REP-PCR fragments as biomarkers for differentiating gastroduodenal disease-specific Helicobacter pylori strains

Abstract

We previously identified four potential putative gastroduodenal disease fragments by using the interspersed repetitive extragenic palindromic DNA sequence based PCR (REP-PCR) technique. We investigated these fragments with regard to their disease specificity. The putative disease-specific REP-PCR fragments were cloned, mapped by restriction enzymes, cross-hybridized, and confirmed by Southern hybridization. The four fragments were also used as probes against REP-PCR amplicons from H. pylori isolates obtained from gastritis (N = 20), duodenal ulcer (N = 30), and gastric cancer patients (N = 30). Three of these fragments (1.4- and 0.76-kb for gastritis; 1.35 kb for duodenal ulcer) were amplified without any discrimination between any disease-specific H. pylori isolates. However, amplification following hybridization with the fourth 0.81-kb fragment was observed only from gastritis (60%) and duodenal ulcer (52%) but with none (0%) of gastric cancer patients. Nucleotide sequence analysis of the 0.81-kb fragment revealed that it was an open reading frame of the hypothetical protein HP0373 matched to the position of 380,966 to 383,068 nucleotides of the H. pylori complete genome sequence. Hence, the REP-PCR sequence was not a extragenic palindromic DNA sequence. The hypothetical protein was also present in all the tested isolates. The REP-PCR fingerprinting technique is useful to differentiate disease-specific H. pylori strains based on the interspersed repetitive extragenic palindromic DNA sequences; however, it may not be useful to identify disease-specific virulence determinant(s) without being confirmed by DNA sequence analysis and functional studies.