dc.description.abstract |
Helicobacter pylori is a spiral, Gram-negative micro-aerophilic bacterium that
chronically infects the gastric mucosa of more than half of all people worldwide, and is a
major cause of gastritis and peptic ulcer (PU) disease, and a risk factor for gastric
adenocarcinoma and mucosa-associated lymphoid tissue lymphoma. The differences in
disease outcome may be the result of host factors, environmental factors and differences
in the prevalence or expression of bacterial virulence factors. Cytotoxin-associated gene
A (cagA) and some isoforms of vacuolating cytotoxin (vacA) gene have been associated
with disease severity. The oncogenic potential of cagA is linked to its polymorphic
EPIYA motifs pattern whose combinations differ geographically. The aim of this study
was to establish the association of the specific virulence-associated bacterial genotypes
with the clinical outcome of Helicobacter pylori infection. In this study, H. pylori strains
in gastric biopsy specimens from dyspeptic patients were characterized and associated
cagA, vacA gene polymorphisms and cagA EPIYA motifs pattern with the clinical
outcome of infection. One hundred and twenty seven dyspeptic patients were enrolled
into the study of whom 63.8% had gastritis, 13.4%, gastro oesophageal reflux disease
(GERD), 11.8% non-ulcer dyspepsia (NUD), 9.4% peptic ulcer, 7.9%gastric cancer, and
0.01% other gastro duodenal diseases. H. pylori positivity was determined by histology
and molecular diagnostic method directly from the gastric pathologies. The H. pylori
DNA was detected in 62.99% of the one hundred and twenty seven dyspeptic patients.
The prevalence of cagA gene was 48.75% among the H. pylori-positive patients. The
presence of cagA was not significantly associated with the gastro duodenal diseases. The
less virulent vacA alleles: m2, i2 and s2 were most occurring at 65%, 52% and 49%,
respectively. The vacA allele m1, i1, and s1 were significantly associated with peptic
ulcer, intestinal metaplasia and gastric cancer, all at P <0.05.There was no EPIYA ABD
detected in these strains. The most occurring EPIYA pattern was the ABC (56.41%)
followed by ABCC at 43% and AB at 28.21%. The presumed virulent ABCCC pattern
was rare (5.13%). Increase in the number of EPIYA C repeats was insignificantly
associated with peptic ulcer (p = 0.768). However, samples with more than one C repeat
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were significantly associated with gastric cancer (OR=6.577 95% CI 1.620-26.704,
p=0.008). The low prevalence of these strains might contribute to the low incidence of
gastric cancer in this country. The cagA-positive H. pylori infection was averagely
prevalent in dyspeptic patients in Kenya and all the CagA protein EPIYA patterns were
of Western type. The less toxigenic vacA isoforms s2, m2 and i2 were highly
distributed. This study confirmed the potential of vacA s1, m1 and i1 to induce gastric
cancer and peptic ulcer. Further, it can be concluded that determining the EPIYA motifs
in CagA protein, rather than detecting cagA gene alone, would be a better marker for
assessing the risk of serious gastric pathology. The possibility of the presence of
unidentified strain or certain host or environmental factors that trigger H. pylori-induced
cancer and peptic ulceration cannot be ruled out. |
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