Role of Fyn and Lyn in IgG-mediate immune responses

Falanga, Yves

23 July 2012

Anaphylaxis is a rapid, life-threatening hypersensitivity reaction. Until recently, it was mainly attributed to histamine released by mast cells activated by allergen crosslinking (XL) of FcεRI-bound allergen-specific IgE. However, recent reports established that anaphylaxis could also be triggered by basophil, macrophage and neutrophil secretion of platelet activating factor subsequent to FcγR stimulation by IgG/Ag complexes. I have investigated the contribution of Fyn and Lyn tyrosine kinases to FcγRIIb and FcγRIII signaling in the context of IgG-mediated passive systemic anaphylaxis (PSA). I found that mast cell IgG XL induced Fyn, Lyn, Akt, Erk, p38 and JNK phosphorylation. Additionally, IgG XL of mast cells, basophils and macrophages resulted in Fyn- and Lyn-regulated mediator release in vitro. FcγR–mediated activation was enhanced in Lyn-deficient (KO) cells, but decreased in Fyn KO cells, compared to wild type cells. More importantly, Lyn KO mice displayed significantly exacerbated PSA features while no change was observed for Fyn KO mice, compared to wild type littermates. Intriguingly, this work establishes that mast cells account for the majority of serum histamine in IgG-induced PSA. Taken together, these findings establish pivotal roles for Fyn and Lyn in the regulation of PSA and highlight their unsuspected functions in IgG-mediated pathologies.

Lyn

Fyn

Anaphylaxis

IgG

mast cell

basophil

macrophage

antibodies

Life Sciences

The effect of fluvastatin on mast cell function: genotype dependence

Kolawole, Elizabeth M

01 January 2014

Fluvastatin, the HMG-CoA reductase inhibitor known for its role in the treatment of hypercholesterolemia and cardiovascular disease, has more recently been shown to play a role in the immune response. Given the critical role that mast cells play in allergy and inflammatory diseases such as asthma, which effects one third of America’s population, we assessed the effect of fluvastatin on mast cell and basophils function. We demonstrate that fluvastatin downregulated IgE-mediated cytokine production. Additionally, in vivo studies showed that fluvastatin suppressed IgE-mediated anaphylaxis. Interestingly, the effects of fluvastatin showed dependence on genetic background, as C57BL/6 mast cells were sensitive, while 129/Sv mast cells were resistant to fluvastatin. Characterizing the role of fluvastatin on mast cells may prove to be therapeutically important.

Mast cells

Statins

Allergy

Inflammation

IgE

Basophils

Immunity

Immunoprophylaxis and Therapy

Integrative Biology

The Effect of Lactic Acid on Mast Cell Function

Spence, Andrew J

01 January 2014

This study shows for the first time the effect that L-(+)-lactic acid has on mast cell activation. Lactic acid is a byproduct of anaerobic glycolysis and is associated with inflammatory environments such as wounds, tumors and, asthma. In this study, pre-treatment with lactic acid altered cytokine production by bone marrow-derived mast cells (BMMC). Specifically, lactic acid enhanced cytokine secretion following IgE cross-linking, but decreased IL-33 mediated cytokine production. These effects were altered by genetic background, since C57BL/6 mast cells demonstrated the aforementioned result, but lactic acid had no effect on IgE-mediated cytokine production in 129/SvJ mast cells. The affected cytokines included IL-6, TNF, MCP-1, MIP-1α, IL-13, and VEGF. Lactic acid pretreatment promoted a G0/G1 cell cycle arrest. Investigation into the IL-33 signaling pathway showed lactic acid decreased TAK1 and JNK phosphorylation, while increasing phosphorylated AKT levels. Blocking JNK and TAK1 with a small molecule inhibitor mimicked the effects of lactic acid. Interestingly, lactic acid significantly increased IL-33 mediated VEGF. An in vitro angiogenesis assay confirmed that mast cells were pro-angiogenic in a lactic acid-rich environment. Taken together, these data show that lactic acid impacts mast cell function, possibly promoting a pro-angiogenic, anti-inflammatory phenotype.

Mast Cell

Lactic Acid

Inflammation

Allergy

Cancer

Cancer Biology

Cell Biology

Immunity

The Effect of Statins on IL-33 Mediated Mast Cell Function

Taruselli, Marcela

01 January 2015

This study demonstrates original findings of statin effects on IL-33 stimulated mast cells. Statins are a class of drugs used to lower cholesterol production by targeting HMG CoA reductase. These commonly prescribed drugs have been shown to be immunomodulatory. In this study, we have found that pretreatment with statins has a variety of effects on IL-33 stimulated mast cells. Atorvastatin suppresses TNF and IL-6 production, while fluvastatin significantly enhances release of these proinflammatory cytokines in BMMCs. Although they have differing effects on cytokine production, both statins lowered ST2 expression on the cell surface, decreased cell viability, and enhanced expression of the transcription factor KLF2, a negative regulator of NFκB. Blocking isoprenylation by using geranylgeranyl transferase inhibitor, but not farnesyl transferase, mimicked the effects of atorvastatin, while neither mirrored the effect of fluvastatin. Furthermore, fluvastatin effects were not reversed by mevalonic acid, the product of HMG-CoA reductase. These data indicate that fluvastatin effects are distinct from its activities as an HMG CoA reductase inhibitor. Fluvastatin effects required the presence of stem cell factor (SCF), and were enhanced by increasing SCF concentrations. Finally, fluvastatin enhanced IL-33-induced cytokine production and neutrophil recruitment in vivo. Collectively, these data suggest that statins can alter the mast cell response, and that drug choice can have divergent effects on outcome.

Immunology

Mast cells

Fluvastatin

Atorvastatin

Interleukin 33

Immunity

Immunology and Infectious Disease

Medical Immunology

EFFECTS OF TGF-β1 AND IL-33 ON MAST CELL FUNCTION

Ndaw, Victor S

01 January 2015

TGFβ is involved in many pathological conditions, including autoimmune disorders, cancer, and cardiovascular and allergic diseases. We have previously found that TGFβ can suppress IgE-mediated mast cell activation in human and mouse mast cells in vitro. IL-33 is a recently discovered member of the IL-1 family capable of inducing mast cell responses and enhancing IgE-mediated activation. In this study, we investigated the effects of TGFβ on IL-33-mediated mast cell activation. Bone marrow-derived mast cells cultured in TGFβ -1, -2, or -3 showed reduced IL-33-mediated production of TNF, IL-6, IL-13 and MCP-1, in a concentration-dependent manner. Furthermore, TGFβ also reduced expression of the T1/ST2 receptor as well as IL-33-mediated TAK1 and ERK phosphorylation. TGF-ß1 injection suppressed IL-33-mediated production of systemic inflammatory cytokines in vivo. The role of IL-33 in the pathogenesis of allergic diseases is incompletely understood. These findings, consistent with our previously reported effects of TGFβ on IgE-mediated activation, demonstrate that TGFβ can provide broad and substantial inhibitory signals to activated mast cells.

asthma

allergy

TGF-β1

IL-33

inflammation

mast cell

Biology

Life Sciences

Medicine and Health Sciences

Transforming Growth Factor-β1 (TGF-β1) Induces Mast Cell Apoptosis

Norozian, Farnaz

01 January 2006

Mast cells are potent effectors of the inflammatory response, playing an important role in atopy, bacterial immunity, and animal models of arthritis, multiple sclerosis, and heart disease. Hence controlling mast cell numbers and responsiveness is essential for preventing inflammatory disease. This work demonstrated that the cytokine TGF-β1 is a potent inducer of mast cell apoptosis, a finding that was consistent for cultured mouse bone marrow-derived mast cells, peritoneal mast cells, and human mast cells. Cell death appeared to be the result of TGF-mediated repression of IL-3 receptor expression and function, leading to mitochondria1 damage and activation of an apoptotic cascade acting via p53 and caspases. While IL-3 receptor expression was reduced within one day of TGF-βl stimulation, apoptosis required at least 3 days to occur. This delay in onset is postulated to allow for protective mast cell effector functions, protecting the host from infection while preventing the establishment of chronic inflammation. These studies support the theory that TGF- β1 is an inhibitor of mast cell survival. Because of the widespread expression of TGF-β1, this cytokine may be an ideal candidate for control of mast cell homeostasis.

atopy

bacterial immunity

TGF-mediated repression

homeostasis

mast cells

inflammatory response

Biology

Life Sciences

The Role of ADAM10 in the Immune System: Maintenance of Lymphoid Architecture, MDSC Development and Function, B cell Derived Exosomal Antigen Presentation, and B1 cell IgE Production.

Martin, Rebecca

25 April 2014

ADAM10 is a zinc-dependent metalloprotease. ADAM10 has emerged as a key regulator of cellular processes by cleaving and shedding extracellular domains of multiple transmembrane receptors and ligands. In this study, we examined the role of ADAM10 in the immune system. Here, we show that knocking out ADAM10 on the mature B2 cell causes a defect in the development of secondary lymphoid architecture that becomes more severe post-immunization. We also show that overexpression of ADAM10 leads to a defect in hematopoiesis, which eliminates B2 lymphocyte development. This defect additionally induces accumulation of myeloid derived suppressor cells, MDSCs. ADAM10Tg MDSCs function synonymous to tumor MDSCs. Of the two subpopulations of MDSCs, granulocytic MDSCs increase parasitic clearance in a model of N. brasiliensis. Monocytic MDSCs are more immunosuppressive in regards to tumor. Both subpopulations are dependent on the presence of mast cells for activity. It is thought that this relationship is mediated through histamine and IL-13. During N. brasiliensis infection, ADAM10Tg mice, lacking B2 B cells but having intact B1 B cells, makes increased IgE over WT mice. This production of IgE is thought to be produced by the B1 cells. Of the two types of B1 cells, B1a cells make the majority of the IgE. This IgE production is enhanced by MDSC accumulation and can be induced by MDSC adoptive transfer in a parasite-free mouse. Lastly, ADAM10 is the key sheddase for CD23 on B2 cells. When IgE is bound to its antigen to form an immune complex, IC, it binds CD23 and is internalized. After CD23 bound to IgE ICs is internalized, it is sorted into bexosomes. These bexosomes are transferred to dendritic cells which are responsible for presenting to T cells and inducing an increased antigen-specific immune response. Overall, ADAM10 is important for many aspects of the immune response.

Lymphoid Architecture

B1 cells

Exosomes

IgE

MDSC

Mast Cell

Histamine

Nippostrongylus brasiliensis

Medicine and Health Sciences

Stains Induce Apoptosis and Autophagy in Primary and Transformed Mast Cells

Paez, Patrick A

01 January 2016

Statin drugs are widely employed in the clinic to reduce serum low density lipoproteins (LDLs) in patients with hypocholesteremia. In addition to their cholesterol-lowering effects through HMG CoA reductase antagonism, isoprenyl lipids necessary for membrane anchorage and signaling of small G-proteins are abrogated. We previously found that statins suppress mast cell activation in murine and human cells, suggesting these drugs might be useful in treating allergic disease. While mast cell function is critical to allergic inflammation, mast cell hyperplasia and survival also impact these diseases, and were not studied in our previous work. In this study, we describe Fluvastatin-mediated apoptosis in both primary and transformed mast cells. An IC50 was achieved between 1-5μM in both systems, and apoptosis was preceded by mitochondrial dysfunction and caspase release. In addition to apoptosis, our work also uncovered evidence of autophagy, which can serve as a compensatory mechanism during apoptosis. Interestingly, autophagy appeared to be cyto-protective in the primary cells yet cytotoxic in transformed mast cells. These findings offer insight into the mechanisms of mast cell survival and support the possible utility of statins in mast cell-associated allergic and neoplastic diseases.

Mast cells

Statins

Apoptosis

Autophagy

Biology

Immunology and Infectious Disease

Medicine and Health Sciences

Role of miR-155 and miR-146a in Mast Cell Function

Abdul Qayum, Amina

01 January 2017

Mast cells are resident immune cells abundantly found in the tissue at the host-environment interface, where they play a critical role in inflammatory allergic responses. Mast cell responses may be regulated by the cytokine milieu at the site of inflammation. Recent studies have revealed microRNAs to be important in altering cytokine signaling in immune cells. Here, we demonstrate for the first time that IL-10 and IL-33 induce miR-155 and miR-146a, respectively, to alter mast cell functions. We report that IL-10 enhanced IgE induced activation of mast cells. IL-10 effects are dependent on Stat3 activation, which elicits miR-155 expression, resulting in a loss of suppressor of cytokine signaling-1 (SOCS-1). The importance of miR-155 was demonstrated by the inability of IL-10 to enhance anaphylaxis in miR-155–deficient mice. Additionally, we show that IL-33 treatment greatly enhances miR-146a expression in mast cells and in mast cell derived exosomes. miR-146a induction is dependent on MyD88 and NFκB and seems to negatively regulate ST2 signaling, which is demonstrated by the hyperresponsiveness of miR-146a knockout BMMC in response to IL-33. Our preliminary data suggest that miR-146a serves as a feedback negative regulator of IL-33 signaling by targeting IRAK proteins. miR-155 and miR-146a are key microRNAs that regulate a range of immune functions. Taken together, our results reveal two novel microRNA pathways that regulate mast cell IgE and IL-33 induced responses.

mast cell

miR-155

miR-146a

IL-10

IL-33

Immunity

Rôle des mastocytes dans le développement de la rectite radique in vivo et la réponse endothéliale à l’irradiation in vitro / Role of mast cells in radiation proctitis development in vivo and endothelial response to radiation exposure in vitro.

Blirando, Karl

27 January 2011

La radiothérapie est utilisée seule ou en association avec la chimiothérapie dans le traitement de plus de 50% des cancers. En dépit des progrès techniques dans la balistique, l'irradiation des tissus sains entourant la tumeur et les effets secondaires qui lui sont associés sont une limite à la dose d'irradiation utilisée. Ces effets secondaires, lorsqu'ils concernent le tube digestif, ont un retentissement important sur la qualité de vie des patients et peuvent même engager leur pronostic vital. La compréhension des mécanismes impliqués dans le développement de ces lésions est donc un enjeu majeur dans l'identification de cibles thérapeutiques permettant leur prévention et leur traitement. Durant ma thèse nous avons étudié le rôle des mastocytes dans le développement de la rectite radique in vivo et dans la réponse endothéliale à l'irradiation in vitro. Nos résultats suggèrent un rôle délétère des mastocytes dans le développement de la rectite radique humaine et murine, notamment par l'influence de certains de leurs médiateurs tels que l'histamine et les protéases sur le phénotype des cellules musculaires lisses de la muscularis propria. Le ciblage de certains médiateurs mastocytaires pourrait représenter une nouvelle stratégie thérapeutique pour prévenir et/ou limiter les atteintes radiques digestives. D'autre part, nos travaux montrent que des médiateurs mastocytaires comme l'histamine peuvent exacerber la réponse inflammatoire de l'endothélium à l'irradiation par des mécanismes de signalisation impliquant l'activation de la voie p38 MAPKinase et du facteur de transcription NF-B. L'étude approfondie des voies de signalisation activées lors du développement des lésions radiques pourrait offrir de nouvelles possibilités thérapeutiques dans la gestion des dommages radiques aux tissus sains. / Radiation therapy is used alone or in combination with chemotherapy in more than 50% of cancer treatments. Despite recent advances in treatment delivery such as dose-sculpting techniques, irradiation of healthy tissues surrounding the tumor and the associated side effects limit the radiation amount used. Those side effects when concerning the gastrointestinal tract, have profound repercussions on patient's quality of life and may even engage their vital prognosis. The comprehension of the mechanisms implicated in the development of these lesions is thus a major stake in the identification of therapeutic targets allowing their prevention and treatment. During my PhD, we studied the role of mast cells in the development of radiation proctitis in vivo and in the endothelial response to irradiation in vitro. Our results suggest that mast cells have a deleterious role in the development of human and murine radiation proctitis, in particular by the influence of some of its mediators such as histamine and proteases on the phenotype of the smooth muscle cells of the muscularis propria. Targeting mast cells'mediators may represent new therapeutic tools to prevent and/or limit digestive radiation damage. Other shares our work shows that mast cells mediators such as histamine can exacerbate the endothelial inflammatory response to irradiation by mechanisms involving the activation of the p38MAPKinase pathway and the transcription factor NF-B. The study of intracellular signaling pathways activated during radiation damage development may offer new therapeutic possibilities in the management of healthy tissues radiation damage.

Radiation

Mastocytes

Rectite

Endothelium

Inflammation

Fibrose

Irradiation

Mast cells

Proctitis

Endothelium

Inflammation

Fibrosis