Ch. Salmon scite author profile

cDNA clones encoding a human blood group Rh polypeptide were isolated from a human bone marrow cDNA library by using a polymerase chain reaction-amplified DNA fragment encoding the known common N-terminal region of the Rh proteins. The entire primary structure of the Rh polypeptide has been deduced from the nucleotide sequence of a 1384-base-pair-long cDNA clone. Translation of the open reading frame indicates that the Rh protein is composed of 417 amino acids, including the initiator methionine, which is removed in the mature protein, lacks a cleavable N-terminal sequence, and has no consensus site for potential Nglycosylation. The predicted molecular mass of the protein is 45,500, while that estimated for the Rh protein analyzed in NaDodSO4/polyacrylamide gels is in the range of 30,000-32,000. These findings suggest either that the hydrophobic Rh protein behaves abnormally on NaDodSO4 gels or that the Rh mRNA may encode a precursor protein, which is further matured by a proteolytic cleavage of the C-terminal region of the polypeptide. Hydropathy analysis and secondary structure predictions suggest the presence of 13 membrane-spanning domains, indicating that the Rh polypeptide is highly hydrophobic and deeply buried within the phospholipid bilayer. In RNA blot-hybridization (Northern) analysis, the Rh cDNA probe detects a major 1.7-kilobase and a minor 3.5-kilobase mRNA species in adult erythroblasts, fetal liver, and erythroid (K562, HEL) and megakaryocytic (MEG01) leukemic cell lines, but not in adult liver and kidney tissues or lymphoid (Jurkat) and promyelocytic (HL60) cell lines. These results suggest that the expression of the Rh gene(s) might be restricted to tissues or cell lines expressing erythroid characters.

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Management of alloimmune thrombocytopenia: antenatal diagnosis and in utero transfusion of maternal platelets

Kaplan¹,

Daffos²,

Forestier³

et al. 1988

200

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Neonatal alloimmune thrombocytopenia (NAIT) can cause severe bleeding in the central nervous system (CNS) and death or severe neurologic sequelae. The expression of the PLA1 antigen is detectable as early as 19 weeks of gestation. Alloimmunization can therefore lead to fetal thrombocytopenia very early in pregnancy. Until recently, we have had no means of detecting and assessing the severity of fetal thrombocytopenia during pregnancy. The level of the maternal antibody is not of a predictable value since 20% of the mothers had no circulating antibodies in our series. An alternative approach is to carry out investigations on fetal blood samplings. This management leads to an exact knowledge of the fetal status and antenatal diagnosis is feasible as early as the 21st week of gestation. Early diagnosis facilitates appropriate management and makes possible such therapeutic options as in utero maternal platelet transfusions. We report our experience in the antenatal diagnosis and management of nine cases with in utero transfusion in the six cases with severe thrombocytopenia. All neonates did well, with no signs of bleeding at birth. No side effects of therapy were noted after a period ranging from 6 months to 3 years.

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Adverse Transfusion Reactions Associated with a Precipitating Anti‐C4 Antibody of Anti‐Rodgers Specificity¹

Lambin¹,

Pennec²,

Hauptmann³

et al. 1984

Vox Sanguinis

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A patient suffering from chronic hepatitis exhibited severe transfusion reactions after administration of fresh frozen plasma and a plasma fraction: PPSB (prothrombin complex concentrate). 1 month before these reactions, she received fresh frozen plasma during plasma exchange therapy. The patient's serum obtained 1 week and 6 months after the second reaction gave a precipitation arc against PPSB preparations when examined by double-diffusion technique in agarose gel. An antibody of IgG class present in these sera reacted with a purified preparation of the fourth complement component (C4). This was demonstrated by various experiments (protein A radioimmunoassay and passive hemagglutination) using purified C4 as antigen. The antibody had a limited specificity and reacted only with C4 of Rodgers specificity. Phenotype determination of the patient's C4 group showed that she was Chido positive and Rodgers negative. Her HLA group was A1, Aw30; B8,-; DR3,-. The patient had neither detectable anti-IgA nor other anti-immunoglobulin antibodies. She had not received blood or plasma transfusion before her hepatitis. The coexistence of a precipitating anti-C4 antibody and adverse transfusion reactions to plasma fractions containing large amounts of C4 indicates that in the absence of antibodies of other specificities, this antibody can be considered as the cause of the transfusion reaction.

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Tissue distribution of H, Lewis and P antigens as shown by a panel of 18 monoclonal antibodies

Rouger

Gane

Salmon

1987

Revue Francaise de Transfusion et Immuno-hématologie

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Ch. Salmon

Molecular cloning and protein structure of a human blood group Rh polypeptide.

Management of alloimmune thrombocytopenia: antenatal diagnosis and in utero transfusion of maternal platelets

Adverse Transfusion Reactions Associated with a Precipitating Anti‐C4 Antibody of Anti‐Rodgers Specificity¹

Tissue distribution of H, Lewis and P antigens as shown by a panel of 18 monoclonal antibodies

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Ch. Salmon

Molecular cloning and protein structure of a human blood group Rh polypeptide.

Management of alloimmune thrombocytopenia: antenatal diagnosis and in utero transfusion of maternal platelets

Adverse Transfusion Reactions Associated with a Precipitating Anti‐C4 Antibody of Anti‐Rodgers Specificity1

Tissue distribution of H, Lewis and P antigens as shown by a panel of 18 monoclonal antibodies

Contact Info

Product

Resources

About

Adverse Transfusion Reactions Associated with a Precipitating Anti‐C4 Antibody of Anti‐Rodgers Specificity¹