Geographical variation in the incidence of colorectal cancer and urinary tract cancer is associated with population exposure to colibactin-producing Escherichia coli.

Biomedical research has implicated the bacterial metabolite colibactin as a causal risk factor for several cancer types, in particular, colorectal cancer. Colibactin has been known to drive tumorigenesis by inducing double-strand breaks in the DNA of epithelial cells exposed to colibactin-producing bacteria. Some phylogroup B2 Escherichia coli secrete colibactin during interbacterial warfare, concomitantly exposing the host to an increasing risk of DNA damage.

Gut Microbiome in Human Melioidosis: Composition and Resistome Dynamics from Diagnosis to Discovery.

Background: Melioidosis, attributable to the soil-dwelling bacterium , stands as a paramount global health challenge, necessitating extended courses of antibiotics. While murine studies identified the gut microbiota as a modulator of bacterial dissemination during melioidosis, the human intestinal microbiota during melioidosis remains uncharacterized. Here, we characterized gut microbiota composition and antimicrobial resistance (AMR) genes at diagnosis, during treatment, and postdischarge for melioidosis.

Primary succession of Bifidobacteria drives pathogen resistance in neonatal microbiota assembly.

Human microbiota assembly commences at birth, seeded by both maternal and environmental microorganisms. Ecological theory postulates that primary colonizers dictate microbial community assembly outcomes, yet such microbial priority effects in the human gut remain underexplored. Here using longitudinal faecal metagenomics, we characterized neonatal microbiota assembly for a cohort of 1,288 neonates from the UK.