Cyclic di-GMP as an Antitoxin Regulates Bacterial Genome Stability and Antibiotic Persistence in Biofilms

Author:

Liao Hebin123,Yan Xiaodan12,Wang Chenyi12,Huang Chun12,Zhang Wei12,Xiao Leyi12,Jiang Jun4,Bao Yongjia4,Huang Tao4,Zhang Hanbo4,Guo Chunming4,Zhang Yufeng125ORCID,Pu Yingying126ORCID

Affiliation:

1. The State Key Laboratory Breeding Base of Basic Science of Stomatology & Key Laboratory of Oral Biomedicine Ministry of Education, School & Hospital of Stomatology, Medical Research Institute, Wuhan University

2. Frontier Science Center for Immunology and Metabolism, Wuhan University

3. Translational Medicine Research Center, North Sichuan Medical College

4. Center for Life Sciences, School of Life Sciences, Yunnan University

5. Taikang Center for Life and Medical Sciences, Wuhan University

6. Department of Immunology, Hubei Province Key Laboratory of Allergy and Immunology, State Key Laboratory of Virology and Medical Research Institute, Wuhan University School of Basic Medical Sciences

Abstract

Biofilms are complex bacterial communities characterized by a high persister prevalence, which contributes to chronic and relapsing infections. Historically, persister formation in biofilms has been linked to constraints imposed by their dense structures. However, we observed an elevated persister frequency accompanying the stage of cell adhesion, marking the onset of biofilm development. Subsequent mechanistic studies uncovered a comparable type of toxin-antitoxin (TA) module (TA-like system) triggered by cell adhesion, which is responsible for this elevation. In this module, the toxin HipH acts as a genotoxic deoxyribonuclease, inducing DNA double strand breaks and genome instability. While the second messenger c-di-GMP functions as the antitoxin, exerting control over HipH expression and activity. The dynamic interplay between c-di-GMP and HipH levels emerges as a crucial determinant governing genome stability and persister generation within biofilms. These findings unveil a unique TA system, where small molecules act as the antitoxin, outlining a biofilm-specific molecular mechanism influencing genome stability and antibiotic persistence, with potential implications for treating biofilm infections.

Publisher

eLife Sciences Publications, Ltd

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