Moos Philip J, Carey Allison F, Joseph Jacklyn, Kialo Stephanie, Norrie Joe, Moyarelce Julie M, Amof Anthony, Nogua Hans, Lim Albebson L, Barrows Louis R
Department of Pharmacology and Toxicology, University of Utah, Salt Lake City, Utah 84112 USA.
Department of Pathology, University of Utah, Salt Lake City, Utah 84112 USA.
bioRxiv. 2024 Aug 20:2024.08.20.608852. doi: 10.1101/2024.08.20.608852.
(Mtb) remains a global human health threat and a significant cause of human morbidity and mortality. We document here the capture of Mtb transcripts in libraries designed to amplify eukaryotic mRNA. These reads are often considered spurious or nuisance and are rarely investigated. Because of early literature suggesting the possible presence of polyadenylated transcripts in Mtb RNA, we included the H37Rv Mtb reference genome when assembling scRNA seq libraries from fine needle aspirate samples from patients presenting at the TB clinic, Port Moresby General Hospital, Papua New Guinea. We used 10X Genomics single-cell RNA sequencing transcriptomics pipeline, which initiates mRNA amplification with poly-T primers on ~30-micron beads designed to capture, in this case, human mRNA associated with individual cells in the clinical samples. Utilizing the 10X Genomics Cell Ranger tool to align sequencing reads, we consistently detected bacterial small and large ribosomal subunit RNA sequences (rrs and rrl, respectively) and other bacterial gene transcripts in the cell culture and patient samples. We interpret Mtb reads associated with the host cell's unique molecular identifier (UMI) and transcriptome to indicate infection of that individual host cell. The Mtb transcripts detected showed frequent sequence variation from the reference genome, with greater than 90% of the rrs or rrl reads from many clinical samples having at least 1 sequence difference compared to the H37Rv reference genome. The data presented includes only bacterial sequences from patients with TB infections that were confirmed by the hospital pathology lab using acid-fast microscopy and/or GeneXpert analysis. The repeated, non-random nature of the sequence variations detected in Mtb rrs and rrl transcripts from multiple patients, suggests that, even though this appears to be a stochastic process, there is possibly some selective pressure that limits the types and locations of sequence variation allowed. The variation does not appear to be entirely artefactual, and it is hypothesized that it could represent an additional mechanism of adaptation to enhance bacterial fitness against host defenses or chemotherapy.
结核分枝杆菌(Mtb)仍然是全球人类健康的威胁,也是人类发病和死亡的重要原因。我们在此记录了在旨在扩增真核生物mRNA的文库中捕获的Mtb转录本。这些读数通常被认为是虚假的或令人讨厌的,很少被研究。由于早期文献表明Mtb RNA中可能存在多聚腺苷酸化转录本,我们在从巴布亚新几内亚莫尔斯比港总医院结核病诊所患者的细针穿刺抽吸样本中组装单细胞RNA测序文库时,纳入了H37Rv Mtb参考基因组。我们使用了10X基因组学单细胞RNA测序转录组学流程,该流程在约30微米的珠子上用多聚T引物启动mRNA扩增,这些珠子旨在捕获(在这种情况下)与临床样本中单个细胞相关的人类mRNA。利用10X基因组学细胞 ranger工具对测序读数进行比对,我们在细胞培养物和患者样本中一致检测到细菌小核糖体亚基RNA序列(rrs)和大核糖体亚基RNA序列(rrl)以及其他细菌基因转录本。我们将与宿主细胞独特分子标识符(UMI)和转录组相关的Mtb读数解释为表明该个体宿主细胞受到感染。检测到的Mtb转录本与参考基因组相比显示出频繁的序列变异,许多临床样本中超过90%的rrs或rrl读数与H37Rv参考基因组相比至少有1个序列差异。所呈现的数据仅包括经医院病理实验室使用抗酸显微镜检查和/或GeneXpert分析确诊为结核感染患者的细菌序列。在来自多名患者的Mtb rrs和rrl转录本中检测到的序列变异具有重复性、非随机性,这表明,尽管这似乎是一个随机过程,但可能存在一些选择压力限制了允许的序列变异类型和位置。这种变异似乎并非完全是人为造成的,据推测,它可能代表一种额外 的适应机制,以增强细菌对抗宿主防御或化疗的适应性。
