Abstract
Autosomal recessive mutations in genes required for cytotoxicity are causative of a life-threatening, early-onset hyperinflammatory syndrome termed familial hemophagocytic lymphohistiocytosis (FHL). Mutations in UNC13D cause FHL type 3. UNC13D encodes Munc13-4, a member of the Unc13 protein family which control SNARE complex formation and vesicle fusion. We have previously identified FHL3-associated mutations in the first intron of UNC13D which control transcription from an alternative transcriptional start site. Using isoform specific antibodies, we demonstrate that this alternative Munc13-4 isoform with a unique N-terminus is preferentially expressed in human lymphocytes and platelets, as compared to the conventional isoform that was mostly expressed in monocytes and neutrophils. The distinct N-terminal of the two isoforms did not impact on Munc13-4 localization or trafficking to the immunological synapse of cytotoxic T cells. Moreover, ectopic expression of both isoforms efficiently restored exocytosis by FHL3 patient-derived Munc13-4 deficient T cells. Thus, we demonstrate that the conventional and alternative Munc13-4 isoforms have different expression pattern in hematopoietic cell subsets, but display similar localization and contribution to T cell exocytosis. The use of an alternative transcriptional starting site (TSS) in lymphocytes and platelets could be selected for increasing the overall levels of Munc13-4 expression for efficient secretory granule release.
Highlights
Cytotoxic T lymphocytes and natural killer (NK) cells constitute the major lymphocyte subpopulations capable of rapid target cell killing
cap analysis of gene expression (CAGE) profiling revealed that the conventional (p7) and alternative (p8) UNC13D isoforms are the predominant transcripts in hematopoietic cells
UNC13D transcripts were not detected in dermal fibroblasts (Figure 1B), analyses of mouse Unc13d−/− fibroblasts have indicated a role for Munc13-4 in autophagy [23]
Summary
Cytotoxic T lymphocytes and natural killer (NK) cells constitute the major lymphocyte subpopulations capable of rapid target cell killing. They contain a specialized secretory lysosomal compartments, termed cytotoxic granules (CG) [1]. Granule contents, including proteins like perforin and granzymes, are released into the IS cleft by exocytosis, triggering target cell death [2]. Autosomal recessive mutations in genes required for CGdependent lymphocyte cytotoxicity have been associated with a life-threatening, early-onset, hyperinflammatory syndrome termed familial hemophagocytic lymphohistiocytosis (FHL) [3, 4]. Besides PRF1, encoding perforin and associated with FHL2, three genes encoding proteins involved in CG exocytosis have been associated with FHL. Functional analyses of cytotoxic lymphocytes from these patients have provided insights to different molecular steps of CG exocytosis
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