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Literature DB >> 25421702

Host-microorganism interactions in lung diseases.

Benjamin J Marsland¹, Eva S Gollwitzer¹.

Abstract

Until recently, the airways were thought to be sterile unless infected; however, a shift towards molecular methods for the quantification and sequencing of bacterial DNA has revealed that the airways harbour a unique steady-state microbiota. This paradigm shift is changing the way that respiratory research is approached, with a clear need now to consider the effects of host-microorganism interactions in both healthy and diseased lungs. We propose that akin to recent discoveries in intestinal research, dysbiosis of the airway microbiota could underlie susceptibility to, and progression and chronicity of lung disease. In this Opinion article, we summarize current knowledge of the airway microbiota and outline how host-microorganism interactions in the lungs and other tissues might influence respiratory health and disease.

Entities: Disease

Mesh：

Year: 2014 PMID： 25421702 DOI： 10.1038/nri3769

Source DB: PubMed Journal: Nat Rev Immunol ISSN： 1474-1733 Impact factor: 53.106

89 in total

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Journal: Nature Date: 2012-09-26 Impact factor: 49.962

5. Gut microbiota metabolism of dietary fiber influences allergic airway disease and hematopoiesis.

Authors: Aurélien Trompette; Eva S Gollwitzer; Koshika Yadava; Anke K Sichelstiel; Norbert Sprenger; Catherine Ngom-Bru; Carine Blanchard; Tobias Junt; Laurent P Nicod; Nicola L Harris; Benjamin J Marsland
Journal: Nat Med Date: 2014-01-05 Impact factor: 53.440

6. Delivery mode shapes the acquisition and structure of the initial microbiota across multiple body habitats in newborns.

Authors: Maria G Dominguez-Bello; Elizabeth K Costello; Monica Contreras; Magda Magris; Glida Hidalgo; Noah Fierer; Rob Knight
Journal: Proc Natl Acad Sci U S A Date: 2010-06-21 Impact factor: 11.205

7. Molecular fingerprinting of the fecal microbiota of children raised according to different lifestyles.

Authors: Johan Dicksved; Helen Flöistrup; Anna Bergström; Magnus Rosenquist; Göran Pershagen; Annika Scheynius; Stefan Roos; Johan S Alm; Lars Engstrand; Charlotte Braun-Fahrländer; Erika von Mutius; Janet K Jansson
Journal: Appl Environ Microbiol Date: 2007-02-09 Impact factor: 4.792

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Authors: Eva S Gollwitzer; Benjamin J Marsland
Journal: Pharmacol Ther Date: 2013-08-19 Impact factor: 12.310

9. Partitioning core and satellite taxa from within cystic fibrosis lung bacterial communities.

Authors: Christopher J van der Gast; Alan W Walker; Franziska A Stressmann; Geraint B Rogers; Paul Scott; Thomas W Daniels; Mary P Carroll; Julian Parkhill; Kenneth D Bruce
Journal: ISME J Date: 2010-12-09 Impact factor: 10.302

10. Modulation of post-antibiotic bacterial community reassembly and host response by Candida albicans.

Authors: John R Erb Downward; Nicole R Falkowski; Katie L Mason; Ryan Muraglia; Gary B Huffnagle
Journal: Sci Rep Date: 2013 Impact factor: 4.379

125 in total

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2. Development of a new real-time PCR system for simultaneous detection of bacteria and fungi in pathological samples.

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Review 3. Obesity and asthma.

Authors: Ubong Peters; Anne E Dixon; Erick Forno
Journal: J Allergy Clin Immunol Date: 2018-04 Impact factor: 10.793

Review 4. Lungs, microbes and the developing neonate.

Authors: Barbara B Warner; Aaron Hamvas
Journal: Neonatology Date: 2015-06-05 Impact factor: 4.035

5. Lung microbiomes: new frontiers?

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Journal: Am J Respir Crit Care Med Date: 2015-04-15 Impact factor: 21.405

6. Commensal Microbiota Promote Lung Cancer Development via γδ T Cells.

Authors: Chengcheng Jin; Georgia K Lagoudas; Chen Zhao; Susan Bullman; Arjun Bhutkar; Bo Hu; Samuel Ameh; Demi Sandel; Xu Sue Liang; Sarah Mazzilli; Mark T Whary; Matthew Meyerson; Ronald Germain; Paul C Blainey; James G Fox; Tyler Jacks
Journal: Cell Date: 2019-01-31 Impact factor: 41.582