Program: Oral and Poster Abstracts
Type: Oral
Session: 301. Platelet Activation and Biochemistry: Platelet Production and Function
Herein, we generated St3gal1loxP/PF4+ mice specifically lacking ST3Gal1 in the megakaryocyte (MK) lineage to investigate the detailed mechanisms of macrothrombocytopenia associated with St3gal1 deficiency. Both St3gal1loxP/PF4+ circulating platelets and bone marrow (BM) MKs had increased T-antigen expression, compared to control, as evidenced by peanut agglutinin (PNA) binding. As expected, other blood cell lineages had no increase in T-antigen expression. Blood platelet counts were reduced by ~50% and platelets were enlarged in St3gal1loxP/PF4+ mice, compared to control, despite a virtually indistinguishable platelet clearance. BM MK numbers were normal despite the observed thrombocytopenia, BM MK colony forming units (CFUs) were reduced and in vitro proplatelet production was normal in St3gal1loxP/PF4+ mice, suggesting that extrinsic factors in the St3gal1loxP/PF4+ BM environment affected platelet production. We hypothesize that recognition of the T-antigen epitope on MKs mediate phagocytosis by macrophages. Macrophages in St3gal1loxP/PF4+ mice had increased expression of CD68 (macrosialin), indicative of an activated macrophage state. Flow cytometric analysis of BM derived macrophages of St3gal1loxP/PF4+ mice showed an increased population of resolving M2-type macrophages, which are normally involved in apoptotic cell clearance. Additionally, St3gal1loxP/PF4+ BM smears revealed increased hemophagocytosis, as evidenced by May-Grunwald/Giemsa, indicative of an unspecific increase in phagocytic macrophages. Macrophage ablation by in vivo injection of clodronate-encapsulated liposomes significantly reduced the numbers of activated macrophages in St3gal1loxP/PF4+ mice, thereby normalizing blood platelet counts and size.
Taken together data show the contrasting effects of different SA loss on platelet homeostasis: Platelets lacking α2,3-linked SA on N-glycans have increased platelet clearance, whereas a lack of α2,3-linked on O-glycans do not affect platelet half-life, but cause defective thrombopoiesis in MKs.
Disclosures: No relevant conflicts of interest to declare.
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