Sara E. Enright

Bio: Sara E. Enright is an academic researcher. The author has contributed to research in topics: Paroxysmal nocturnal hemoglobinuria & Population. The author has an hindex of 1, co-authored 1 publications receiving 198 citations.

A platelet and granulocyte membrane defect in paroxysmal nocturnal hemoglobinuria: usefulness for the detection of platelet antibodies

Abstract: The tendency of platelets and leukocytes to lyse after their interaction with antibody and complement was studied by measuring the release of 51Cr from cells labeled with this isotope. Platelets from six patients with paroxysmal nocturnal hemoglobinuria (PNH) were 15-230 times more sensitive to antibodies and 10-32 times more sensitive to complement than normal platelets or platelets from patients with other types of thrombocytopenic or hemolytic disorders. Mixed white blood cell (WBC) preparations from patients with PNH were 3-20 times more sensitive to anti-WBC antibodies and 5-10 times more sensitive to C′ than were WBC preparations from normal subjects, but PNH lymphocytes showed normal immunologic reactivity. PNH platelets, like PNH erythrocytes, lysed more readily than normal platelets in acidified serum and in media of reduced ionic strength, but these characteristics were not demonstrable with PNH WBC's under the conditions of study. In PNH, platelets appear to comprise a single population with respect to their sensitivity to immune lysis, yet their survival time as measured with 51Cr falls within normal limits. PNH granulocytes likewise appear to consist of a single, uniformly sensitive population. It is concluded that, in PNH, platelets and granulocytes share the membrane defect characteristic of erythrocytes in this disorder. These observations support the concept that PNH arises as the result of a somatic mutation in a primitive cell capable of differentiating into erythroblast, myeloblast, and megakaryoblast lines. PNH platelets or enzymatically treated normal platelets permit the detection of some types of platelet antibodies in dilutions up to 2000-fold greater than is possible with currently available methods, a finding suggesting that the immune lysis technique will prove useful for the study of platelet immunology.

Quantitative determination of antibody in idiopathic thrombocytopenic purpura. Correlation of serum and platelet-bound antibody with clinical response.

Abstract: We studied the clinical applicability of a recently developed technic that determines antiplatelet antibody directly on the platelet surface or in serum. The technic is a quantitative complement lysis-inhibition assay. Normal platelets have less than 0.4 pg of surface IgG. All patients with idiopathic thrombocytopenic purpura who were studied had greater than that value. Surface IgG was increased in inverse proportion to the platelet count. Surface levels of greater than 1.1 pg correlated with failure to respond to prednisone therapy. Incubation of normal serums with normal platelets did not increase surface IgG of such platelets, but the incubation with thrombocytopenic serums increased their surface IgG 0.5 to 100 times. The degree of increase did not predict response to treatment. However, quantitation of surface IgG of thrombocytopenic platelets was useful in predicting response to treatment.

Distribution of decay-accelerating factor in the peripheral blood of normal individuals and patients with paroxysmal nocturnal hemoglobinuria.

Abstract: Decay-accelerating factor (DAF) is a 70,000 Mr protein that has been isolated from the membrane of red cells. The function of DAF is to inhibit the assembly of amplifying enzymes of the complement cascade on the cell surface, thereby protecting them from damage by autologous complement. We raised monoclonal antibodies to DAF and used them to study its distribution in cells from the peripheral blood of normal individuals and of patients with paroxysmal nocturnal hemoglobinuria (PNH), a disease characterized by the unusual susceptibility of red cells to the hemolytic activity of complement. The results of immunoradiometric assays and of fluorescence-activated cell sorter analysis showed that DAF was present not only on red cells but was widely distributed on the surface membrane of platelets, neutrophils, monocytes, and B and T lymphocytes. By Western blotting, we observed small but consistent differences in the Mr of DAF from the membranes of various cell types. Quantitative studies showed that phagocytes and B lymphocytes, which presumably enter more frequently in contact with immune complexes and other potential activators of complement, had the highest DAF levels. As previously reported by others, the red cells from PNH patients were DAF deficient. When the patients' red cells were incubated in acidified serum (Ham test), only the DAF-deficient cells were lysed. In addition, we detected defects in DAF expression on platelets and all types of leukocytes. The observed patterns of DAF deficiency in these patients were consistent with the concept that the PNH cells were of monoclonal origin. In one patient, abnormal and normal cells were found only in the erythroid, myeloid, and megakaryocytic lineages. In two other patients, the lymphocytes were also DAF deficient, suggesting that a mutation occurred in a totipotent stem cell. It appears, therefore, that the lesion leading to PNH can occur at various stages in the differentiation of hematopoietic cells.

Hematopoietic Stem Cells

Abstract: (First of Three Parts) IN man, most tissues consist primarily of differentiated cells that normally show little evidence of proliferation and self-renewal. However, the gastrointestinal mucosal cel...