Homozygous single nucleotide polymorphism of the complement C1QA gene is associated with decreased levels of C1q in patients with subacute cutaneous lupus erythematosus
2003; SAGE Publishing; Volume: 12; Issue: 2 Linguagem: Inglês
10.1191/0961203303lu329oa
ISSN1477-0962
AutoresDoina Racila, Clayton Sontheimer, Avery Sheffield, Jeffrey J. Wisnieski, Emilian Racila, Richard D. Sontheimer,
Tópico(s)Blood Coagulation and Thrombosis Mechanisms
ResumoWe report an association between a non-familial form of photosensitive Lupus-specific skin disease, subacute cutaneous lupus erythematosus (SCLE), and a new single nucleotide polymorphism (SNP) in the C1QA gene. We also describe an association between this SNP and lower levels of serum C1q. This SNP consists of adenine replacing the third guanine in the codon for amino acid residue Gly70 (position excludes the 22 amino acid leading peptide) that is located in the second exon of the C1QA gene. We have designated this SNP C1qA - Gly70 GGA (the GenBank sequence at this location is C1qA - Gly70 GGG ). A survey of 19 SCLE patients showed that 11 (58%) were homozygous for C1qA - Gly70 GGA SNP, seven (37%) were heterozygous, and only one patient (5%) was homozygous for the GenBank sequence. In contrast, only 13 of 62 (21%) normal controls were homozygous for the C1qA - Gly70 GGA SNP, 41 (66%) controls were heterozygous and eight (13%) controls were homozygous for the GenBank sequence. Thus, the C1qA - Gly70 GGA SNP is strongly associated with SCLE (P-value = 0.005 by chi-square analysis with Yates correction). This SNP would traditionally be classified as clinically silent as it does not encode a different amino acid. However, our studies have suggested that this SNP appears to be associated with a functional abnormality of C1q expression since its presence correlates inversely with serum levels of C1q antigenic protein in both SCLE patients and normal controls. The mechanism by which this phenotypic change is associated with the translationally silent (synonymous) C1qA - Gly70 GGA genetic variation is currently unknown.
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