Figure 1.
Figure 1. The spleen in the pathogenesis of ITP. (A) Autoantibodies bind to antigens on platelets, primarily gpIIb/IIIa, and gpIb/IX. (B) Splenic macrophages expressing FcγR internalize antibody-coated platelets, degrade them, and present platelet glycoprotein-derived peptides to autoreactive CD4+ T cells, which on activation interact with B cells through the CD40/CD40L interaction leading to somatic hypermutation and class switching. Autoreactive B cells differentiate into anti-platelet antibody-producing plasma cells that either stay in the spleen or migrate to the blood and bone marrow. (C) Megakaryocytes in the bone marrow express platelet glycoproteins such as gpIIb/IIIa and gpIb/IX, and autoantibodies against these antigens impair platelet production and contribute to megakaryocyte apoptosis. Circulating CD8 positive can also cause thrombocytopenia by direct cytotoxicity (not shown).

The spleen in the pathogenesis of ITP. (A) Autoantibodies bind to antigens on platelets, primarily gpIIb/IIIa, and gpIb/IX. (B) Splenic macrophages expressing FcγR internalize antibody-coated platelets, degrade them, and present platelet glycoprotein-derived peptides to autoreactive CD4+ T cells, which on activation interact with B cells through the CD40/CD40L interaction leading to somatic hypermutation and class switching. Autoreactive B cells differentiate into anti-platelet antibody-producing plasma cells that either stay in the spleen or migrate to the blood and bone marrow. (C) Megakaryocytes in the bone marrow express platelet glycoproteins such as gpIIb/IIIa and gpIb/IX, and autoantibodies against these antigens impair platelet production and contribute to megakaryocyte apoptosis. Circulating CD8 positive can also cause thrombocytopenia by direct cytotoxicity (not shown).

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