SI Rosenfeld scite author profile

SI Rosenfeld

5Publications

48Citation Statements Received

0Citation Statements Given

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178

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University of Rochester

Publications

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Linkage between the Gene (or Genes) Controlling Synthesis of the Fourth Component of Complement and the Major Histocompatibility Complex

Hd¹,

Rosenfeld²,

Ed³

et al. 1977

N Engl J Med

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In an attempt to map the gene (or genes) controlling the synthesis fo the fourth component of complement (C4), we performed linkage studies in a family with hereditary C4 deficiency. The proband, a seven-year-old boy with lupus erythematosus, consistently lacked deteftable serum C4 by both functional and protein measurements. The complement defect was transmitted as an autosomal recessive disorder. Eight of 15 family members were considered to be heterozygotes, seven because of low C4 levels and one because of genetic data (obligate heterozygote). The gene (or genes) coding for C4 deficiency appeared to be linked to the major histocompatibility complex (A2,B12,DW2 on the maternal side and A2,BW15,LD108 on the paternal side) and to other markers known to be in close proximity to the histocompatibility complex on chromosome 6 (phosphoglucomutase-3, glyoxalase-1 and properdin factor B).

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Nylon fiber leukapheresis: associated complement component changes and cranulocytopenia

Nusbacher¹,

Rosenfeld²,

MacPherson³

et al. 1978

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The possible role of complement activation in the development of transient granulocytopenia during nylon fiber filtration leukapheresis (FL) was studied in five normal donors. No changes in hemolytic complement (CH50) titers were observed in the donors' circulating plasma at any point in the procedure. However, comparison of pre-and postfilter blood samples drawn 1 mm after donor blood passed the filters revealed decreases in several camplement (C) components in postfilter plasma. Marked reductions in CH50, hemolytic C4 and C2, and properdin protein levels were observed, as well as moderate but significant reductions in hemolytic, C3, and C5 titers. Clq and factor B protein levels did not fall. Partial C3 cleavage was also demonstrated in postfilter samples by electrophoretic methods.

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Erythrocyte membrane proteins reactive with IgG (warm-reacting) anti- red blood cell autoantibodies: II. Antibodies coprecipitating band 3 and glycophorin A

Leddy

Wilkinson

Kissel

et al. 1994

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In our initial immunochemical study of the red blood cell (RBC) membrane proteins targeted in 20 cases of warm-antibody autoimmune hemolytic anemia (AHA), RBC eluates of 6 patients mediated immunoprecipitation (IP) of both band 3 and glycophorin A (GPA). This dual IP pattern had previously been observed with murine monoclonal antibodies (MoAbs) against the high frequency blood group antigen, Wrb (Wright), suggesting that the Wrb epitope may depend on a band 3-GPA interaction. Earlier, anti-Wrb had been identified serologically as a prominent non-Rh specificity of AHA autoantibodies. In the present study, 6 autoantibody eluates immunoprecipitating band 3 and GPA from common Wr(b+) RBCs were retested, in parallel with murine anti-Wrb MoAbs, against very rare Wr(a+b-)En(a+)RBCs. One patient's autoantibodies were unreactive with the Wr(b-) RBCs by either IP or indirect antiglobulin test (IAT) and were judged to have “pure” anti- Wrb specificity. Two other patients' autoantibodies displayed both IP and serologic evidence for anti-Wrb as a major component in combination with one or more additional specificities. However, among 3 other patients whose autoantibodies coprecipitated band 3 and GPA, there was no reduction in IP or IAT reactivity with Wr(b-) RBCs in 2 and only slight reduction in the third. We conclude (1) that human anti-Wrb autoantibodies, like their murine monoclonal counterparts, coprecipitate band 3 and GPA from human RBCs; but (2) that not all antibodies with this IP behavior have anti-Wrb serologic specificity, as defined by this donor's Wr(b-) RBCs. The possibility of an additional (non-Wrb) RBC epitope dependent on a band 3-GPA interaction is raised.

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Nylon fiber leukapheresis: associated complement component changes and cranulocytopenia

Nusbacher¹,

Rosenfeld²,

MacPherson³

et al. 1978

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Aberrant Immunoglobulin and c-myc gene rearrangements in patients with nonmalignant monoclonal cryoglobulinemia

Perl¹,

Wang²,

Williams³

et al. 1988

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SI Rosenfeld

Linkage between the Gene (or Genes) Controlling Synthesis of the Fourth Component of Complement and the Major Histocompatibility Complex

Nylon fiber leukapheresis: associated complement component changes and cranulocytopenia

Erythrocyte membrane proteins reactive with IgG (warm-reacting) anti- red blood cell autoantibodies: II. Antibodies coprecipitating band 3 and glycophorin A

Nylon fiber leukapheresis: associated complement component changes and cranulocytopenia

Aberrant Immunoglobulin and c-myc gene rearrangements in patients with nonmalignant monoclonal cryoglobulinemia

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