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  • Title: Familial systemic lupus erythematosus: immunogenetic studies in eight families.
    Author: Reveille JD, Bias WB, Winkelstein JA, Provost TT, Dorsch CA, Arnett FC.
    Journal: Medicine (Baltimore); 1983 Jan; 62(1):21-35. PubMed ID: 6600509.
    Abstract:
    Familial SLE provides a unique opportunity to study the relationships of previously associated genetic factors (HLA and complement component deficiencies) to the occurrence of SLE, other immune disorders, and autoantibodies in families. Thus, eight families containing two or more affected members with SLE (n = 22) and their relatives (n = 40) were examined for HLA genotypes, complement components and autoantibodies. Among the 40 non-SLE relatives, 7 (18%) had other immune diseases, including thyroid disease in 2, rheumatoid arthritis in 2, ITP in 2, and Henoch-Schönlein purpura in one. This compared to 4 of the 22 SLE patients (also 18%) of whom 3 had thyroid disease and one PSS. Eleven non-SLE relatives (28%) had ANA, which was in high-titer in 5 (13%). Eleven (28%) had antibodies to ssDNA, and one had a BFP. Only the SLE patients had antidsDNA, Ro(SSA), Sm or nRNP. A heterozygous C2 deficiency (C2D) was found in only one of the seven kindreds studied, and followed an A25, B18 DR7 haplotype. Heterozygous C2D, however, was inherited by only one of three family members with SLE. HLA-DR2 occurred in 36% and DR3 in 36% of SLE patients, which was not significantly different from either non-SLE family members or unrelated local controls. Sib pair analysis of seven sets presented here and seven from two published reports, demonstrated only random distribution with SLE. Similarly, other immune disorders and autoantibodies followed no consistent HLA haplotypes or DR specificities. Interestingly, DR2 and/or DR3 were found in five of the six patients (83%) having anti-ro(SSA) antibodies (p = NS). These data strongly suggest that genetic factors (other than HLA and complement component deficiencies) and/or environmental factors are necessary for the expression of SLE and other immune abnormalities in lupus families.
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