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Abstract
Histones are the most abundant proteins associated with genomic DNA. Recent observations show that histones are quite susceptible to non-enzymatic glycation which results in the generation of free radicals causing structural perturbations. In this study, our aim is to define the role of deoxyribose-modified H2A histone in SLE initiation/progression. Glycation reaction was carried out by incubating H2A histone with 10 mM deoxyribose for 21 days at 37 °C. Structural changes in glycated-H2A were studied by various physico-chemical techniques. The antigen-antibody interaction was studied by direct binding, inhibition ELISA and mobility shift assay. Deoxyribose-modified-H2A histone showed increased hyperchromicity and increased fluorescence intensity. CD results demonstrated almost 50% loss in alpha helix conformation as a consequence of glycation. This was supported by an increase in Tm value vis-à-vis thermal stability. Glycated-H2A showed cross linking in SDS-PAGE. SLE sera positive for anti-nDNA autoantibodies showed preference for deoxyribose-modified-H2A histone compared to native H2A histone or native DNA. Inhibition ELISA supported the above findings. Band shift assay further reiterated the preferential recognition of glycated-H2A over native H2A by SLE IgG autoantibodies. Deoxyribose-modified-H2A histone exhibited damage as revealed by various physico-chemical studies. Glycation of H2A has resulted in the generation of neo-epitopes on H2A histone, which are preferably bound by SLE anti-nDNA autoantibodies. It implies that deoxyribose-modified-H2A may trigger immune response resulting in the generation of anti-glycated H2A antibodies with DNA cross reacting properties.
Declaration of interest
This study was supported by a research grant no. 61/01/2011-BMS to KA from the Indian Council of Medical Research, New Delhi. Authors are thankful to the Department of Science & Technology (DST) for instrument facilities created with the financial help from DST under its FIST program.
There is no conflict of interest of any type among the authors.