Biodiversity intervention enhances immune regulation and health-associated commensal microbiota among daycare children
Jazyk angličtina Země Spojené státy americké Médium electronic-print
Typ dokumentu klinické zkoušky, časopisecké články, práce podpořená grantem
PubMed
33055153
PubMed Central
PMC7556828
DOI
10.1126/sciadv.aba2578
PII: 6/42/eaba2578
Knihovny.cz E-zdroje
- MeSH
- biodiverzita MeSH
- dítě MeSH
- kůže MeSH
- lidé MeSH
- mikrobiota * MeSH
- střevní mikroflóra * MeSH
- zařízení denní péče pro děti MeSH
- Check Tag
- dítě MeSH
- lidé MeSH
- Publikační typ
- časopisecké články MeSH
- klinické zkoušky MeSH
- práce podpořená grantem MeSH
As the incidence of immune-mediated diseases has increased rapidly in developed societies, there is an unmet need for novel prophylactic practices to fight against these maladies. This study is the first human intervention trial in which urban environmental biodiversity was manipulated to examine its effects on the commensal microbiome and immunoregulation in children. We analyzed changes in the skin and gut microbiota and blood immune markers of children during a 28-day biodiversity intervention. Children in standard urban and nature-oriented daycare centers were analyzed for comparison. The intervention diversified both the environmental and skin Gammaproteobacterial communities, which, in turn, were associated with increases in plasma TGF-β1 levels and the proportion of regulatory T cells. The plasma IL-10:IL-17A ratio increased among intervention children during the trial. Our findings suggest that biodiversity intervention enhances immunoregulatory pathways and provide an incentive for future prophylactic approaches to reduce the risk of immune-mediated diseases in urban societies.
Eastern Finland Laboratory Centre Kuopio Finland
Faculty of Built Environment Tampere University Korkeakoulunkatu 5 FI 33720 Tampere Finland
Natural Resources Institute Finland Luke Itäinen Pitkäkatu 4A 20520 Turku Finland
Zobrazit více v PubMed
Stein M. M., Hrusch C. L., Gozdz J., Igartua C., Pivniouk V., Murray S. E., Ledford J. G., Marques dos Santos M., Anderson R. L., Metwali N., Neilson J. W., Maier R. M., Gilbert J. A., Holbreich M., Thorne P. S., Martinez F. D., von Mutius E., Vercelli D., Ober C., Sperling A. I., Innate immunity and asthma risk in Amish and Hutterite farm children. N. Engl. J. Med. 375, 411–421 (2016). PubMed PMC
Kondrashova A., Seiskari T., Ilonen J., Knip M., Hyöty H., The “Hygiene hypothesis” and the sharp gradient in the incidence of autoimmune and allergic diseases between Russian Karelia and Finland. Apmis 121, 478–493 (2013). PubMed
Haahtela T., A biodiversity hypothesis. Allergy Eur. J. Allergy Clin. Immunol., 1445–1456 (2019). PubMed
Hanski I., von Hertzen L., Fyhrquist N., Koskinen K., Torppa K., Laatikainen T., Karisola P., Auvinen P., Paulin L., Makela M. J., Vartiainen E., Kosunen T. U., Alenius H., Haahtela T., Environmental biodiversity, human microbiota, and allergy are interrelated. Proc. Natl. Acad. Sci. U.S.A. 109, 8334–8339 (2012). PubMed PMC
Parajuli A., Grönroos M., Siter N., Puhakka R., Vari H. K., Roslund M. I., Jumpponen A., Nurminen N., Laitinen O. H., Hyöty H., Rajaniemi J., Sinkkonen A., Urbanization reduces transfer of diverse environmental microbiota indoors. Front. Microbiol. 9, 84 (2018). PubMed PMC
Hui N., Parajuli A., Puhakka R., Grönroos M., Roslund M. I., Vari H. K., Selonen V. A. O., Yan G., Siter N., Nurminen N., Oikarinen S., Laitinen O. H., Rajaniemi J., Hyöty H., Sinkkonen A., Temporal variation in indoor transfer of dirt-associated environmental bacteria in agricultural and urban areas. Environ. Int. 132, 105069 (2019). PubMed
Noverr M. C., Huffnagle G. B., The “Microflora Hypothesis” of allergic disease. Adv. Exp. Med. Biol. 635, 113–134 (2008). PubMed
Graham-Rowe D., Lifestyle: When allergies go west. Nature 479, S2–S4 (2011). PubMed
Parajuli A., Grönroos M., Kauppi S., Płociniczak T., Roslund M. I., Galitskaya P., Laitinen O. H., Hyöty H., Jumpponen A., Strömmer R., Romantschuk M., Hui N., Sinkkonen A., The abundance of health-associated bacteria is altered in PAH polluted soils—Implications for health in urban areas? PLOS ONE 12, e0187852 (2017). PubMed PMC
Roslund M. I., Grönroos M., Rantalainen A.-L., Jumpponen A., Romantschuk M., Parajuli A., Hyöty H., Laitinen O., Sinkkonen A., Half-lives of PAHs and temporal microbiota changes in commonly used urban landscaping materials. PeerJ 6, e4508 (2018). PubMed PMC
Roslund M. I., Rantala S., Oikarinen S., Puhakka R., Hui N., Parajuli A., Laitinen O. H., Hyöty H., Rantalainen A.-L., Sinkkonen A., Grönroos M., Hui N., Kalvo R., Nurminen N., Oikarinen S., Parajuli A., Puhakka R., Rantala S., Roslund M. I., Soininen L., Yan G., Laitinen O. H., Rajaniemi J., Hyöty H., Sinkkonen A., Endocrine disruption and commensal bacteria alteration associated with gaseous and soil PAH contamination among daycare children. Environ. Int. 130, 104894 (2019). PubMed
Ruokolainen L., Von Hertzen L., Fyhrquist N., Laatikainen T., Lehtomäki J., Auvinen P., Karvonen A. M., Hyvärinen A., Tillmann V., Niemelä O., Knip M., Haahtela T., Pekkanen J., Hanski I., Green areas around homes reduce atopic sensitization in children. Allergy Eur. J. Allergy Clin. Immunol. 70, 195–202 (2015). PubMed PMC
Sokol H., Pigneur B., Watterlot L., Lakhdari O., Bermúdez-Humarán L. G., Gratadoux J.-J., Blugeon S., Bridonneau C., Furet J.-P., Corthier G., Grangette C., Vasquez N., Pochart P., Trugnan G., Thomas G., Blottière H. M., Doré J., Marteau P., Seksik P., Langella P., Faecalibacterium prausnitzii is an anti-inflammatory commensal bacterium identified by gut microbiota analysis of Crohn disease patients. Proc. Natl. Acad. Sci. U.S.A. 105, 16731–16736 (2008). PubMed PMC
Flandroy L., Poutahidis T., Berg G., Clarke G., Dao M. C., Decaestecker E., Furman E., Haahtela T., Massart S., Plovier H., Sanz Y., Rook G., The impact of human activities and lifestyles on the interlinked microbiota and health of humans and of ecosystems. Sci. Total Environ. 627, 1018–1038 (2018). PubMed
Stokholm J., Blaser M. J., Thorsen J., Rasmussen M. A., Waage J., Vinding R. K., Schoos A. M. M., Kunøe A., Fink N. R., Chawes B. L., Bønnelykke K., Brejnrod A. D., Mortensen M. S., Al-Soud W. A., Sørensen S. J., Bisgaard H., Maturation of the gut microbiome and risk of asthma in childhood. Nat. Commun. 9, 141 (2018). PubMed PMC
Huttenhower C., Gevers D., Knight R., Abubucker S., Badger J. H., Chinwalla A. T., Creasy H. H., Earl A. M., Fitzgerald M. G., Fulton R. S., Giglio M. G., Hallsworth-Pepin K., Lobos E. A., Madupu R., Magrini V., Martin J. C., Mitreva M., Muzny D. M., Sodergren E. J., Versalovic J., Wollam A. M., Worley K. C., Wortman J. R., Young S. K., Zeng Q., Aagaard K. M., Abolude O. O., Allen-Vercoe E., Alm E. J., Alvarado L., Andersen G. L., Anderson S., Appelbaum E., Arachchi H. M., Armitage G., Arze C. A., Ayvaz T., Baker C. C., Begg L., Belachew T., Bhonagiri V., Bihan M., Blaser M. J., Bloom T., Bonazzi V., Brooks J. P., Buck G. A., Buhay C. J., Busam D. A., Campbell J. L., Canon S. R., Cantarel B. L., Chain P. S. G., Chen I. M. A., Chen L., Chhibba S., Chu K., Ciulla D. M., Clemente J. C., Clifton S. W., Conlan S., Crabtree J., Cutting M. A., Davidovics N. J., Davis C. C., Desantis T. Z., Deal C., Delehaunty K. D., Dewhirst F. E., Deych E., Ding Y., Dooling D. J., Dugan S. P., Dunne W. M., Scott Durkin A., Edgar R. C., Erlich R. L., Farmer C. N., Farrell R. M., Faust K., Feldgarden M., Felix V. M., Fisher S., Fodor A. A., Forney L. J., Foster L., Di Francesco V., Friedman J., Friedrich D. C., Fronick C. C., Fulton L. L., Gao H., Garcia N., Giannoukos G., Giblin C., Giovanni M. Y., Goldberg J. M., Goll J., Gonzalez A., Griggs A., Gujja S., Kinder Haake S., Haas B. J., Hamilton H. A., Harris E. L., Hepburn T. A., Herter B., Hoffmann D. E., Holder M. E., Howarth C., Huang K. H., Huse S. M., Izard J., Jansson J. K., Jiang H., Jordan C., Joshi V., Katancik J. A., Keitel W. A., Kelley S. T., Kells C., King N. B., Knights D., Kong H. H., Koren O., Koren S., Kota K. C., Kovar C. L., Kyrpides N. C., La Rosa P. S., Lee S. L., Lemon K. P., Lennon N., Lewis C. M., Lewis L., Ley R. E., Li K., Liolios K., Liu B., Liu Y., Lo C. C., Lozupone C. A., Lunsford R. D., Madden T., Mahurkar A. A., Mannon P. J., Mardis E. R., Markowitz V. M., Mavromatis K., McCorrison J. M., McDonald D., McEwen J., McGuire A. L., McInnes P., Mehta T., Mihindukulasuriya K. A., Miller J. R., Minx P. J., Newsham I., Nusbaum C., Oglaughlin M., Orvis J., Pagani I., Palaniappan K., Patel S. M., Pearson M., Peterson J., Podar M., Pohl C., Pollard K. S., Pop M., Priest M. E., Proctor L. M., Qin X., Raes J., Ravel J., Reid J. G., Rho M., Rhodes R., Riehle K. P., Rivera M. C., Rodriguez-Mueller B., Rogers Y. H., Ross M. C., Russ C., Sanka R. K., Sankar P., Sathirapongsasuti J. F., Schloss J. A., Schloss P. D., Schmidt T. M., Scholz M., Schriml L., Schubert A. M., Segata N., Segre J. A., Shannon W. D., Sharp R. R., Sharpton T. J., Shenoy N., Sheth N. U., Simone G. A., Singh I., Smillie C. S., Sobel J. D., Sommer D. D., Spicer P., Sutton G. G., Sykes S. M., Tabbaa D. G., Thiagarajan M., Tomlinson C. M., Torralba M., Treangen T. J., Truty R. M., Vishnivetskaya T. A., Walker J., Wang L., Wang Z., Ward D. V., Warren W., Watson M. A., Wellington C., Wetterstrand K. A., White J. R., Wilczek-Boney K., Wu Y., Wylie K. M., Wylie T., Yandava C., Ye L., Ye Y., Yooseph S., Youmans B. P., Zhang L., Zhou Y., Zhu Y., Zoloth L., Zucker J. D., Birren B. W., Gibbs R. A., Highlander S. K., Methé B. A., Nelson K. E., Petrosino J. F., Weinstock G. M., Wilson R. K., White O., Structure, function and diversity of the healthy human microbiome. Nature 486, 207–214 (2012). PubMed PMC
Parajuli A., Hui N., Puhakka R., Oikarinen S., Grönroos M., Selonen V. A. O., Siter N., Kramna L., Roslund M. I., Vari H. K., Nurminen N., Honkanen H., Hintikka J., Sarkkinen H., Romantschuk M., Kauppi M., Valve R., Činek O., Laitinen O. H., Rajaniemi J., Hyöty H., Sinkkonen A., Yard vegetation is associated with gut microbiota composition. Sci. Total Environ. 713, 136707 (2020). PubMed
Lehtimäki J., Karkman A., Laatikainen T., Paalanen L., Von Hertzen L., Haahtela T., Hanski I., Ruokolainen L., Patterns in the skin microbiota differ in children and teenagers between rural and urban environments. Sci. Rep. 7, 1–11 (2017). PubMed PMC
Grönroos M., Parajuli A., Laitinen O. H., Roslund M. I., Vari H. K., Hyöty H., Puhakka R., Sinkkonen A., Short-term direct contact with soil and plant materials leads to an immediate increase in diversity of skin microbiota. Microbiology 8, e00645 (2019). PubMed PMC
Nurminen N., Lin J., Grönroos M., Puhakka R., Kramna L., Vari H. K., Viskari H., Oikarinen S., Roslund M., Parajuli A., Tyni I., Cinek O., Laitinen O., Hyöty H., Sinkkonen A., Nature-derived microbiota exposure as a novel immunomodulatory approach. Future Microbiol. 13, 737–744 (2018). PubMed
Thompson L., Sanders J. G., Donald D. M., Amir A., Ladau J., Locey K. J., Prill R. J., Tripathi A., Gibbons S. M., Ackermann G., Navas-Molina J. A., Janssen S., Kopylova E., Vázquez-Baeza Y., González A., Morton J. T., Mirarab S., Xu Z. Z., Jiang L., Haroon M. F., Kanbar J., Zhu Q., Song S. J., Kosciolek T., Bokulich N. A., Lefler J., Brislawn C. J., Humphrey G., Owens S. M., Hampton-Marcell J., Berg-Lyons D., Kenzie V. M., Fierer N., Fuhrman J. A., Clauset A., Stevens R. L., Shade A., Pollard K. S., Goodwin K. D., Jansson J. K., Gilbert J. A., Knight R.; The Earth Microbiome Project Consortium , A communal catalogue reveals Earth’s multiscale microbial diversity. Nature 551, 457–463 (2017). PubMed PMC
Opal S. M., DePalo V. A., Anti-inflammatory cytokines. Chest 117, 1162–1172 (2000). PubMed
Honkanen J., Nieminen J. K., Gao R., Luopajarvi K., Salo H. M., Ilonen J., Knip M., Otonkoski T., Vaarala O., IL-17 immunity in human type 1 diabetes. J. Immunol. 185, 1959–1967 (2010). PubMed
Jin W., Dong C., IL-17 cytokines in immunity and inflammation. Emerg. Microbes Infect. 2, e60 (2013). PubMed PMC
Vignali D. A. A., Collison L. W., Workman C. J., How regulatory T cells work. Nat. Rev. Immunol. 8, 523–532 (2008). PubMed PMC
Puhakka R., Rantala O., Roslund M. I., Rajaniemi J., Laitinen O. H., Sinkkonen A., Greening of daycare yards with biodiverse materials affords well-being, play and environmental relationships. IJERPH 16, 1–16 (2019). PubMed PMC
Walsh J., Griffin B. T., Clarke G., Hyland N. P., Drug–gut microbiota interactions: Implications for neuropharmacology. Br. J. Pharmacol. 175, 4415–4429 (2018). PubMed PMC
United Nations, World Urbanization Prospects: The 2018 Revision (UNDESA, 2018).
Heyman P., Cochez C., Hofhuis A., Van Der Giessen J., Sprong H., Porter S. R., Losson B., Saegerman C., Donoso-Mantke O., Niedrig M., Papa A., A clear and present danger: Tick-borne diseases in Europe. Expert Rev. Anti Infect. Ther. 8, 33–50 (2010). PubMed
West C. E., Rydén P., Lundin D., Engstrand L., Tulic M. K., Prescott S. L., Gut microbiome and innate immune response patterns in IgE-associated eczema. Clin. Exp. Allergy 45, 1419–1429 (2015). PubMed
Suez J., Zmora N., Zilberman-schapira G., Halpern Z., Segal E., Elinav E., Post-antibiotic gut mucosal microbiome reconstitution is impaired by probiotics and improved by autologous FMT. Cell 174, 1406–1423.e16 (2018). PubMed
Mennini M., Dahdah L., Artesani M. C., Fiocchi A., Martelli A., Probiotics in asthma and allergy prevention. Front. Pediatr. 5, 165 (2017). PubMed PMC
Kawai T., Akira S., The role of pattern-recognition receptors in innate immunity: Update on Toll-like receptors. Nat. Immunol. 11, 373–384 (2010). PubMed
Nakatsuji T., Chiang H., Jiang S. B., Nagarajan H., Zengler K., Gallo R. L., The microbiome extends to subepidermal compartments of normal skin. Nat. Commun. 4, 1431 (2013). PubMed PMC
An S., Couteau C., Luo F., Neveu J., DuBow M. S., Bacterial diversity of surface sand samples from the gobi and taklamaken deserts. Microb. Ecol. 66, 850–860 (2013). PubMed
Hui N., Grönroos M., Roslund M. I., Parajuli A., Vari H. K., Soininen L., Laitinen O. H., Sinkkonen A.; The ADELE Research Group , Diverse environmental microbiota as a tool to augment biodiversity in urban landscaping materials. Front. Microbiol. 10, 536 (2019). PubMed PMC
Schloss P. D., Westcott S. L., Ryabin T., Hall J. R., Hartmann M., Hollister E. B., Lesniewski R. A., Oakley B. B., Parks D. H., Robinson C. J., Sahl J. W., Stres B., Thallinger G. G., Van Horn D. J., Weber C. F., Introducing mothur: Open-Source, platform-independent, community-supported software for describing and comparing microbial communities. Appl. Environ. Microbiol. 75, 7537–7541 (2009). PubMed PMC
Viisanen T., Gazali A. M., Ihantola E. L., Ekman I., Näntö-Salonen K., Veijola R., Toppari J., Knip M., Ilonen J., Kinnunen T., FOXP3+ regulatory T cell compartment is altered in children with newly diagnosed type 1 diabetes but not in autoantibody-positive at-risk children. Front. Immunol. 10, 19 (2019). PubMed PMC
R Core Development Team, R: A Language and Environment for Statistical Computing (R Foundation for Statistical Computing, 2018); http://www.r-project.org.
J. Oksanen, F. G. Blanchet, R. Kindt, P. Legendre, P. R. Minchin, R. B. O’Hara, G. L. Simpson, P. Solymos, M. H. M. Stevens, H. Wagner, Package “vegan”: Community ecology package (2019); http://vegan.r-forge.r-project.org/.
Skin exposure to soil microbiota elicits changes in cell-mediated immunity to pneumococcal vaccine
Skin, gut, and sand metagenomic data on placebo-controlled sandbox biodiversity intervention study
