Interactions between commensal intestinal bacteria and fungi are collectively beneficial in maintaining the balance of the gut microflora and preventing gastrointestinal diseases. However, the contributions of specific bacterial species in response to fungal dysbiosis in the gut remain poorly defined. Here, to understand the dynamic changes, we established acute a challenge with Candida albicans in mice treated without antibiotics and analyzed the changes in the diversity of bacteria during the imbalance in intestinal C. albicans with high-throughput amplicon sequencing. Our results showed significant increases in species diversity after the first day of fungal challenge and the restoration of balance among the gut microflora on the third day of challenge. To explore the interactions between the intestinal bacteria and C. albicans, the antifungal activities of bacteria isolated from the mouse feces were also determined. Nineteen aerobic bacteria with antifungal activity were identified with whole 16S rRNA gene sequencing. These bacteria were isolated on the first day of challenge more than on the third day. These results suggested that the commensal intestinal bacteria may protect the host against fungal dysbiosis in the gut by altering their own species diversity. The interaction between bacteria and fungi in the gut may be the key to maintaining the dynamic balance of microorganisms in the context of environmental changes.
Keywords: Candida albicans; Gastrointestinal challenge; Gut bacteria; Interaction.
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