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Cholera bacteria use specific D-amino acids to escape unfavorable niches and form complex ecological systems. This is shown by a study led by a research group at Umeå University, Sweden. The discovery may eventually have significance for research into bacterial infections.
“These findings deepen our knowledge of bacterial behaviour and may impact the development of strategies to manipulate bacterial populations or control bacterial infections,” says Felipe Cava, professor at the Department of Molecular Biology at Umeå University.
The results unveiled a new role for D-amino acids in stress-driven bacterial chemotaxis. Using state-of-the-art technologies the researchers identified a previously uncharacterized chemoreceptor, MCPDRK, specific for D-Arginine and D-Lysine. The dual function of these D-amino acids as toxic-compounds and stress signals suggests a role in shaping microbial communities and influencing niche selection.
Chemotaxis, the ability of bacteria to respond to environmental cues and navigate their surroundings, is a widespread phenomenon that remains partially understood. While the core components of the chemotaxis pathway are conserved across bacteria, the specific signals that trigger chemotactic responses remain largely unidentified. This makes it hard to unravel the underlying factors that dictate bacterial navigation towards favourable environments or their evasion of detrimental conditions.
While the role of L-amino acids as signalling molecules has been extensively investigated, the precise function of their D-form counterparts in chemotaxis remains largely unknown. These intriguing molecules, generated from L-amino acids by racemase enzymes, play diverse and specific roles in various cellular processes, including cell wall formation, biofilm stability, spore germination, and interbacterial interactions.
Vibrio cholerae, the marine bacterium that causes the acute diarrheal disease Cholera, releases high concentrations of D-amino acids into the environment. However, their specific role in bacterial behaviour remains underexplored. In this study, the researchers found that a mutant that did not produce extracellular D-amino acids exhibited reduced swimming capacity. A deeper look pointed D-Arginine and D-Lysine as repulsive chemotactic signals.
“This bacterium has a very sophisticated chemotaxis system which includes at least 45 chemoreceptors. Therefore, we strategically employed two-dimensional thermal proteome profiling instead of commonly used mutagenesis approaches. This strategy allowed us to effectively screen and identify the specific chemoreceptor responsible for D-Arginine and D-Lysine sensing, which we named MCPDRK,” says Oihane Irazoki at MIMS, The Laboratory for Molecular Infection Medicine Sweden at Umeå University and first author on the study.
The structural characterization of the sensory protein in complex with both D-amino acids allowed the identification of the key ligand-binding residues and prediction of functional orthologues in other species.
“Although our study primarily focuses on V. cholerae, MCPDRKis conserved among several species but its specificity for D-Arginine and D-Lysine seems to be restricted to those receptors that are transcriptionally linked to broad-spectrum racemases. Therefore, the applicability of these findings to other bacterial species needs additional investigation,” says Oihane Irazoki.
A key finding of the study is the multifaceted role of D-Arginine in shaping the biodiversity and structural dynamics of microbial communities. On one hand, it functions as a mechanism for clearing the environment of potential competitors, while on the other, it orchestrates the migration of the community towards more favourable ecological niches. V. cholerae has evolved a “fight and flight” strategy, wherein the genes encoding the D-Arginine chemoreceptor and the broad-spectrum racemase responsible for D-amino acid production are positioned in tandem within a single operon. More interestingly, this arrangement is controlled by the stress sigma factor RpoS. Through the synchronized production of D-Arginine and its corresponding MCP, V. cholerae establishes a highly effective stress-responsive mechanism, while simultaneously preventing its futile activation in favourable conditions.
“An obvious question for the future will be how bacteria integrate and contextualize D-amino acid signalling as part of a bewildering network of environmental chemotactic cues and receptors. Understanding this decision-making will provide deeper insights into the ecological importance of D-amino acids in enabling bacterial adaptation to stress,” concludes Professor Cava.
The study, now published in Nature Microbiology, was conducted through a coordinated collaboration between teams from different departments at Umeå University, the EMBL and the Max Planck Institute for Terrestrial Microbiology.
Felipe Cava
Phone : +46 90 785 67 55
E-mail: felipe.cava@umu.se
About the publication:
D-amino acids signal a stress-dependent run-away response in Vibrio cholerae.
Oihane Irazoki, Josy ter Beek, Laura Alvarez, Andre Mateus, Remy Colin, Athanasios Typas, Mikhail M. Savitski, Victor Sourjik, Ronnie P-A Berntsson & Felipe Cava.
Nature Microbiology (2023).
DOI number 10.1038/s41564-023-01419-6.
https://www.nature.com/articles/s41564-023-01419-6
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