[Investigation of pncA, rpsA and panD Gene Mutations Associated with Resistance in Pyrazinamide-Resistant Mycobacterium tuberculosis Isolates and Spoligotyping]. / Pirazinamid Dirençli Mycobacterium tuberculosis Izolatlarinda Direnç ile Iliskili pncA, rpsA ve panD Gen Mutasyonlari ve Spoligotiplerin Arastirilmasi.

Pyrazinamide (PZA) is one of the first-line anti-tuberculous drugs used in the treatment of tuberculosis (TB). Considering the ability of PZA to shorten the treatment period from 9-12 months to six months by eliminating persistent bacilli, it appears to be an important cornerstone of TB therapy. While the main mechanism causing the PZA resistance is pncA mutations at a rate of 70-97%, it has been determined that rpsA and panD mutations can also cause resistance. In this study, we aimed to investigate the pncA, rpsA and panD gene mutations, the efficiency of the pyrazinamidase (PZAse) enzyme test in determining PZA resistance, the drug susceptibility and their families in PZA-resistant Mycobacterium tuberculosis isolates. Totally 46 PZA resistant M.tuberculosis isolates were included in the study. The pncA, rpsA and panD mutations caused by PZA resistance were investigated by in-house PCR followed by DNA sequencing method. Drug susceptibility was determined with Bactec MGIT 960 (Becton Dickinson, USA) system, the presence of PZAse was evaluated by colorimetric PZAse enzyme assay and the families were determined by the spoligotyping method. Of the 46 PZA-resistant isolates, 24 (52.2%) were identified as PZA monoresistant, 11 (23.9%) multidrug resistant (MDR)-TB and 11 (23.9%) poly drug resistant (PDR)-TB. Gene mutations associated with resistance were detected in 73.9% (34) of PZA-resistant M.tuberculosis isolates. The pncA, rpsA and panD mutations were found in 71.7% (33), 28.2% (12) and 4.3% (2) of the isolates, respectively. The coexistence of pncA/rpsA and pncA/panD gene mutations were determined in 12 and two isolates, respectively. The pncA gene mutations were observed in 3 (33.3%) of 9 (19.6%) isolates whose enzyme presence was detected by the colorimetric PZAse test. In the pncA gene, eight different point mutations in the form of missense mutation;A226C (27.3%), A152C (24.2%), C169G (21.2%) A422C (9.1%), G145A (6.1%), A29G (6.1%), A424G (3%) and T464G (3%) were detected. In the rpsA gene, A636C (42.9%) silent and G1318A (42.9%) missense mutations and in the panD gene, C66G (50%) nonsense and A145G (50%) missense mutations were the most common mutations detected. As a result of genotyping of PZA resistant isolates, the most common genotypes were found in T1 cluster with 17 (36.9%) isolates; followed by the families of Beijing with 7 (15.2%) isolates, H3 with 6 (13%) isolates, TUR with 5 (10.9%) isolates, and LAM 9 with 4 (8.7%) isolates, respectively. In addition, 2 (4.3%) isolates belonging to the ORPHAN family and one isolate belonging to each of LAM TUR, LAM 2, LAM 7, T2, T5-RUS1 families were identified. Our study is the first to investigate all pncA, rpsA and panD gene mutations that have been found to cause PZA resistance in Turkey. Epidemiological studies on PZA resistance will make important contributions to the determination of resistance mechanism and the development of methods that will provide rapid diagnosis for the detection of resistance.

A new colorimetric method for rapid detection of ethambutol and streptomycin resistance in Mycobacterium tuberculosis: crystal violet decolorization assay (CVDA).

Streptomycin (STR) and ethambutol (EMB) are important drugs used for the treatment of tuberculosis. There is a need for fast, reliable and inexpensive methods for detecting resistance to these drugs. The aim of this study was to evaluate the performance of the crystal violet decolorization assay (CVDA) for the detection of STR and EMB resistance that is important drugs in tuberculosis treatment. In this study, drug susceptibility testing was performed on 140 Mycobacterium tuberculosis isolates provided from nine centers. Three tubes were used for each isolate. One of the tubes had a concentration of 2 mg/L STR and the other 5 mg/L EMB. The third was drug-free control tube. Sensitivity, specificity, positive predictive value (PPD), negative predictive value (NPD) and agreement for STR were found to be 81.8%, 94.6%, 87.8%, 91.5% and 90.57%, respectively. For EMB, sensitivity, specificity, PPD, NPD, and agreement were found to be 76%, 98.23%, 90.47%, 94.87% and 94.2%, respectively. The results were obtained in 11.3 ± 2.7 days (8-21 days). CVDA is rapid, reliable, inexpensive, and easy to perform for rapid detection of STR and EMB resistance, and it could be adapted for drug susceptibility testing.

[Multicenter evaluation of the indirect nitrate reductase assay for the rapid detection of multidrug-resistant tuberculosis]. / Çok ilaca dirençli tüberkülozun hizli tespiti için dolayli nitrat redüktaz testinin çok merkezli degerlendirilmesi.

Multidrug-resistant tuberculosis (MDR-TB) is defined as resistance to at least isoniazid (INH) and rifampicin (RIF), and it complicates the implementation of tuberculosis control programmes. The rapid detection of MDR-TB is crucial to reduce the transmission of disease. The nitrate reductase assay (NRA) is one of the colorimetric susceptibility test methods for rapid detection of MDR-TB and based on the ability of reduction of nitrate to nitrite by Mycobacterium tuberculosis. The aim of this study was to evaluate the performance of the NRA for the rapid detection of MDR-TB. A total of 237 M.tuberculosis complex (MTC) isolates that were identified by the same method (BD MGIT(TM) TBc Identification Test, USA) from nine different medical centers in Turkey were included in the study. The susceptibility results of the isolates against INH and RIF obtained by reference test (Bactec MGIT(TM) 960, BD, USA) were then compared with NRA. In order to ensure consistency between centers, Löwenstein-Jensen (LJ) medium with antibiotics and without antibiotics (growth control) and Griess reagent solution were prepared in a single center (Ondokuz Mayis University School of Medicine, Medical Microbiology Department) and sent to all participant centers with the standardized test procedure. After the inoculation of bacteria into the test tubes, the tubes were incubated at 37°C, and after seven days of incubation, 500 µl Griess reagent was added to the LJ medium without antibiotics. If a color change was observed, an equal volume of Griess reagent was added to test LJ media with antibiotics. When a color change was observed in LJ media with antibiotics, it was considered that the isolate was resistant to tested antibiotics. Among 237 MTC isolates, 16 were resistant only to INH and nine were resistant only to RIF; 93 isolates (39.2%) were resistant (MDR) and 119 isolates (50.2%) were susceptible to both of the drugs determined with the reference susceptibility test. In the study, five INH-resistant isolates determined with reference method were found susceptible with NRT and eight INH-susceptible isolates determined with reference method were found resistant with NRT. In contrast, one RIF-resistant isolate determined with reference method was found susceptible with NRT and three RIF-susceptible determined isolates were found resistant with NRT. Accordingly, the concordance rate between the reference method and NRA were estimated as 94.5% for INH and 98.3% for RIF. The sensitivity, specificity, positive and negative predictive values of NRA were detected as 95.4%, 93.7%, 92.8% and 96% for INH, and 99%, 97.8%, 97.1% and 99.2% for RIF, respectively. The results of the 111 isolates were obtained on the seventh day, while the rest of the results were obtained between 10-14 days. In conclusion, the data of this multicenter study showed that NRA is a reliable, relatively inexpensive and practical method to perform for the rapid detection of MDR-TB.

Determination of genetic diversity of multidrug-resistant Mycobacterium tuberculosis strains in Turkey using 15 locus MIRU-VNTR and spoligotyping methods.

Tuberculosis (TB) remains the leading cause of deaths from infectious disease worldwide. Nowadays, the tendency of Mycobacterium tuberculosis complex (MTBC) to spread between continents due to uncontrolled migration movements shows that TB is a global health problem. The number of studies for the detection of MTBC strains' epidemiological features in areas with TB spread risk using molecular-based methods such as spoligotyping and Mycobacterial Interspersed Repetitive Unit (MIRU) Variable Number Tandem Repeats (VNTR) at the clonal level is insufficient. In this study, it was aimed to determine the phylogenetic relationships of MTBC strains at the species level by spoligotyping and 15 locus MIRU-VNTR (MIRU-VNTR15) molecular methods of 96 multidrug-resistant (MDR) MTBC strains isolated from sputum samples of patients with a preliminary diagnosis of pulmonary TB or suspected contact history those sent to National Tuberculosis Reference Laboratory from the centers that are members of the Tuberculosis Laboratory Surveillance Network. The phylogenetic relationship between 96 MDR-TB strains was investigated with the combination of bead-based spoligotyping and MIRU-VNTR15 methods on the MAGPIX® Milliplex Map device. In this study, it was determined that the T1 family is more common in our country and LAM7-TUR family is less common than the Beijing family unlike other studies. It was determined that the strains in the same cluster had different locus profiles, and there was no transmission from the same clone in the clonal typing we performed with spoligotyping and MIRU-VNTR15.