Differential regulation of mast cell degranulation versus cytokine secretion by the actin regulatory proteins Coronin1a and Coronin1b

Coronin1a inhibits mast cell degranulation through actin cytoskeletal dynamics while augmenting cytokine secretion, an effect exacerbated by additional loss of Coronin1b

Altered T-cell entry and egress in the absence of Coronin 1A attenuates murine acute graft versus host disease: Cellular immune response

Acute graft-versus-host disease (aGvHD) is a major limitation to the use of allogeneic stem cell transplantation for the treatment of patients with relapsed malignant disease. Previous work using animals lacking secondary lymphoid tissue (SLT) suggested that activation of donor T cells in SLT is critically important for the pathogenesis of aGvHD. However, these studies did not determine if impaired migration into, and more importantly, out of SLT, would ameliorate aGvHD. Here, we show that T cells from mice lacking Coronin 1A (Coro 1A−/−), an actin associated protein shown to be important for thymocyte egress, do not mediate acute GvHD. The attenuation of aGvHD was associated with decreased expression of the critical trafficking proteins CCR7 and sphingosine 1 phosphate (S1P) receptor on donor T cells. This was mediated in part by impaired activation of the canonical NF-κB pathway in the absence of Coro 1A. As a result of these alterations, donor T cells from Coro 1A−/− mice were not able to initially traffic to SLT or exit SLT after bone marrow transplantation. However, this alteration did not abrogate the GvL response. Our data suggest that blocking T-cell migration into and out of SLT is a valid approach to prevent aGvHD

Die kostimulatorische Funktion von CD44

T cell activation is supposed to require two signals via engagement of the TCR and a costimulatory molecule. However, the signaling cascade of costimulatory molecules has remained elusive. Here, I provide evidence that CD44 supports proliferation as well as apoptosis mainly, if not exclusively, by enhancing signal transduction via the TCR/CD3 complex. Blockade of CD44 interferes with mounting of an immune response. This has been demonstrated by the significantly decreased IL-2 production of a T helper line, when stimulated in the presence of a competing CD44 receptor globulin. To evaluate the underlying mechanism, CD44 was cross-linked by an immobilized antibody (IM7). Cross-linking of CD44 induces proliferation of peripheral T cells and apoptosis of thymocytes and a T helper line in the presence of subthreshold levels of anti-CD3. CD44-induced proliferation was accompanied by an upregulation of the activation markers CD25 and CD69 and an increased cytokine production. TCR-mediated apoptosis was accompanied by an upregulation of CD95 ligand and CD95 receptor, which could be greatly enhanced by costimulation via CD44. On the level of signal transduction, coligation of CD44 with CD3 resulted in a strong and sustained increase of early tyrosine phosphorylation events and upregulated downstream signal transduction pathways, such as the ras/ERK and the JNK signaling cascades. These pleiotropic effects of CD44 are due to its involvement in the most proximal events in TCR signaling, as demonstrated by a strong increase in the phosphorylation of the TCR z-chain and ZAP-70. Notably, cross-linking of CD44 was binding-site dependent and was only effective when supporting colocalization of the TCR/CD3 complex and CD44. Cross-linking of CD44 via immobilized IM7 also induced profound changes in cell morphology, characterized by strong adhesion, spreading and development of surface extensions, which were dependent on a functional tubulin and actin cytoskeleton. These cytoskeletal rearrangements were mediated by rac1, a small GTPase of the rho subfamily, and src-family kinases, two of which, fyn and lck, were found to be associated with CD44. By cross-linkage of CD44 these kinases were redistributed into so called lipid rafts. It is supposed that for T cell activation a relocation of the TCR/CD3 complex into the same membrane microdomains is required. The data are interpreted in the sense that the costimulatory function of CD44 relies on its cooperativity with the TCR. Most likely by recruitment of phosphokinases CD44 significantly lowers the threshold for the initiation of signaling via the TCR. The requirement for immobilized anti-CD44, the necessity for neighbouring anti-CD3 and the dependence on the binding site of CD44 strongly suggest that the costimulatory mechanism involves cytoskeletal rearrangements, which facilitate recruitment and redirection of src-family protein kinases in glycolipid enriched membrane microdomains.Es ist bekannt, dass die Aktivierung von T-Zellen zwei Signale erfordert, die Bindung des T-Zell-Rezeptors (TZR) an den Peptid-Haupthistokompatibilitätskomplex und die Bindung sogenannter kostimulatorischer Moleküle an ihren Liganden. Über diese Rezeptor-Liganden-Interaktionen wird eine Kettenreaktion von Signalen ausgelöst, die die Aktivierung einer ganzen Reihe von Genen bewirken. Die Signale die über die Liganden Bindung des TZR in Gang gesetzt werden, sind weitgehend bekannt. Hingegen ist unser Wissen über das Funktionsprinzip kostimulatorischer Moleküle äußerst lückenhaft. In der vorliegenden Arbeit wird aufgezeigt, dass und auf welche Weise CD44, eines dieser kostimulatorischen Moleküle, maßgeblich zur Verstärkung der über den TZR transduzierten Signale beiträgt. Ausgangspunkt der vorgelegten Studie war der Befund, dass eine Blockade von CD44, z.B. mittels eines kompetitiven löslichen CD44 Moleküls, die Antigen-induzierte Aktivierung einer T-Zelllinie blockieren kann. Zur Klärung des zugrunde liegenden Mechanismus wurde CD44 mittels immobilisierter Antikörper quervernetzt. Bei gleichzeitiger, suboptimaler Stimulation des T-Zell-Rezeptors induzierte die Quervernetzung von CD44 zum einen die Proliferation reifer T-Zellen, zum anderen den apoptotischen Zelltod von Thymozyten beziehungsweise einer T-Helferzelllinie. Erwartungsgemäß war die CD44-induzierte Proliferation mit der Expression sogenannter Aktivierungsmarker wie CD25 und CD69 und einer erhöhten Zytokinproduktion verbunden. Dementsprechend wurde bei CD44-induzierter Apoptose eine deutlich gesteigerte Expression des CD95 Moleküls und seines Liganden beobachtet. Die kostimulatorische Aktivität von CD44 war mit einer gesteigerten Tyrosinphosphorylierung und einer Hochregulation der ras/ERK und JNK Signalkaskaden verbunden. Da von allen beobachteten Veränderungen bekannt ist, dass sie auch über die Besetzung des TZR mit einem geeigneten Stimulus ausgelöst werden können, war es naheliegend anzunehmen, dass sich die kostimulatorische Funktion von CD44 auf eine Verstärkung der TZR-vermittelten Signale zurückführen läßt. Der Befund einer gesteigerten Phosphorylierung der TZR-z-Kette und der ZAP-70 Kinase, über die die Aktivierung von T-Zellen eingeleitet wird, unterstützt nachhaltig diese Hypothese. Hinzu kommen zwei weitere Befunde: 1. Die Quervernetzung von CD44 führt nur unter der Voraussetzung einer räumlichen Annäherung von CD44 und dem TZR zu einer Unterstützung der T-Zellaktivierung. Diese findet in sogenannten "Rafts" statt; 2. Die Quervernetzung von CD44 führt zu Adhäsion und Zellspreitzung, bedingt durch ein Rearrangement des Zytoskeletts an dem die GTPase rac1 und die src-Kinasen fyn und lck beteiligt sind. Diese beiden Kinasen sind konstitutiv mit CD44 assoziiert. Bei Quervernetzung des Moleküls und Reorganisation des Zytoskeletts wird eine deutliche Anreicherung von fyn und lck in den Rafts, also in direkter Nachbarschaft zum TZR, beobachtet. Diese Daten unterstützen nachhaltig meine Arbeitshypothese, dass sich die kostimulatorische Funktion von CD44 auf eine kooperative Aktivität mit dem TZR zurückführen läßt. Es ist wahrscheinlich, dass durch Rekrutierung der Kinasen lck und fyn der Schwellenwert für die Initiierung von Signalen über den TZR signifikant erniedrigt wird. Die Rekrutierung dieser Kinasen wird durch eine Reorganisation des Zytoskeletts, die mit der Einbringung dieser Kinasen in den Bereich der Rafts einhergeht, ermöglicht. Inwieweit die erhobenen Befunde zur kostimulatorischen Aktivität des Adhäsionsmoleküls CD44 im Sinne eines Verstärkungs-mechanismus eingeleitet durch räumliche Annäherung generelle Gültigkeit haben, kann noch nicht abschließend beantwortet werden. Die Mehrheit der in jüngster Zeit erhobenen Befunde zur Klärung des Funktionsprinzips kostimulatorischer Moleküle bestätigt jedoch das Prinzip nachbarschaftlicher Kooperation

I787 provides signals for c-Kit receptor internalization and functionality that control mast cell survival and development

Mast cell (MC) differentiation, survival, and activation are controlled by the membrane tyrosine kinase c-Kit upon interaction with stem cell factor (SCF). Here we describe a single point mutation induced by N-ethyl-N-nitrosurea (ENU) mutagenesis in C57BL/6J mice-an A to T transversion at position 2388 (exon 17) of the c-Kit gene, resulting in the isoleucine 787 substitution by phenylalanine (787F), and analyze the consequences of this mutation for ligand binding, signaling, and MC development. The Kit(787F/787F) mice carrying the single amino acid exchange of c-Kit lacks both mucosal and connective tissue-type MCs. In bone marrow-derived mast cells (BMMCs), the 787F mutation does not affect SCF binding and c-Kit receptor shedding, but strongly impairs SCF-induced cytokine production, degranulation enhancement, and apoptosis rescue. Interestingly, c-Kit downstream signaling in 787F BMMCs is normally initiated (Erk1/2 and p38 activation as well as c-Kit autophosphorylation) but fails to be sustained thereafter. In addition, 787F c-Kit does not efficiently mediate Cbl activation, leading to the absence of subsequent receptor ubiquitination and impaired c-Kit internalization. Thus, I787 provides nonredundant signals for c-Kit internalization and functionality

The actin regulator coronin 1A is mutant in a thymic egress-deficient mouse strain and in a patient with severe combined immunodeficiency.

Mice carrying the recessive locus for peripheral T cell deficiency (Ptcd) have a block in thymic egress, but the mechanism responsible is undefined. Here we found that Ptcd T cells had an intrinsic migration defect, impaired lymphoid tissue trafficking and irregularly shaped protrusions. Characterization of the Ptcd locus showed a point substitution of lysine for glutamic acid at position 26 in the actin regulator coronin 1A that enhanced its inhibition of the actin regulator Arp2/3 and resulted in its mislocalization from the leading edge of migrating T cells. The discovery of another coronin 1A mutant during an N-ethyl-N-nitrosourea-mutagenesis screen for T cell-lymphopenic mice prompted us to evaluate a T cell-deficient, B cell-sufficient and natural killer cell-sufficient patient with severe combined immunodeficiency, whom we found had mutations in both CORO1A alleles. Our findings establish a function for coronin 1A in T cell egress, identify a surface of coronin involved in Arp2/3 regulation and demonstrate that actin regulation is a biological process defective in human and mouse severe combined immunodeficiency

Recurrent Viral Infections Associated with a Homozygous Coro1A Mutation That Disrupts Oligomerization and Cytoskeletal Association

Background: Coronin-1A (CORO1A) is a regulator of actin dynamics important for T-cell homeostasis. CORO1A deficiency causes T-B+ natural killer-positive severe combined immunodeficiency or T-cell lymphopenia with severe viral infections. However, because all known human mutations in CORO1A abrogate protein expression, the role of the protein's functional domains in host immunity is unknown. Objective: We sought to identify the cause of the primary immunodeficiency in 2 young adult siblings with a history of disseminated varicella, cutaneous warts, and CD4(+) T-cell lymphopenia. Methods: We performed immunologic, genetic, and biochemical studies in the patients, family members, and healthy control subjects. Results: Both patients had CD4(+) T-cell lymphopenia and decreased lymphocyte proliferation to mitogens. IgG, IgM, IgA, and specific antibody responses were normal. Whole-genome sequencing identified a homozygous frameshift mutation in CORO1A disrupting the last 2 C-terminal domains by replacing 61 amino acids with a novel 91-amino-acid sequence. The CORO1A(S401fs) mutant was expressed in the patients' lymphocytes at a level comparable with that of wild-type CORO1A in normal lymphocytes but did not oligomerize and had impaired cytoskeletal association. CORO1A(S401fs) was associated with increased filamentous actin accumulation in T cells, severely defective thymic output, and impaired T-cell survival but normal calcium flux and cytotoxicity, demonstrating the importance of CORO1A oligomerization and subcellular localization in T-cell homeostasis. Conclusions: We describe a truncating mutation in CORO1A that permits protein expression and survival into young adulthood. Our studies demonstrate the importance of intact CORO1A C-terminal domains in thymic egress and T-cell survival, as well as in defense against viral pathogens.Wo