Cyclic AMP is a global virulence regulator governing inter and intrabacterial signalling in Acinetobacter baumannii
Cyclic AMP is a global virulence regulator governing inter and intrabacterial signalling in Acinetobacter baumannii
Acinetobacter baumannii is an opportunistic nosocomial pathogen with high morbidity and mortality rates. Current treatment options for this pathogen are limited due to its increasing resistance to last-resort antibiotics. Despite A. baumannii’s leading position in the World Health Organisations priority pathogens list, little is known about its virulence regulation. Through a high-throughput screening approach to identify novel biofilm regulators, we identified a previously uncharacterised predicted adenylate cyclase (AC), CavA, as a central regulator of this phenotype. cAMP is a crucial mediator of various aspects of bacterial physiology in other species but information about its role in A. baumannii is limited. We confirm that CavA AC is functional and synthesizes cAMP in A. baumannii. Using dRNA-seq, we verify that CavA is a negative biofilm formation regulator affecting Csu pili and exopolysaccharide production. We demonstrate for the first time that in A. baumannii, cAMP is atop of a hierarchical signalling cascade controlling inter- and intrabacterial signalling by modulating quorum sensing and cyclic di-GMP systems, ultimately governing virulence in vivo and adaptive antibiotic resistance. In contrast to the well-established paradigm in other bacteria where cAMP and cyclic di-GMP levels are inversely regulated, we uncover that the levels of these second messengers are directly proportional in A. baumannii. Overall, this study uncovers the central role of CavA and cAMP in the pathogenic success of A. baumannii and highlights this signalling cascade as a high potential target for novel therapeutic development.
Harkova, Lyuboslava G.
9a8a31cf-1ced-4f40-b38a-df94e23bd767
de Dios, Rubén
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Rubio-Valle, Alejandro
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Pérez-Pulido, Antonio J.
befddd23-86f9-4235-b600-fd94ec89a599
McCarthy, Ronan R.
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Feldman, Mario F.
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6 September 2024
Harkova, Lyuboslava G.
9a8a31cf-1ced-4f40-b38a-df94e23bd767
Feldman, Mario F.
f7df3948-64bc-4ede-8a7b-5b2d28695353
de Dios, Rubén
f8fffd7b-f295-418a-b96f-f14192995961
Rubio-Valle, Alejandro
a32490ca-3476-40da-bd7f-e4ca155ab9de
Pérez-Pulido, Antonio J.
befddd23-86f9-4235-b600-fd94ec89a599
McCarthy, Ronan R.
0b2cf2e0-b0ff-4c92-aa04-92d91182d1f2
Harkova, Lyuboslava G., de Dios, Rubén, Rubio-Valle, Alejandro, Pérez-Pulido, Antonio J. and McCarthy, Ronan R.
,
Feldman, Mario F.
(ed.)
(2024)
Cyclic AMP is a global virulence regulator governing inter and intrabacterial signalling in Acinetobacter baumannii.
PLoS Pathogens, 20 (9), [e1012529].
(doi:10.1371/journal.ppat.1012529).
Abstract
Acinetobacter baumannii is an opportunistic nosocomial pathogen with high morbidity and mortality rates. Current treatment options for this pathogen are limited due to its increasing resistance to last-resort antibiotics. Despite A. baumannii’s leading position in the World Health Organisations priority pathogens list, little is known about its virulence regulation. Through a high-throughput screening approach to identify novel biofilm regulators, we identified a previously uncharacterised predicted adenylate cyclase (AC), CavA, as a central regulator of this phenotype. cAMP is a crucial mediator of various aspects of bacterial physiology in other species but information about its role in A. baumannii is limited. We confirm that CavA AC is functional and synthesizes cAMP in A. baumannii. Using dRNA-seq, we verify that CavA is a negative biofilm formation regulator affecting Csu pili and exopolysaccharide production. We demonstrate for the first time that in A. baumannii, cAMP is atop of a hierarchical signalling cascade controlling inter- and intrabacterial signalling by modulating quorum sensing and cyclic di-GMP systems, ultimately governing virulence in vivo and adaptive antibiotic resistance. In contrast to the well-established paradigm in other bacteria where cAMP and cyclic di-GMP levels are inversely regulated, we uncover that the levels of these second messengers are directly proportional in A. baumannii. Overall, this study uncovers the central role of CavA and cAMP in the pathogenic success of A. baumannii and highlights this signalling cascade as a high potential target for novel therapeutic development.
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Published date: 6 September 2024
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Local EPrints ID: 506177
URI: http://eprints.soton.ac.uk/id/eprint/506177
ISSN: 1553-7366
PURE UUID: 7b9c00dc-1870-439f-9952-5369e74e8c34
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Date deposited: 29 Oct 2025 17:43
Last modified: 15 Nov 2025 03:27
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Contributors
Author:
Lyuboslava G. Harkova
Editor:
Mario F. Feldman
Author:
Rubén de Dios
Author:
Alejandro Rubio-Valle
Author:
Antonio J. Pérez-Pulido
Author:
Ronan R. McCarthy
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