha and IL-8 following stimulation with anti-IgE and other secretagogues

Several groups have previously reported that rodent or human leukemic mast cells produce inflammatory cytokines such as TNF-alpha and IL-8 as well as the pro-allergic cytokines IL-4, IL-5 and IL-13. Comparatively little is known, however, regarding the ability of normal human skin mast cells to secrete these factors following either IgE-dependent or IgE-independent modes of activation. We therefore investigated whether normal human skin mast cells produce these cytokines following stimulation by a variety of secretagogues. Enriched isolated skin mast cells released both TNF-alpha and IL-8 following activation with either anti-IgE, SCF, substance P, compound 48/80 or A23187. This release was dose- and time-dependent, with maximal levels being reached within 4 h of stimulation involving, in part, the secretion of preformed stores of both cytokines. In accordance with this, using lysates of highly purified (>90%) skin mast cells, we could demonstrate that both TNF-alpha and IL-8 mRNA and protein were present in both unstimulated as well as stimulated mast cells. In stark contrast to these results, no significant levels of either IL-4, IL-5 or IL-13 were detected, regardless of the secretagogue used or the period of stimulation. These results show that human skin mast cells are capable of rapidly secreting pro-inflammatory cytokines like TNF-alpha and IL-8 following IgE-dependent activation and stimulation by the neuropeptide substance P, SCF and the basic polypeptide analogue compound 48/80. In contrast to other types of human mast cells however, human skin mast cells were incapable of secreting IL-4, IL-5 or IL-13 in these settings.     

The complex role of mast cells in fungal infections

In addition to their critical role in allergic disorders, mast cells (MCs) are well recognized for their protective effector functions during bacteria and parasite infections. This review describes recent advancements of our understanding of the complex role of MCs in fungal infections. Specifically, we outline key features of the contribution of MCs to infections with six fungal pathogens, namely Sporothrix, Paracoccidioides, Aspergillus, Malassezia, Candida and Dermatophytes. Evidence from studies of these pathogens suggests that MCs can function as positive regulators that detect and contain fungi at the site of infection. However, it appears that the inflammation induced by MCs following fungal infections may not always and only be beneficial to the host. MC responses during fungal infections may primarily benefit the pathogen by facilitating its spreading and contributing to a greater severity of fungal infections. This review also highlights key drivers of MCs activation and effector mechanisms that have been identified for the multidimensional function of MCs in fungal diseases and in allergic diseases combined with fungal infection.     

In vitro reactivity of mast cells in urticaria pigmentosa skin

The aim of our study was to evaluate the sensitivity of skin mast cells from urticaria pigmentosa (UP) patients to substance P (SP), tumor necrosis factor α (TNF-α) and anti-IgE, and to compare the sensitivity of these cells with that of skin mast cells from healthy human donors. Mast cells for in vitro functional studies were obtained using an enzymatic dispersion technique from skin biopsies (from 11 patients with UP and 11 healthy donors), and the reactivity of these cells was estimated on the basis of histamine release. Our observations indicated that UP skin mast cells and healthy skin mast cells had similar sensitivities to challenge with TNF-α at a concentration 10 ^–7 M (16.4% vs 15.2%) and with anti-IgE at a dilution 1:100 (41.0% vs 37.0%). However, UP mast cells showed considerably higher sensitivity to challenge with SP at a concentration 10 ^–4 M than healthy skin mast cells (20.0% vs 6.8%), and the difference was statistically significant ( P < 0.001). UP skin mast cells also demonstrated significantly higher spontaneous histamine release than healthy skin mast cells (32.1% vs 12.4%, P < 0.001). Our findings indicating UP skin mast cell sensitivity to SP might suggest that mechanisms involving neurogenic inflammation could contribute to the course of this disease. Received: 13 February 1997     

Ultraviolet radiation and skin mast cells: Effects,mechanisms and relevance for skin diseases

Mast cells (MCs) are well known as versatile effector cells in allergic reactions and several other immune responses. Skin MCs and cutaneous MC responses are subject to the effects of environmental factors including ultraviolet radiation (UVR). Numerous studies have assessed the effects of UVR on MCs, in vitro and in vivo. Interestingly, UVR seems to have variable effects on non‐activated and activated mast cells. In general, UV therapy is beneficial in the treatment of urticaria and mastocytosis, but the effects are variable depending on treatment regimen and type of UVR. Here, we review and summarise key reports from the older and current literature on the crosstalk of UVR and skin MCs. Specifically, we present the literature and discuss published reports on the effects of UVR on skin MCs in rodents and humans. In addition, we review the role of MCs in UVR‐driven skin diseases and the influence of UV light on MC‐mediated skin diseases. This summary of our current understanding of the interplay of skin MCs and UVR may help to improve the management of patients with urticaria and other MC disorders, to identify current gaps of knowledge, and to guide further research.     

Functional studies of skin mast cells in lichen planus

In order to identify possible functional differences between mast cells obtained from the skin of lichen planus (LP) patients and healthy donors, biopsies from lesional skin of 11 lichen planus patients and from normal skin of 7 healthy donors were sampled. Mast cells were obtained from the skin using an enzymatic dispersion technique. The cells were challenged in vitro with substance P (SP), tumor necrosis factor α (TNF-α) and anti-IgE. Their reactivity was estimated on the basis of histamine release. LP skin mast cells and healthy skin mast cells showed similar sensitivity to stimulation with TNF-α at a concentration of 10 ^–7 M (15.2% histamine release, as a proportion of total cellular content vs 15.9%) and to stimulation with anti-IgE at a dilution of 1:100) (38.8% vs 37.0%). Spontaneous histamine release was also very similar in both the populations of mast cells (10.2% vs 12.7%, respectively). However, LP skin mast cells showed significantly higher ( P < 0.01) sensitivity towards stimulation with SP at a concentration of 10 ^–4 M than healthy skin mast cells (15.9% histamine release vs 7.0%). This finding could suggest that neurogenic inflammatory mechanisms contribute to the pathogenesis of LP. Received: 3 July 1996     

Mast cells protect from skin tumor development and limit tumor growth during cutaneous de novo carcinogenesis in a Kit‐dependent mouse model

Epidermal tumors belong to the most frequent type of neoplasms, and tumor‐associated accumulation of mast cells (MCs) has first been observed more than a century ago. Therefore, MCs have been implicated in tumor development and growth; however, the results regarding the role of MC in cutaneous de novo carcinogenesis are still controversially discussed. Here, we subjected MC‐deficient Kit^W/Kit^W?v mice to chemical skin carcinogenesis. Tumors were induced using the carcinogen 7,12‐dimethylbenz[a]‐anthracene and subsequent treatment with the tumor promoter 12‐tetradecanoyl‐phorbol‐13‐acetat. The treatment resulted in pronounced inflammatory cell infiltrates that were diminished in MC‐deficient animals. Unexpectedly, tumor development and growth was significantly increased in MC‐deficient Kit^W/Kit^W?v mice. The repair of their MC deficiency by local adoptive transfer of MCs normalized tumor incidence and growth. The recruitment of skin‐infiltrating immune cells, particularly of F4/80+ monocytes, Gr‐1+ granulocytes, B220+ B cells and CD8+ T lymphocytes, to sites of tumor development was, in part, also controlled by MCs. Recent evidence indicated the importance of local antitumor tissue immunity which prevents tumor development. These findings suggest a critical role for MCs in mediating these host antitumor immune responses in the skin.     

Purification of mast cell proteases from murine skin

Different subpopulations of mast cells are characterized by their abundant contents of either tryptase or in addition chymase. These two neutral proteases are found in mast cells and may thus hold a key to the understanding of mast cell dependent reactions. Such studies are however hampered by the lack of readily available supplies of chymase. We have therefore studied the simultaneous purification of both proteases from hairless moro hr/hr mouse skin, using a sequence of salt extractions and chromatographic separations. After three steps of extraction, a 13-fold purification with an 82% yield was obtained for tryptase and a 15-fold purification with a 90% yield for chymase. Further one step purification on conventional sephadex, sephacryl and octyl sepharose columns was unsatisfactory because of further protein contamination of the fractions. Heparin affinity chromatography caused a high loss of tryptase and residual protein contamination. Gradient elution on a benzamidine sepharose 6B column resulted however in a single, low yield (17.9%) tryptase peak and a broader, high yield (>90%) chymase peak, and a 34% yield high purity fraction. The proteases thus purified exhibited their typical inhibitor profile. On Western blot analysis and on autoradiography in the presence of the serine protease inhibitor diisopropylfluorophosphate (DFP), only one 28 kD molecule with chymase activity was identified, whereas a broad 32-38 kD band of tryptase monomers was noted. Taken together, these data show that, after salt extraction and a single benzamidine affinity chromatography step, both mast cell chymase and tryptase can be separated and in case of chymase also highly purified, allowing thus for the study of biological activities of this molecule.     

Cytokine secretion by human mast cells

Abstract Mast cells have been traditionally viewed as effector cells of immediate-type hypersensitivity reactions. Besides this, mast cell activation and degranulation have been associated with various biologically and clinically important functions. Results of the past few years suggest that mast cells are involved in the development of late-phase reactions and influence other chronic inflammatory responses through the generation and secretion of various multipotcnlial cylokines.     

Ablation of human skin mast cells in situ by lysosomotropic agents

Mast cells are known to have a detrimental impact on numerous types of inflammatory skin diseases such as contact dermatitis, atopic eczema and cutaneous mastocytosis. Regimens that dampen skin mast cell‐mediated activities can thus offer an attractive therapeutic option under such circumstances. As mast cells are known to secrete a large array of potentially pathogenic compounds, both from preformed stores in secretory lysosomes (granules) and after de novo synthesis, mere inhibition of degranulation or interference with individual mast cell mediators may not be sufficient to provide an effective blockade of harmful mast cell activities. An alternative strategy may therefore be to locally reduce skin mast cell numbers. Here, we explored the possibility of using lysosomotropic agents for this purpose, appreciating the fact that mast cell granules contain bioactive compounds prone to trigger apoptosis if released into the cytosolic compartment. Based on this principle, we show that incubation of human skin punch biopsies with the lysosomotropic agents siramesine or Leu‐Leu methyl ester preferably ablated the mast cell population, without causing any gross adverse effects on the skin morphology. Subsequent analysis revealed that mast cells treated with lysosomotropic agents predominantly underwent apoptotic rather than necrotic cell death. In summary, this study raises the possibility of using lysosomotropic agents as a novel approach to targeting deleterious mast cell populations in cutaneous mastocytosis and other skin disorders negatively influenced by mast cells.     

Murine mast cells secrete a unique profile of cytokines and prostaglandins in response to distinct TLR2 ligands

Abstract:  Mast cells (MCs) are important effector cells in host defense against bacteria. In the course of a bacterial infection, MCs can be activated by various mechanisms, i.e. bacterial toxins, endogenously produced infection-associated peptides or via complement receptors, fimbrial adhesion molecules and toll-like receptors (TLRs). While some of these mechanisms are well established, the effects of TLR2 ligand-driven MC activation are far less understood. Here, we show that murine mature connective tissue-type MCs, but not immature bone marrow-derived cultured mast cells, express significant amounts of full length TLR2 on their surface. Activation by various TLR2 ligands only induces the selective release of cytokines in peritoneum-derived cultured mast cells (PCMCs) with preferential secretion of pro-inflammatory cytokines (IL-6 > IL-17 > IFN-γ TNF > IL-1 > GM-CSF) upon stimulation with lipoteichoic acid (LTA). This response is much lower in PCMCs stimulated with the TLR2/6 agonist macrophage-activating lipopeptide-2 (MALP-2), which most prominently triggers the release of the immunomodulatory cytokine IL-10. Furthermore, only LTA but not MALP-2 induces prostaglandin D2 secretion which is again restricted to the mature MC phenotype. These findings suggest that TLR2 ligand-mediated activation of mature MCs, i.e. tissue-residing cells, which most likely occurs during infection, can selectively raise a potent inflammatory or anti-inflammatory response, depending on TLRs which are engaged.     

Absence of MHC class II antigen on mast cells at sites of inflammation in human skin

Abstract Since the presence of major histocompatibility complex (MHC) antigens has recently been reported on murine and human mast cells under various conditions, we have investigated their expression on mast cells in different types of cutaneous inflammation. Cryostat sections from lesional biopsies of patients with psoriasis, atopic eczema, chronic urticaria, lichen planus, bullous pemphigoid and urticaria pigmentosa were immunohistochemically stained with monoclonal antibodies against MHC class I and class II antigens using a double staining APAAP/toluidine blue methodology. While strongly positive staining with the antibody directed against MHC class I antigens was found on nearly all mast cells in normal skin and in inflammatory dermatoses, reactivity for HLA-DR and HLA-DQ antigens on mast cells could not be detected, except for less than 2% of cells with doubtful staining. Human mast cells therefore probably play no significant rôle as antigen-presenting cells in the conditions studied.     

The role of lymphocytes, granulocytes, mast cells and their related cytokines in lesional skin of linear IgA bullous dermatosis

Linear IgA bullous dermatosis (LAD) is an acquired, heterogeneous, subepidermal blistering disease characterized by linear IgA deposits at the dermoepidermal basement membrane zone (BMZ), often with circulating IgA antibodies to the BMZ. The pathogenetic mechanism, possibly related to the immunophenotype of infiltrating cells, as well as the potential role of cytokines in determining bullous lesions, have not yet been elucidated. An immunohistochemical study was performed with a large panel of monoclonal antibodies [to CD3, CD4, CD8, CD25, CD1a, CD30, CD54, CD50, endothelial leucocyte adhesion molecule-1, vascular cell adhesion molecule-1, myeloperoxidase (MPO), eosinophil cationic protein EG1 and EG2, tryptase, HLA-DR, human interleukin (IL)-3, human IL-5, human IL-8, human IL-4, tumour necrosis factor (TNF)-alpha, interferon (IFN)-gamma and granulocyte/macrophage colony-stimulating factor] using the alkaline phosphatase-antialkaline phosphatase procedure on lesional and perilesional skin of nine patients (one male, eight female; age range 8 months-80 years) with clinical, histological and immunofluorescent proven LAD. The predominant infiltrating cells, distributed mostly inside and below the bullae, were neutrophils and eosinophils which showed intense activation (MPO +, EG1 +, EG2 +). The lymphocytic infiltrate, consisting principally of CD4 +, HLA-DR + and CD30 + T cells, had a predominantly perivascular distribution. Proinflammatory cytokines, such as TNF-alpha and IFN-gamma, showed a moderate focal expression on the dermal perivascular sites; IL-8 was found to have a particularly intense staining on all the epidermal cell layers and at perivascular and vascular sites. Other cytokines, such as IL-4 and IL-5, showed a prevalent intracytoplasmic staining on some cells of the dermal infiltrate (probably mastocytes and lymphocytes), and at the dermal-epidermal separation sites there was also an intense scattered distribution of IL-5. The specific tissue lesions of LAD may be the consequence of the IgA deposits at the BMZ and also of the release of these cytokines together with tissue damage enzymes derived from neutrophils or eosinophils.     

Mast cells are critical for the limitation of thrombin‐induced skin inflammation

Thrombin, a key player in coagulation, is widely held to induce and promote inflammation. As of now, the features, kinetics and control of thrombin's proinflammatory effects on the skin remain to be characterized in detail. We, therefore, injected thrombin into the ear skin of mice and observed strong, dose‐dependent and transient ear swelling responses as well as mast cell (MC) degranulation. Unexpectedly, thrombin induced even stronger, not reduced, ear swelling in MC‐deficient Kit^{W‐sh/W‐sh} mice. Prior local reconstitution of Kit^{W‐sh/W‐sh} mice with MCs inhibited this effect, indicating that MCs may contribute to the control of thrombin‐induced skin inflammation. In line with previous studies, we found that MCs express the thrombin receptors PAR1, PAR3 and PAR4, thrombin induces direct and dose‐dependent MC degranulation, and that degranulated MCs inactivate thrombin. Further findings suggested that MC‐mediated protection from thrombin‐induced inflammation is likely to rely on the effects of MC proteases. We show for the first time that MC‐deficient mice and MC protease 4‐deficient mice with normal numbers of MCs show markedly increased ear swelling in response to thrombin as compared to wild‐type mice. Taken together, these results suggest that thrombin‐induced skin inflammation is controlled, in part, by MC protease 4 released from activated MCs. For MC‐driven diseases such as chronic spontaneous urticaria, which has been linked to increased thrombin generation, this might mean that MCs may contribute to the resolution of skin inflammatory responses.     

Mast cells determine the magnitude of bacterial toxin-induced skin inflammation

Abstract:  Mast cells are known to be important effector cells in innate immune responses to bacterial infections. However, up to now, neither the mechanisms nor the relevance of mast cell degranulation in innate skin immune responses to bacteria have been adequately addressed. In this article, we show that the bacterial toxins streptolysin O (SLO) and α-toxin potently induce degranulation of mast cells in vitro and in vivo . Furthermore, intradermal injection of the toxins results in pronounced skin inflammation, which either resolves quickly within a few h (SLO-induced inflammation) or presents a chronic process with ongoing inflammation for weeks (α-toxin). Interestingly, mast cells mediated the inflammatory effects of SLO, but in contrast limited inflammatory skin responses to α-toxin. These findings further support the hypothesis that mast cells are critically involved in initiating and modulating optimal host responses to bacteria by either inflammatory or anti-inflammatory effects, depending on the course of the host reaction induced by the pathogen.     

Immature mast cells exhibit rolling and adhesion to endothelial cells and subsequent diapedesis triggered by E‐ and P‐selectin,VCAM‐1 and PECAM‐1

Please cite this paper as: Immature mast cells exhibit rolling and adhesion to endothelial cells and subsequent diapedesis triggered by E‐ and P‐selectin, VCAM‐1 and PECAM‐1. Experimental Dermatology 2010; 19: 424–434. Abstract: Mast cell numbers are markedly increased at sites of chronic inflammation. However, the underlying mechanisms of mast cell accumulation including mast cell progenitor trafficking remain to be identified in detail. Thus, the aim of this study was to identify the adhesion molecules involved in rolling, firm adhesion and transendothelial diapedesis of murine bone marrow‐derived cultured mast cells (BMCMC) as a model for immature mast cells. We could show that BMCMCs exhibit in vivo rolling on skin vessel walls and strong adhesion to skin endothelial cells (ECs) in vitro under static and flow conditions. Interestingly, interaction of BMCMC with the EC adhesion molecules E‐ and P‐selectin, vascular cell adhesion molecule‐1 (VCAM‐1) and platelet endothelial cell adhesion molecule‐1 (PECAM‐1) is required to mediate rolling and firm adhesion to ECs. The adhesion of BMCMCs to skin ECs is further enhanced by TNF, IL‐4, IL‐15 and vascular endothelial cell growth factor. Furthermore, BMCMCs exhibit directed and dose‐dependent transmigration across an endothelial barrier, mediated by a PECAM‐1‐dependent mechanism. Our results demonstrate that BMCMCs can undergo a tightly regulated extravasation cascade consisting of rolling on and adhesion to endothelium and followed by directed diapedesis and reveal selectins, VCAM‐1 and PECAM‐1 as required adhesion molecules. These processes may contribute to mast cell accumulation in chronic inflammatory skin diseases and reveal opportunities to modulate peripheral tissue numbers of mast cells.     

Association between melanoma and dermal mast cell prevalence in sun-unexposed skin

BACKGROUND: Both exposure to intermittent intense sunlight during childhood and ultraviolet (UV) radiation-induced immunomodulation have been directly associated with melanoma development. In mice, the prevalence of dermal mast cells determines susceptibility to UVB-induced systemic suppression of contact hypersensitivity responses and thus may affect immunological responses to melanoma antigens. OBJECTIVES: To determine the relevance of murine studies of dermal mast cell prevalence to human melanoma pathogenesis. METHODS: The prevalence of mast cells was examined in sun-unexposed buttock skin of 45 melanoma patients and 68 control volunteers who had no history of skin cancer development. Buttock skin was studied because mast cell prevalence is stable with ageing and the confounding effects of environmental UV exposure are minimized. RESULTS: Using tissue immunostaining, the buttock skin from melanoma patients had a significantly higher dermal mast cell prevalence (mean +/- SEM 38 +/- 2 mast cells mm(-2)) than controls (32 +/- 2 mast cells mm(-2)) (P = 0.02). Analysis by binary logistic regression showed that the association between mast cell prevalence and melanoma outcome was not significantly altered by skin phototype. CONCLUSIONS: The immunomodulatory effects of mast cell products in UV-irradiated skin may contribute significantly to the initiation and development of human cutaneous malignant melanoma.