氧化损伤和复制延迟使存活的 病毒得以逃避检测。
Oxidative damage and delayed replication allow viable to go undetected.
机构信息
Division of Infectious Diseases, Department of Medicine, Weill Cornell Medicine, New York, NY 10021, USA.
Department of Microbiology and Immunology, Weill Cornell Medicine, New York, NY 10021, USA.
出版信息
Sci Transl Med. 2021 Nov 24;13(621):eabg2612. doi: 10.1126/scitranslmed.abg2612.
Abstract
“Viable but nonculturable” states of bacteria pose challenges for environmental and clinical microbiology, but their biological mechanisms remain obscure. (Mtb), the leading cause of death from infection until the coronavirus disease 2019 pandemic, affords a notable example of this phenotype. Mtb can enter into a “differentially detectable” (DD) state associated with phenotypic antimicrobial resistance. In this state, Mtb cells are viable but undetectable as colony-forming units. We found that Mtb cells enter the DD state when they undergo sublethal oxidative stress that damages their DNA, proteins, and lipids. In addition, their replication process is delayed, allowing time for repair. and its derivative, BCG, fail to enter the DD state under similar conditions. These findings have implications for tuberculosis latency, detection, relapse, treatment monitoring, and development of regimens that overcome phenotypic antimicrobial resistance.
摘要
细菌的“可培养但不可培养”状态给环境和临床微生物学带来了挑战,但它们的生物学机制仍不清楚。(Mtb)是导致感染死亡的主要原因,直到 2019 年冠状病毒病大流行,它为这种表型提供了一个显著的例子。Mtb 可以进入与表型抗微生物药物耐药性相关的“可差异检测”(DD)状态。在这种状态下,Mtb 细胞是有活力的,但作为集落形成单位无法检测到。我们发现,当 Mtb 细胞遭受亚致死性氧化应激,破坏其 DNA、蛋白质和脂质时,它们会进入 DD 状态。此外,它们的复制过程被延迟,从而有时间进行修复。相比之下,其衍生物卡介苗(BCG)在类似条件下无法进入 DD 状态。这些发现对结核分枝杆菌潜伏、检测、复发、治疗监测以及克服表型抗微生物药物耐药性方案的开发具有重要意义。
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