Abstract
Necroptosis is a pro-inflammatory cell death program executed by the terminal effector, mixed lineage kinase domain-like (MLKL). Previous studies suggested a role for the necroptotic machinery in platelets, where loss of MLKL or its upstream regulator, RIPK3 kinase, impacted thrombosis and haemostasis. However, it remains unknown whether necroptosis operates within megakaryocytes, the progenitors of platelets, and whether necroptotic cell death might contribute to or diminish platelet production. Here, we demonstrate that megakaryocytes possess a functional necroptosis signalling cascade. Necroptosis activation leads to phosphorylation of MLKL, loss of viability and cell swelling. Analyses at steady state and post antibody-mediated thrombocytopenia revealed that platelet production was normal in the absence of MLKL, however, platelet activation and haemostasis were impaired with prolonged tail re-bleeding times. We conclude that MLKL plays a role in regulating platelet function and haemostasis and that necroptosis signalling in megakaryocytes is dispensable for platelet production.
Highlights
Blood platelets are produced from megakaryocytes, large polyploid cells residing in the bone marrow (BM), spleen[1], and lungs[2]
The majority of megakaryocytes reside in the liver at P1–P334 and we assessed the number of liver megakaryocytes in P2 MlklD139V/D139V, MlklWt/D139V and MlklWt/Wt control mice to investigate whether the thrombocytopenia could be due to reduced numbers of megakaryocytes
We first examined the expression of Receptor-interacting serine/threonine protein kinase 1 (RIPK1), RIPK3, mixed lineage kinase domainlike (MLKL), TNFR1 and TLR4 proteins in washed platelets and mature megakaryocytes purified from cultures of BM cells[25]
Summary
Blood platelets are produced from megakaryocytes, large polyploid cells residing in the bone marrow (BM), spleen[1], and lungs[2]. Megakaryocytes are thought to produce platelets via a cytoskeletal-driven process, in which cytoplasmic protrusions called proplatelets extend from the BM and into the blood stream[3,4]. This model for platelet synthesis was recently challenged, because megakaryocyte membrane budding, rather than proplatelet formation, was reported to supply the majority of the platelet biomass[5]. Platelets are small anucleate cells, classically known for their role in haemostasis and thrombosis, staying in circulation up to 10 days in humans and 5 days in mice[8]. Platelets harbour membrane receptors able to detect pathogen- and danger-associated molecular patterns (PAMPs and DAMPs), such as Toll-like receptors (TLRs)[11,12], rendering them as a functional immune cell
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