Affiliation:
1. Department of Gastroenterology, University of Tokyo,1 and
2. Institute for Biotechnology Research, Wakunaga Pharmaceutical Co. Ltd., Hiroshima,2 Japan
3. Center for Molecular Biology and Cytogenetics, SRL Inc.,3 Tokyo, and
Abstract
ABSTRACT
It has been shown that resistance to clarithromycin, a major cause of failure in
Helicobacter pylori
eradication therapy, is associated with point mutations in the 23S rRNA gene. We sought to apply the preferential homoduplex formation assay (PHFA), a novel technique for the efficient detection of point mutations, to detection of the mutations. PHFA was performed on streptavidin-coated microtiter plates with biotin- and dinitrophenyl-labeled amplicons to detect the wild-type gene or each mutant gene. DNA samples were extracted from gastric juice specimens of 412 patients with
H. pylori
infection and were applied to the assay. The detection threshold of PHFA was as few as 10 gene copies. The sensitivity of PHFA for the detection of
H. pylori
infection was higher than those of culture and the rapid urease test. A total of 337 (81.8%) samples had the wild-type gene, 38 (9.2%) had the A2144G mutation, and 37 (9.0%) contained both the wild type and a mutation (A2144G in 30 samples, A2143G in 5 samples, and A2143G plus A2144G in 2 samples). About half the strains isolated from patients with mixed infection were susceptible by the agar dilution method (MIC, <0.1 mg/liter). Therefore, PHFA can detect clarithromycin-resistant
H. pylori
strains, even in patients with mixed infections with the wild type, that are not detectable by the agar dilution method.
Publisher
American Society for Microbiology
Cited by
44 articles.
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