Wilmer Eye Institute, Johns Hopkins University, Baltimore, MD, USA.
Center for Computational Biology, Johns Hopkins University, Baltimore, MD, USA.
F1000Res. 2021 Aug 17;10:820. doi: 10.12688/f1000research.55090.1. eCollection 2021.
: Metagenomic sequencing has the potential to identify a wide range of pathogens in human tissue samples. Sarcoidosis is a complex disorder whose etiology remains unknown and for which a variety of infectious causes have been hypothesized. We sought to conduct metagenomic sequencing on cases of ocular and periocular sarcoidosis, none of them with previously identified infectious causes. : Archival tissue specimens of 16 subjects with biopsies of ocular and periocular tissues that were positive for non-caseating granulomas were used as cases. Four archival tissue specimens that did not demonstrate non-caseating granulomas were also included as controls. Genomic DNA was extracted from tissue sections. DNA libraries were generated from the extracted genomic DNA and the libraries underwent next-generation sequencing. : We generated between 4.8 and 20.7 million reads for each of the 16 cases plus four control samples. For eight of the cases, we identified microbial pathogens that were present well above the background, with one potential pathogen identified for seven of the cases and two possible pathogens for one of the cases. Five of the eight cases were associated with bacteria ( and ), two cases with fungi ( ) and one case with a virus (Mupapillomavirus 1). Interestingly, four of the five bacterial species are also part of the human oral microbiome. : Using a metagenomic sequencing we identified possible infectious causes in half of the ocular and periocular sarcoidosis cases analyzed. Our findings support the proposition that sarcoidosis could be an etiologically heterogenous disease. Because these are previously banked samples, direct follow-up in the respective patients is impossible, but these results suggest that sequencing may be a valuable tool in better understanding the etiopathogenesis of sarcoidosis and in diagnosing and treating this disease.
: 宏基因组测序有可能在人体组织样本中鉴定出广泛的病原体。结节病是一种复杂的疾病,其病因尚不清楚,并且已经假设了多种感染性病因。我们试图对眼部和眼眶结节病的病例进行宏基因组测序,这些病例均没有先前确定的感染性病因。 : 作为病例,我们使用了 16 名眼部和眼眶组织活检呈非干酪样肉芽肿阳性的受试者的存档组织标本。还包括了 4 个未显示非干酪样肉芽肿的存档组织标本作为对照。从组织切片中提取基因组 DNA。从提取的基因组 DNA 生成 DNA 文库,并对文库进行下一代测序。 : 对于 16 个病例加 4 个对照样本,我们每个样本生成了 4.8 到 20.7 百万个读段。对于 8 个病例,我们鉴定出了存在于背景之上的微生物病原体,其中 7 个病例鉴定出了一种潜在病原体,1 个病例鉴定出了两种可能的病原体。8 个病例中有 5 个与细菌( 和 )有关,2 个与真菌( )有关,1 个与病毒(Mupapillomavirus 1)有关。有趣的是,这 5 个细菌物种中有 4 个也是人类口腔微生物组的一部分。 : 通过宏基因组测序,我们在分析的眼部和眼眶结节病病例中发现了一半可能的感染原因。我们的研究结果支持了结节病可能是一种病因异质性疾病的观点。由于这些是先前储存的样本,无法对各自的患者进行直接随访,但这些结果表明,测序可能是更好地了解结节病的病因发病机制以及诊断和治疗这种疾病的有价值的工具。
