The Role of Efflux Pumps transporter in Multi-drug Resistant Tuberculosis: Mycobacterial memberane protein(MmpL5).

IF 1.6 Q4 INFECTIOUS DISEASES International Journal of Mycobacteriology Pub Date : 2024-01-01 Epub Date: 2024-03-15 DOI:10.4103/ijmy.ijmy_37_24
Parissa Farnia, Saeid Besharati, Poopak Farina, Saman Ayoubi, Majid Marjani, Jalaledin Ghanavi, Payam Tabarsi, Ali Akbar Velayati
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Abstract

Background: The overexpression of efflux pumps (Eps) was reported to contribute to multidrug resistant tuberculosis (MDR-TB). Increases in Eps that expel structurally unrelated drugs contribute to reduced susceptibility by decreasing the intracellular concentration of antibiotics. In the present study, an association of mycobacterial membrane protein (MmpS5-MmpL5) Ep and its gene regulator (Rv0678) was investigated in MDR-tuberculosis isolates.

Methods: MTB strains were isolated from patients at two different intervals, i.e., once when they had persistent symptoms despite 3-15 ≥ months of treatment and once when they had started new combination therapy ≥2-3 months. Sputum specimens were subjected to Xpert MTB/rifampicin test and then further susceptibility testing using proportional method and multiplex polymerase chain reaction (PCR) were performed on them. The isolates were characterized using both 16S-23S RNA and hsp65 genes spacer (PCR-restriction fragment length polymorphism). Whole-genome sequencing (WGS) was investigated on two isolates from culture-positive specimen per patient. The protein structure was simulated using the SWISS-MODEL. The input format used for this web server was FASTA (amino acid sequence). Protein structure was also analysis using Ramachandran plot.

Results: WGS documented deletion, insertion, and substitution in transmembrane transport protein MmpL5 (Rv0676) of Eps. Majority of the studied isolates (n = 12; 92.3%) showed a unique deletion mutation at three positions: (a) from amino acid number 771 (isoleucine) to 776 (valine), (b) from amino acid number 785 (valine) to 793 (histidine), and (c) from amino acid number 798 (leucine) to 806 (glycine)." One isolate (7.6%) had no deletion mutation. In all isolates (n = 13; 100%), a large insertion mutation consisting of 94 amino acid was observed "from amino acid number 846 (isoleucine) to amino acid number 939 (leucine)". Thirty-eight substitutions in Rv0676 were detected, of which 92.3% were identical in the studied isolates. WGS of mycobacterial membrane proteins (MmpS5; Rv0677) and its gene regulator (Rv0678) documented no deletion, insertion, and substitution. No differences were observed between MmpS5-MmpL5 and its gene regulator in isolates that were collected at different intervals.

Conclusions: Significant genetic mutation like insertion, deletion, and substitution within transmembrane transport protein MmpL5 (Rv0676) can change the functional balance of Eps and cause a reduction in drug susceptibility. This is the first report documenting a unique amino acid mutation (insertion and deletion ≥4-94) in Rv0676 among drug-resistant MTB. We suggest the changes in Mmpl5 (Rv0676) might occurred due to in-vivo sub-therapeutic drug stress within the host cell. Changes in MmpL5 are stable and detected through subsequent culture-positive specimens.

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耐多药结核病中外排泵转运体的作用:分枝杆菌成员蛋白(MmpL5)。
背景:据报道,外排泵(Eps)的过度表达是导致耐多药结核病(MDR-TB)的原因之一。排出结构上不相关药物的 Eps 的增加会降低抗生素在细胞内的浓度,从而降低抗药性。本研究调查了 MDR-Tuberculosis 分离物中分枝杆菌膜蛋白(MmpS5-MmpL5)Ep 与其基因调控因子(Rv0678)的关联:在两个不同的时间段从患者身上分离出 MTB 菌株,即在治疗 3-15 ≥ 个月后仍有持续症状时分离一次,以及在开始新的联合治疗 ≥ 2-3 个月时分离一次。对痰标本进行 Xpert MTB/利福平检测,然后使用比例法和多重聚合酶链反应(PCR)对其进行进一步的药敏试验。利用 16S-23S RNA 和 hsp65 基因间隔(PCR-限制性片段长度多态性)对分离物进行鉴定。对每名患者从培养阳性标本中分离出的两个样本进行了全基因组测序(WGS)研究。使用 SWISS-MODEL 模拟了蛋白质结构。该网络服务器使用的输入格式是 FASTA(氨基酸序列)。还使用拉马钱德兰图分析了蛋白质结构:WGS记录了Eps的跨膜转运蛋白MmpL5(Rv0676)的缺失、插入和置换。所研究的大多数分离物(n = 12;92.3%)在以下三个位置出现了独特的缺失突变:(a) 从氨基酸号 771(异亮氨酸)到 776(缬氨酸),(b) 从氨基酸号 785(缬氨酸)到 793(组氨酸),以及 (c) 从氨基酸号 798(亮氨酸)到 806(甘氨酸)"。一个分离物(7.6%)没有缺失突变。在所有分离物(n = 13;100%)中,观察到 "从氨基酸号 846(异亮氨酸)到氨基酸号 939(亮氨酸)"的 94 个氨基酸的大插入突变。在 Rv0676 中检测到 38 个替换,其中 92.3%在所研究的分离株中是相同的。分枝杆菌膜蛋白(MmpS5;Rv0677)及其基因调节器(Rv0678)的 WGS 没有发现缺失、插入和替换。在不同时间段采集的分离物中,未观察到 MmpS5-MmpL5 及其基因调节器之间存在差异:结论:跨膜转运蛋白 MmpL5(Rv0676)中的插入、缺失和置换等重大基因突变可改变 Eps 的功能平衡,并导致药物敏感性降低。这是第一份记录耐药 MTB 中 Rv0676 发生独特氨基酸突变(插入和缺失≥4-94)的报告。我们认为,Mmpl5(Rv0676)的变化可能是由于宿主细胞内的体内亚治疗药物压力所致。MmpL5 的变化是稳定的,并可在随后的培养阳性标本中检测到。
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CiteScore
2.20
自引率
25.00%
发文量
62
审稿时长
7 weeks
期刊最新文献
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