General dynamics of the URT microbiome and microbial signs of recovery in COVID-19 patients
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Published:2017-01-01
Issue:2
Volume:15
Page:145-164
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ISSN:1876-2891
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Container-title:Beneficial Microbes
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language:
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Short-container-title:Benef. Microbes
Author:
Ignatyeva O.1ORCID, Gostev V.23ORCID, Taraskina A.1ORCID, Tsvetkova I.2ORCID, Pavlova P.24ORCID, Sulian O.2ORCID, Ageevets V.2ORCID, Likholetova D.2ORCID, Chulkova P.2ORCID, Nikitina E.2ORCID, Matkava L.1ORCID, Terekhov M.1ORCID, Lisovaya D.1, Kashtanova D.1ORCID, Ivanov M.1ORCID, Kalinogorskaya O.2ORCID, Avdeeva A.24, Zhirkov A.2ORCID, Goleva O.2ORCID, Zakharenko S.2ORCID, Zhdanov K.5ORCID, Strizheletsky V.4ORCID, Gomon Y.6ORCID, Kruglov A.7ORCID, Ni O.7ORCID, Noskova T.8, Gorbova I.8, Cherenkova G.8, Shlyk I.6ORCID, Afanasyev A.6, Yudin V.1ORCID, Makarov V.1ORCID, Sidorenko S.23ORCID, Yudin S.1ORCID
Affiliation:
1. Centre for Strategic Planning and Management of Biomedical Health Risks, Federal Biomedical Agency of Russia, 10/1 Pogodinskaya St., Moscow, 119121, Russian Federation 2. Pediatric Research and Clinical Centre for Infectious Diseases, Federal Biomedical Agency of Russia, 9 Professora Popova St., Saint Petersburg, 197022, Russian Federation 3. Mechnikov North-Western State Medical University, 41 Kirochnaya St., Saint Petersburg, 191015, Russian Federation 4. Saint-Petersburg State University, 7-9 Universitetskaya Naberezhnaya, Saint Petersburg, 199034, Russian Federation 5. Kirov Military Medical Academy, 6 Akademika Lebedeva St., Saint Petersburg, 194044, Russian Federation 6. Pavlov First Saint-Petersburg State Medical University, 6-8 Lva Tolstogo St., Saint Petersburg, 197022, Russian Federation 7. Moscow Multidisciplinary Clinical Centre ‘Kommunarka’, 8 Sosenskiy Stan, Kommunarka, Moscow, 142770, Russian Federation 8. Botkin Clinical Hospital of Infectious Diseases, 3 Mirgorodskaya St., Saint Petersburg, 191167, Russian Federation
Abstract
Abstract
COVID-19 is caused by an airborne virus, SARS-CoV-2. The upper respiratory tract (URT) is, therefore, the first system to endure the attack. Inhabited by an assemblage of microbial communities, a healthy URT wards off the invasion. However, once invaded, it becomes destabilised, which could be crucial to the establishment and progression of the infection. We examined 696 URT samples collected from 285 COVID-19 patients at three time-points throughout their hospital stay and 100 URT samples from 100 healthy controls. We used 16S ribosomal RNA sequencing to evaluate the abundance of various bacterial taxa, α-diversity, and β-diversity of the URT microbiome. Ordinary least squares regression was used to establish associations between the variables, with age, sex, and antibiotics as covariates. The URT microbiome in the COVID-19 patients was distinctively different from that of healthy controls. In COVID-19 patients, the abundance of 16 genera was significantly reduced. A total of 47 genera were specific to patients, whereas only 2 were unique to controls. The URT samples collected at admission differed more from the control than from the samples collected at later stages of treatment. The following four genera originally depleted in the patients grew significantly by the end of treatment: Fusobacterium, Haemophilus, Neisseria, and Stenotrophomonas. Our findings strongly suggest that SARS-CoV-2 caused significant changes in the URT microbiome, including the emergence of numerous atypical taxa. These findings may indicate increased instability of the URT microbiome in COVID-19 patients. In the course of the treatment, the microbial composition of the URT of COVID-19 patients tended toward that of controls. These microbial changes may be interpreted as markers of recovery.
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