PDGFRA-associated chronic eosinophilic leukemia is a form of blood cell cancer characterized by an elevated number of cells called eosinophils in the blood. These cells help fight infections by certain parasites and are involved in the inflammation associated with allergic reactions. However, these circumstances do not account for the increased number of eosinophils in PDGFRA-associated chronic eosinophilic leukemia.\n\nAnother characteristic feature of PDGFRA-associated chronic eosinophilic leukemia is organ damage caused by the excess eosinophils. Eosinophils release substances to aid in the immune response, but the release of excessive amounts of these substances causes damage to one or more organs, most commonly the heart, skin, lungs, or nervous system. Eosinophil-associated organ damage can lead to a heart condition known as eosinophilic endomyocardial disease, skin rashes, coughing, difficulty breathing, swelling (edema) in the lower limbs, confusion, changes in behavior, or impaired movement or sensations. People with PDGFRA-associated chronic eosinophilic leukemia can also have an enlarged spleen (splenomegaly) and elevated levels of certain chemicals called vitamin B12 and tryptase in the blood.\n\nSome people with PDGFRA-associated chronic eosinophilic leukemia have an increased number of other types of white blood cells, such as neutrophils or mast cells. Occasionally, people with PDGFRA-associated chronic eosinophilic leukemia develop other blood cell cancers, such as acute myeloid leukemia or B-cell or T-cell acute lymphoblastic leukemia or lymphoblastic lymphoma.\n\nPDGFRA-associated chronic eosinophilic leukemia is often grouped with a related condition called hypereosinophilic syndrome. These two conditions have very similar signs and symptoms; however, the cause of hypereosinophilic syndrome is unknown.

The designation 'antiphospholipid syndrome' was proposed for the association of arterial and venous thrombosis, recurrent fetal loss, and immune thrombocytopenia with a spectrum of autoantibodies directed against cellular phospholipid components. Anticardiolipin antibodies may react with cardiolipin and with other negatively charged phospholipids, including beta-2-glycoprotein I (B2GPI, APOH; 138700). The term 'lupus anticoagulant' refers to a heterogeneous group of antibodies, most commonly of the IgG type, that are detected by their inhibitory effect on coagulant-active phospholipid components of in vitro coagulation tests (summary by Matthey et al., 1989). Shoenfeld et al. (2008) noted that antiphospholipid syndrome is characterized by up to 30 different autoantibodies, including those against platelets, glycoproteins, coagulation factors, lamins, mitochondrial antigens, and cell surface markers. Some of these may have an additive effect on the prothrombotic tendency of the syndrome. Ruiz-Irastorza et al. (2010) reviewed pathophysiologic, clinical, diagnostic, and therapeutic advances related to the antiphospholipid syndrome. Various autoimmune disorders that cluster in families, including autoimmune thrombocytopenia (188030), are discussed elsewhere (e.g., 109100, 269200).

Glycosylphosphatidylinositol is a glycolipid that anchors more than 150 proteins to the cell surface, and these proteins, termed GPI-anchored proteins (GPI-APs), perform a variety of functions as enzymes, adhesion molecules, complement regulators, and coreceptors in signal transduction pathways. Reduced surface levels of GPI-APs or abnormal GPI-AP structure can therefore result in variable manifestations. Glycosylphosphatidylinositol biosynthesis defect-1 (GPIBD1) is characterized predominantly by portal hypertension due to portal vein thrombosis. Most patients have absence seizures, cerebral thrombosis, and macrocephaly. Some patients have mildly to moderately impaired intellectual development (summary by Makrythanasis et al., 2016; Pode-Shakked et al., 2019). Genetic Heterogeneity of Glycosylphosphatidylinositol Biosynthesis Defects Also see GPIBD2 (239300), caused by mutation in the PIGV gene (610274); GPIBD3 (614080), caused by mutation in the PIGN gene (606097); GPIBD4 (300868), caused by mutation in the PIGA gene (311770); GPIBD5 (280000), caused by mutation in the PIGL gene (605947); GPIBD6 (614749), caused by mutation in the PIGO gene (614730); GPIBD7 (615398), caused by mutation in the PIGT gene (610272); GPIBD8 (614207), caused by mutation in the PGAP2 gene (615187); GPIBD9 (615802), caused by mutation in the PGAP1 gene (611655); GPIBD10 (615716), caused by mutation in the PGAP3 gene (611801); GPIBD11 (616025), caused by mutation in the PIGW gene (610275); GPIBD12 (616809), caused by mutation in the PIGY gene (610662); GPIBD13 (616917), caused by mutation in the PIGG gene (616918); GPIBD14 (617599), caused by mutation in the PIGP gene (605938); GPIBD15 (617810), caused by mutation in the GPAA1 gene (603048); GPIBD16 (617816), caused by mutation in the PIGC gene (601730); GPIBD17 (618010), caused by mutation in the PIGH gene (600154); GPIBD18 (618143), caused by mutation in the PIGS gene (610271); GPIBD19 (618548), caused by mutation in the PIGQ gene (605754); GPIBD20 (618580), caused by mutation in the PIGB gene (604122); GPIBD21 (618590), caused by mutation in the PIGU gene (608528); GPIBD22 (618879), caused by mutation in the PIGK gene (605087); GPIBD23 (617020), caused by mutation in the ARV1 gene (611647); GPIBD24 (619356), caused by mutation in the PIGF gene (600153); and GPIBD25 (619985), caused by mutation in the C18ORF32 gene (619979).