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Molecular Communication-Based Quorum Sensing Disruption for Enhanced Immune Defense (2412.20445v1)

Published 29 Dec 2024 in q-bio.BM

Abstract: Molecular Communication (MC) utilizes chemical molecules to transmit information, introducing innovative strategies for pharmaceutical interventions and enhanced immune system monitoring. This paper explores Molecular communication based approach to disrupt Quorum Sensing (QS) pathways to bolster immune defenses against antimicrobial-resistant bacteria. Quorum Sensing enables bacteria to coordinate critical behaviors, including virulence and antibiotic resistance, by exchanging chemical signals, known as autoinducers. By interfering with this bacterial communication, we can disrupt the synchronization of activities that promote infection and resistance. The study focuses on RNAIII inhibiting peptide (RIP), which blocks the production of critical transcripts, RNAII and RNAIII, within the Accessory Gene Regulator (AGR) system, thereby weakening bacterial virulence and enhancing host immune responses. The synergistic effects of combining QS inhibitors like RIP with traditional antimicrobial treatments reduce the need for highdose antibiotics, offering a potential solution to antibiotic resistance. This molecular communication-based approach presents a promising path to improved treatment efficacy and more robust immune responses against bacterial infections by targeting bacterial communication.

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