| Popis: |
Alloimmunization against platelets remains a potentially serious adverse transfusion event. Alloantibodies produced by the recipient, mainly directed against human leukocyte antigen class I donor antigens, can compromise the therapeutic efficacy of subsequent transfusions, and may lead to refractoriness. Because the mechanism of anti-HLA alloantibody formation is poorly understood, this study aimed to identify the cells involved in the platelet immune response by focusing on the spleen, the main organ that orchestrates this alloimmune response. In the spleen, transfused allogeneic platelets are located in the marginal zone and interact with marginal zone B (MZB) cells, a specialized B-cell population implicated in the capture and follicular delivery of blood-borne antigens. To study the involvement of MZB cells in alloantibody production, we used a murine model reproducing major histocompatibility complex incompatibility between a donor (H2b) and recipient (H2d) that occurs during platelet transfusion. Following weekly H2b platelet transfusions, recipient H2d mice produced anti-H2b immunoglobulin G, which induced a refractory state upon subsequent transfusions. Specific immunodepletion of MZB cells or their displacement from the marginal zone to the B-cell follicles by treatment with an S1P1 antagonist before each transfusion prevented significant alloantibody formation. Under these conditions, transfused platelets were still circulating after 24 hours, whereas they were rapidly removed from circulation in alloimmunized mice. The identification of MZB cells as key players in the platelet alloimmune response opens up new perspectives for minimizing platelet alloimmunization and avoiding the associated refractory state in frequently transfused patients. |
