Your search keyword '"Georgina Eden"' showing total 2 results

1. The composition of the gut microbiota following early-life antibiotic exposure affects host health and longevity in later life

Author

Miriam A. Lynn, Georgina Eden, Feargal J. Ryan, Julien Bensalem, Xuemin Wang, Stephen J. Blake, Jocelyn M. Choo, Yee Tee Chern, Anastasia Sribnaia, Jane James, Saoirse C. Benson, Lauren Sandeman, Jianling Xie, Sofia Hassiotis, Emily W. Sun, Alyce M. Martin, Marianne D. Keller, Damien J. Keating, Timothy J. Sargeant, Christopher G. Proud, Steve L. Wesselingh, Geraint B. Rogers, and David J. Lynn

Subjects

gut, microbiota, antibiotics, recolonization, metabolism, immunity, Biology (General), QH301-705.5

Abstract

Summary: Studies investigating whether there is a causative link between the gut microbiota and lifespan have largely been restricted to invertebrates or to mice with a reduced lifespan because of a genetic deficiency. We investigate the effect of early-life antibiotic exposure on otherwise healthy, normal chow-fed, wild-type mice, monitoring these mice for more than 700 days in comparison with untreated control mice. We demonstrate the emergence of two different low-diversity community types, post-antibiotic microbiota (PAM) I and PAM II, following antibiotic exposure. PAM II but not PAM I mice have impaired immunity, increased insulin resistance, and evidence of increased inflammaging in later life as well as a reduced lifespan. Our data suggest that differences in the composition of the gut microbiota following antibiotic exposure differentially affect host health and longevity in later life.

Published

2021

2. The composition of the gut microbiota following early-life antibiotic exposure affects host health and longevity in later life

Author

Yee Tee Chern, Sofia Hassiotis, Alyce M. Martin, Saoirse C. Benson, Christopher G. Proud, Lauren Y. Sandeman, Julien Bensalem, Timothy J. Sargeant, Anastasia Sribnaia, David J. Lynn, Feargal J. Ryan, Marianne D. Keller, Damien J. Keating, Emily W. Sun, Jane James, Jianling Xie, Xuemin Wang, Jocelyn M. Choo, Miriam A. Lynn, Georgina Eden, Steven Lodewyk Wesselingh, Stephen J. Blake, and Geraint B. Rogers

Subjects

medicine.drug_class, QH301-705.5, media_common.quotation_subject, Antibiotics, Longevity, Physiology, Gut flora, General Biochemistry, Genetics and Molecular Biology, antibiotics, Mice, Insulin resistance, Immunity, recolonization, medicine, microbiota, Animals, Biology (General), media_common, biology, Host (biology), Antibiotic exposure, biology.organism_classification, medicine.disease, immunity, Early life, Anti-Bacterial Agents, Gastrointestinal Microbiome, gut, metabolism

Abstract

Summary Studies investigating whether there is a causative link between the gut microbiota and lifespan have largely been restricted to invertebrates or to mice with a reduced lifespan because of a genetic deficiency. We investigate the effect of early-life antibiotic exposure on otherwise healthy, normal chow-fed, wild-type mice, monitoring these mice for more than 700 days in comparison with untreated control mice. We demonstrate the emergence of two different low-diversity community types, post-antibiotic microbiota (PAM) I and PAM II, following antibiotic exposure. PAM II but not PAM I mice have impaired immunity, increased insulin resistance, and evidence of increased inflammaging in later life as well as a reduced lifespan. Our data suggest that differences in the composition of the gut microbiota following antibiotic exposure differentially affect host health and longevity in later life.

Published

2020