Significance of Coexisting Mutations on Determination of the Degree of Isoniazid Resistance in Mycobacterium tuberculosis Strains.

The emergence and spread of drug-resistant tuberculosis (TB) pose a threat to TB control in Sri Lanka. Isoniazid (INH) is a key element of the first-line anti-TB treatment regimen. Resistance to INH is mainly associated with point mutations in katG, inhA, and ahpC genes. The objective of this study was to determine mutations of these three genes in INH-resistant Mycobacterium tuberculosis (MTb) strains in Sri Lanka. Complete nucleotide sequence of the three genes was amplified by polymerase chain reaction and subjected to DNA sequencing. Point mutations in the katG gene were identified in 93% isolates, of which the majority (78.6%) were at codon 315. Mutations at codons 212 and 293 of the katG gene have not been reported previously. Novel mutations were recognized in the promoter region of the inhA gene (C deletion at -34), fabG1 gene (codon 27), and ahpC gene (codon 39). Single S315T mutation in the katG gene led to a high level of resistance, while a low level of resistance with high frequency (41%) was observed when katG codon 315 coexisted with the mutation at codon 463. Since most of the observed mutations of all three genes coexisted with the katG315 mutation, screening of katG315 mutations will be a useful marker for molecular detection of INH resistance of MTb in Sri Lanka.

Geographical profile of rpoB gene mutations in rifampicin resistant Mycobacterium tuberculosis isolates in Sri Lanka.

The nature and frequency of mutations in the rpoB gene of rifampicin (RIF) resistant Mycobacterium tuberculosis clinical isolates varies considerably between different geographical regions. The objective of the present study was the identification of rpoB gene mutations responsible for RIF resistance in M. tuberculosis isolates in Sri Lanka. Three regions of the rpoB gene of M. tuberculosis, one corresponding to a 437-bp region, including the rifampicin resistance-determining region (RRDR) and two other regions (1395 bp and 872 bp) spanning the RRDR, were polymerase chain reaction amplified, and were subjected to DNA sequencing. The two mutations found within the RRDR in the 31 RIF resistant strains isolated in this study were at codon 526 (n=15, 48.4%) CAC (His)→TAC (Tyr) and codon 531 (n=3, 9.7%) TCG (Ser)→TTG (Leu). A significant proportion (n=15, 48.3%) showed mutations spanning the RRDR, including two novel mutations at codon 626 (n=13, 41.9%) GAC (Asp)→GAG (Glu) and 184 (n=2, 6.4%) GAC (Asp)→GAT (Asp), a silent mutation. Two isolates revealed double mutations (codons 626+526 and 626+184). The presence of a high frequency of new mutations, and the different frequencies of the universally prevailing mutations, as reported here, emphasizes the need for expanding the geographical database of mutations for effective application of an rpoB-based diagnosis of multidrug resistant tuberculosis.