Interestingly, we found the combined effect between the G/C genotype of IL-18 (-137) and the A/A genotype of IFNG (+874) gene causing susceptibility of arthritis in SLE patients (OR = 13.22, 95% CI = 1.56-291.66, P = 0.004).
SLE protection was associated with TYK2 risk infection variants affecting residually its catalytic domain, rs12720356 (OR = 0.308; p = 0.041) and rs34536443 (OR = 0.370; p = 0.034), but not with rs2304256, rs12720270, and rs280500.
Aberrant CD247 transcript variants displaying either spliced exon 7 or short 3'-untranslated region have been detected in SLE T cells, and a recent genome-wide association study reported the existence of new CD247 single-nucleotide polymorphisms in SLE patients.
However, an increased frequency ofDD genotype (ACE I/D) was observed in SLE patients with LN who progressed to CRF compared to healthy controls (DD 60%, DI 26.7%, II 13.3% versus 27.7%, 60% and 12.3%, respectively; chi2 = 6.299, P = 0.0429).
In conclusion, these results indicated that CD154 gene polymorphisms may associate with the risk of SLE and may play regulation role in the expression of sCD154 in SLE patients.
In conclusion, our findings showed, that there is an association between systemic inflammatory markers, oxidative stress and the CTLA-4G-1661A GG+AG genotypes, MDA and neopterin which are the most conventional risk factors for coronary heart disease, therefore these mutations may be consider as a risk factor for susceptibility to heart disease in SLE patients.