Colman Rebecca E, Schupp James M, Hicks Nathan D, Smith David E, Buchhagen Jordan L, Valafar Faramarz, Crudu Valeriu, Romancenco Elena, Noroc Ecaterina, Jackson Lynn, Catanzaro Donald G, Rodwell Timothy C, Catanzaro Antonino, Keim Paul, Engelthaler David M
Translational Genomics Research Institute, Flagstaff, AZ, United States of America.
San Diego State University, San Diego, CA, United States of America.
PLoS One. 2015 May 13;10(5):e0126626. doi: 10.1371/journal.pone.0126626. eCollection 2015.
Undetected and untreated, low-levels of drug resistant (DR) subpopulations in clinical Mycobacterium tuberculosis (Mtb) infections may lead to development of DR-tuberculosis, potentially resulting in treatment failure. Current phenotypic DR susceptibility testing has a theoretical potential for 1% sensitivity, is not quantitative, and requires several weeks to complete. The use of "single molecule-overlapping reads" (SMOR) analysis with next generation DNA sequencing for determination of ultra-rare target alleles in complex mixtures provides increased sensitivity over standard DNA sequencing. Ligation free amplicon sequencing with SMOR analysis enables the detection of resistant allele subpopulations at ≥0.1% of the total Mtb population in near real-time analysis. We describe the method using standardized mixtures of DNA from resistant and susceptible Mtb isolates and the assay's performance for detecting ultra-rare DR subpopulations in DNA extracted directly from clinical sputum samples. SMOR analysis enables rapid near real-time detection and tracking of previously undetectable DR sub-populations in clinical samples allowing for the evaluation of the clinical relevance of low-level DR subpopulations. This will provide insights into interventions aimed at suppressing minor DR subpopulations before they become clinically significant.
在临床结核分枝杆菌(Mtb)感染中,未被检测到且未得到治疗的低水平耐药(DR)亚群可能会导致耐多药结核病的发生,进而可能导致治疗失败。当前的表型DR药敏试验理论上灵敏度有1%的潜力,不具有定量性,且需要数周才能完成。使用“单分子重叠读数”(SMOR)分析结合下一代DNA测序来确定复杂混合物中的超罕见目标等位基因,比标准DNA测序具有更高的灵敏度。采用SMOR分析的无连接扩增子测序能够在近实时分析中检测出占Mtb总菌数≥0.1%的耐药等位基因亚群。我们描述了使用来自耐药和敏感Mtb菌株的标准化DNA混合物的方法,以及该检测方法在直接从临床痰液样本中提取的DNA中检测超罕见DR亚群的性能。SMOR分析能够快速近实时地检测和追踪临床样本中以前无法检测到的DR亚群,从而评估低水平DR亚群的临床相关性。这将为旨在在低水平DR亚群变得具有临床意义之前对其进行抑制的干预措施提供见解。
