Microbiome dynamics during the HI-SEAS IV mission, and implications for future crewed missions beyond Earth

Mahnert, Alexander; Verseux, Cyprien; Schwendner, Petra; Koskinen, Kaisa; Kumpitsch, Christina; Blohs, Marcus; Wink, Lisa; Brunner, Daniela; Goessler, Theodora; Billi, Daniela; Moissl-Eichinger, Christine

doi:10.21203/rs.3.rs-44929/v2

Cited by 3 publications

(7 citation statements)

References 89 publications

(119 reference statements)

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“…The fastq data analysis was performed using QIIME2 (Bolyen et al, 2019) as described previously (Mahnert et al, 2020). After quality filtering, the DADA2 algorithm (Callahan et al, 2016) was used to denoise truncated reads and generate amplicon sequence variants (ASVs).…”

Section: Methodsmentioning

confidence: 99%

The indoor environment - a potential source for intact human-associated anaerobes

Păuşan

Blohs

Mahnert

et al. 2020

Preprint

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People in westernized countries spend most of their time indoors. As interaction and exchange of microbes between the human body and its environment is crucial for a healthy human microbiome, the built environment (BE) might represent a potent source for commensal microbes. Anaerobic microbes are especially of interest, as acquisition routes of oxygen-sensitive microbes such as obligate or facultative anaerobes to the human microbiome are not sufficiently clarified yet. We sampled a total of ten bathroom floors and used propidium monoazide (PMA) to assess the viability of the collected prokaryotes. Quantitative and qualitative analysis revealed that most of the microbial taxa are of human origin. Less than 25% of the prokaryotic signatures originate from intact - and thus potentially living - cells with an apparent survival advantage for aerobic and stress resistant taxa. Although the dominant microbial fraction identified on the bathroom floors are aerobes, we could verify could verify the presence of strictly anaerobic taxa - including methanogenic archaea - in PMA-treated samples, indicating a limited, but substantial capability of those taxa to survive in the BE. As methanogens are regarded as highly sensitive to aerobic conditions, oxygen tolerance experiments were performed with human-associated isolates to validate their survival. We could confirm that human-associated methanogens are capable of surviving oxic conditions for at least 6h. In conclusion, we collected strong evidence supporting the notion that obligate anaerobic taxa are capable of surviving in the BE for a limited amount of time and thus, making the BE a potential source of anaerobic human commensals.

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Section: Methodsmentioning

confidence: 99%

The indoor environment - a potential source for intact human-associated anaerobes

Păuşan

Blohs

Mahnert

et al. 2020

Preprint

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“…All necessary security and safety measurements need to be considered beforehand because any occurring mission improvements will have to happen on board, with all the limitations of space vehicles [ 2 ]. Such advances should focus on detection and control of microbes and microbial diversity on astronauts and spacecraft [ 7 ], as well as on monitoring of spacecraft water systems and ensuring the identification and counteract measures of any waterborne microbial contamination [ 3 ]. Linked to both of these aspects, some authors suggest microbiome manipulation as a way to guarantee and improve astronauts’ health [ 7 ].…”

Section: Introductionmentioning

confidence: 99%

“…Most microorganisms found in the ISS are normally perceived as not relevant nor causing disease; however, with long exposure to microgravity, the astronauts’ immune systems tend to be less responsive and might struggle to fight these microorganisms, which would then become pathogenic [ 3 ]. As an additional factor, the risk of becoming infected with a pathogenic microorganism is increased in confined spacecraft environments and with the close proximity of astronauts [ 7 , 11 , 12 ]. Further risks and restrictions include access to treatment options, drugs, and resources, as well as the ability to perform proper hygiene [ 7 ].…”

Section: Introductionmentioning

confidence: 99%

“…As an additional factor, the risk of becoming infected with a pathogenic microorganism is increased in confined spacecraft environments and with the close proximity of astronauts [ 7 , 11 , 12 ]. Further risks and restrictions include access to treatment options, drugs, and resources, as well as the ability to perform proper hygiene [ 7 ].…”

Section: Introductionmentioning

confidence: 99%

“…Another approach to fully understand the existing microbes and their dynamics, inside spacecrafts, on astronauts, and on anything going in or out of the spacecrafts, is the use of molecular biology and sequencing experiments. For this, swabbing of the surfaces and the astronauts’ bodies, over a defined period of time, followed with direct DNA extraction, or microbial isolation and DNA extraction, and sequencing for identification of the microbiomes is the most common method, which is what was done for example by Mahnert et al [ 7 ] and Sielaff et al [ 16 ]. Although frequently neglected, morphological and physiological characterization of the isolates also helps to understand any phenotypic changes after isolation and provides very important insights and material for further investigations.…”

Section: Introductionmentioning

confidence: 99%

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2021

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After a less dynamic period, space exploration is now booming. There has been a sharp increase in the number of current missions and also of those being planned for the near future. Microorganisms will be an inevitable component of these missions, mostly because they hitchhike, either attached to space technology, like spaceships or spacesuits, to organic matter and even to us (human microbiome), or to other life forms we carry on our missions. Basically, we never travel alone. Therefore, we need to have a clear understanding of how dangerous our “travel buddies” can be; given that, during space missions, our access to medical assistance and medical drugs will be very limited. Do we explore space together with pathogenic microorganisms? Do our hitchhikers adapt to the space conditions, as well as we do? Do they become pathogenic during that adaptation process? The current review intends to better clarify these questions in order to facilitate future activities in space. More technological advances are needed to guarantee the success of all missions and assure the reduction of any possible health and environmental risks for the astronauts and for the locations being explored.

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How the Immune System Deploys Creativity: Why We Can Learn From Astronauts and Cosmonauts

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In this interdisciplinary article, we investigate the relationship between creativity and the immune system; the creative features of the immune system and how the immune system and its role in regulating homeostasis might be related to creative cognition. We argue that within a multivariate approach of creativity, the immune system is a contributing factor. New directions for research are also discussed. When astronauts and cosmonauts venture into the new and extreme environment of outer space, their immune system needs to instantly adapt and find new answers to survive biologically and psychologically. Many astronauts report interest in creative activities and therefore represent an interesting group to investigate creativity in relation with the immune system. Little is known regarding (1) how the immune system interacts with and supports creative cognition and behavior, (2) if an individual’s immune system, interacting with cognition, adapts more originally to a new environment compared to another’s; in other words, if there is creativity in the domain of the immune system, and (3) the creative properties and functions of the immune system itself.

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Microbiome dynamics during the HI-SEAS IV mission, and implications for future crewed missions beyond Earth

Cited by 3 publications

References 89 publications

The indoor environment - a potential source for intact human-associated anaerobes

The indoor environment - a potential source for intact human-associated anaerobes

Microbial Pathogenicity in Space

How the Immune System Deploys Creativity: Why We Can Learn From Astronauts and Cosmonauts

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