ABSTRACT
To identify Th1 cell-stimulating antigens/peptides encoded by the genes predicted in the Mycobacterium tuberculosis-specific genomic region of difference [RD]1, deleted in Mycobacterium bovis Bacille Calmette-Guerin[BCG], by using synthetic peptides and whole blood from tuberculosis [TB] patients. Heparinized peripheral blood was obtained from culture-proven pulmonary TB patients [n = 16] attending the Chest Disease Hospital, Kuwait. Whole blood was diluted with tissue culture medium RPMI-1640 and tested for Th1 cell stimulation using antigen-induced proliferation and interferon- [IFN-] secretion assays. The antigens included a peptide pool of 220 peptides covering the sequence of 12 open reading frames [ORFs] of RD1 [RD1mix], peptide pools of RD1 ORF5 [ORF5mix], ORF6 [ORF6mix] and ORF7 [ORF7mix], and individual peptides of ORF6 [P6.1-P6.6] and ORF7 [P7.1-P7.6]. M. tuberculosis culture filtrate, cell walls and whole-cell M. bovis BCG were used as complex mycobacterial antigens. The results obtained with different antigens and peptides were statistically analyzed for significant differences using Z test. The complex mycobacterial antigens [culture filtrate, cell walls and M.bovis BCG] and RD1mix induced comparable [p > 0.05] positive antigen-induced proliferation and IFN- responses with whole blood from TB patients. However, the positive IFN- responses induced by ORF6mix and ORF7mix were higher than ORF5mix. Among the individual peptides, P6.4 and P7.1 of ORF6 and ORF7, respectively, induced the highest IFN- responses, suggesting that these peptides represented the immunodominant Th1 cell epitopes of RD1 ORF6 and ORF7 in the patients tested. The whole blood assays with synthetic peptides are useful to identify Th1 cell antigens/peptides encoded by genes located in M. tuberculosis-specific genomic regions