Center for Medicine and the Microbiome, University of Pittsburgh School of Medicine, Pittsburgh, PA, United States.
Division of Pulmonary, Allergy and Critical Care Medicine, Department of Medicine, University of Pittsburgh School of Medicine and University of Pittsburgh Medical Center, Pittsburgh, PA, United States.
Front Cell Infect Microbiol. 2022 Sep 9;12:966361. doi: 10.3389/fcimb.2022.966361. eCollection 2022.
Imposition of social and health behavior mitigations are important control measures in response to the coronavirus disease 2019 (COVID-19) pandemic caused by the Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2). Although postulated that these measures may impact the human microbiota including losses in diversity from heightened hygiene and social distancing measures, this hypothesis remains to be tested. Other impacts on the microbiota and host mental and physical health status associations from these measures are also not well-studied. Here we examine changes in stool and oral microbiota by analyzing 16S rRNA gene sequence taxonomic profiles from the same individuals during pre-pandemic (before March 2020) and early pandemic (May-November 2020) phases. During the early pandemic phase, individuals were also surveyed using questionnaires to report health histories, anxiety, depression, sleep and other lifestyle behaviors in a cohort of predominantly Caucasian adults (mean age = 61.5 years) with the majority reporting at least one underlying co-morbidity. We identified changes in microbiota (stool n = 288; oral n = 89) between pre-pandemic and early pandemic time points from the same subject and associated these differences with questionnaire responses using linear statistical models and hierarchical clustering of microbiota composition coupled to logistic regression. While a trend in loss of diversity was identified between pre-pandemic and early pandemic time points it was not statistically significant. Paired difference analyses between individuals identified fewer significant changes between pre-pandemic and early pandemic microbiota in those who reported fewer comorbidities. Cluster transition analyses of stool and saliva microbiota determined most individuals remained in the same cluster assignments from the pre-pandemic to early pandemic period. Individuals with microbiota that shifted in composition, causing them to depart a pre-pandemic cluster, reported more health issues and pandemic-associated worries. Collectively, our study identified that stool and saliva microbiota from the pre-pandemic to early pandemic periods largely exhibited ecological stability (especially stool microbiota) with most associations in loss of diversity or changes in composition related to more reported health issues and pandemic-associated worries. Longitudinal observational cohorts are necessary to monitor the microbiome in response to pandemics and changes in public health measures.
社会和健康行为缓解措施的实施是应对由严重急性呼吸系统综合症冠状病毒 2 型(SARS-CoV-2)引起的 2019 年冠状病毒病(COVID-19)大流行的重要控制措施。尽管有人假设这些措施可能会影响人类微生物群,包括由于高度卫生和社会隔离措施而导致多样性丧失,但这一假设仍有待验证。这些措施对微生物群以及宿主心理和身体健康状况的其他影响也尚未得到充分研究。在这里,我们通过分析同一人群在大流行前(2020 年 3 月之前)和大流行早期(2020 年 5 月至 11 月)阶段的 16S rRNA 基因序列分类群图谱,检查粪便和口腔微生物群的变化。在大流行早期阶段,还通过问卷调查来检查个体的健康史、焦虑、抑郁、睡眠和其他生活方式行为,该队列主要由白种成年人组成(平均年龄= 61.5 岁),大多数人报告至少有一种潜在的合并症。我们确定了同一主体在大流行前和大流行早期时间点之间的微生物群(粪便 n = 288;口腔 n = 89)的变化,并使用线性统计模型和与逻辑回归相关联的微生物群组成的层次聚类,将这些差异与问卷应答相关联。虽然在大流行前和大流行早期时间点之间观察到多样性丧失的趋势,但这并不具有统计学意义。在报告合并症较少的个体中,个体之间的配对差异分析确定了在大流行前和大流行早期微生物群之间的变化较少。粪便和唾液微生物群的聚类过渡分析确定,大多数个体在大流行前到早期的时间内仍保持相同的聚类分配。微生物群组成发生变化的个体,使其脱离大流行前的聚类,报告了更多的健康问题和与大流行相关的担忧。总的来说,我们的研究表明,大流行前和大流行早期的粪便和唾液微生物群主要表现出生态稳定性(尤其是粪便微生物群),与更多报告的健康问题和与大流行相关的担忧相关的多样性丧失或组成变化的大多数关联。需要进行纵向观察队列研究,以监测大流行期间和公共卫生措施变化对微生物组的影响。
