Pamela V. Taylor scite author profile

The relation between congenital heart block and maternal connective-tissue disease was studied by antibody screening of serum samples obtained in connection with 45 cases of isolated congenital complete heart block. Serum was available from 41 mothers (17 who had connective-tissue disease and 24 who were healthy) and 21 children. Thirty-four mothers had antibody to a soluble tissue ribonucleoprotein antigen called Ro(SS-A), which was identified by immunodiffusion. Anti-Ro(SS-A) was found in seven of eight serum samples collected from affected children when they were less than three months old but in none of 13 samples obtained when these children were older. It appears that maternal anti-Ro(SS-A) antibody crosses the placenta and is a marker for risk of congenital complete heart block; its absence from maternal serum suggests that a child is unlikely to be affected. Anti-Ro(SS-A) or a related antibody is probably involved in the pathogenesis of congenital complete heart block.

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Maternal Antibodies against Fetal Cardiac Antigens in Congenital Complete Heart Block

Taylor¹,

Scott²,

Gerlis³

et al. 1986

N Engl J Med

188

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An immunologic basis for congenital heart block has been proposed previously. To investigate the association between congenital heart block and maternal antibodies capable of crossing the placenta, we used immunofluorescence to examine serum samples from 41 mothers and 8 affected children, together with serum from controls, for antibodies to fetal cardiac tissue. Twenty-one mothers (51 percent) had IgG antibody reactive with fetal heart tissue, as compared with only 9 of 94 controls (10 percent; P less than 0.001). Three of 8 affected babies, but none of 50 healthy babies, had similar antibodies. The antibodies reacted with all myocardial tissue and were not directed specifically to the conduction system. They also reacted with other fetal tissues and could be distinguished from nuclear and smooth-muscle autoantibodies. We also observed a higher occurrence of antibodies to cytomegalovirus, but not to Epstein-Barr virus, in these mothers. Autopsy specimens from babies with congenital heart block examined by immunoperoxidase staining showed deposition of immunoglobulin and complement components in all cardiac tissues. These findings strengthen the case implicating immune reactivity related to maternal antibody in the development of some but not all cases of congenital heart block.

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Ro and La antigens and maternal anti-La idiotype on the surface of myocardial fibres in congenital heart block

Horsfall

Venables

Taylor

et al. 1991

Journal of Autoimmunity

110

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Antibody and Antibody-Dependent Cellular Cytotoxicity Responses against the BamHI A Rightward Open-Reading Frame-1 Protein of Epstein-Barr Virus (EBV) in EBV-Associated Disorders

Tanner¹,

Wei²,

Alfieri³

et al. 1997

Journal of Infectious Diseases

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Antibody-dependent cellular cytotoxicity (ADCC) is an important antiviral effector mechanism. ADCC to the protein encoded by the Epstein-Barr virus (EBV) BamHI A rightward open-reading frame-1 (BARF1) was studied by transducing Raji-tk- cells with the BARF1 gene using a retroviral expression vector. The transduced Raji cells expressed BARF1 on the cell surface, as determined by flow cytometry. Sera from chronic and acute infectious mononucleosis and nasopharyngeal carcinoma patients were found to contain antibodies that react with the BARF1 protein. When BARF1-expressing Raji cells were used as targets for ADCC, sera from several nasopharyngeal carcinoma patients demonstrated significant ADCC reactivity, whereas sera from healthy EBV-seronegative and -seropositive persons lacked such reactivity. BARF1-specific ADCC activity could be competitively inhibited with recombinant BARF1 protein. The level of anti-BARF1 antibody activity in sera of patients with EBV-associated diseases suggests that the BARF1 protein may serve as a target on EBV-infected cells for ADCC.

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PREVALENCE OF MATERNAL Ro (SS-A) AND La (SS-B) AUTOANTIBODIES IN RELATION TO CONGENITAL HEART BLOCK

Taylor

Norman

et al. 1988

Rheumatology

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The prevalence of autoantibodies to ribonucleoprotein antigens in cases of congenital heart block was established using immunofluorescence, counterimmunoelectrophoresis, double immunodiffusion and Western blots. All of 35 mothers of babies with congenital heart block, none of five mothers of babies with other types of heart block, 10 of 29 women with connective tissue disease but no babies with heart block, four of 445 normal pregnant women and two of 109 healthy nonpregnant women had either Ro (SS-A) or La (SS-B) antibodies. Of 15 babies with congenital heart block, 10 of 10 who were less than 3 months old possessed antibody. Antibody titres in affected but not in normal infants were lower compared with their mothers' titres, suggesting deposition of antibodies in the baby's tissues. The findings indicate that placental transfer of anti-Ro (SS-A) or anti-La (SS-B) is essential for development of congenital complete heart block.

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Pamela V. Taylor

Connective-Tissue Disease, Antibodies to Ribonucleoprotein, and Congenital Heart Block

Maternal Antibodies against Fetal Cardiac Antigens in Congenital Complete Heart Block

Ro and La antigens and maternal anti-La idiotype on the surface of myocardial fibres in congenital heart block

Antibody and Antibody-Dependent Cellular Cytotoxicity Responses against the BamHI A Rightward Open-Reading Frame-1 Protein of Epstein-Barr Virus (EBV) in EBV-Associated Disorders

PREVALENCE OF MATERNAL Ro (SS-A) AND La (SS-B) AUTOANTIBODIES IN RELATION TO CONGENITAL HEART BLOCK

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