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Quaternary ammonium substituted pullulan accelerates wound healing and disinfects<i>Staphylococcus aureus</i>infected wounds in mouse through an atypical ‘non-pore forming’ pathway of bacterial membrane disruption

Shounak Roy, Monika Kumari, Prakash Haloi, Saurabh Chawla, V. Badireenath Konkimalla, Ajith Kumar, Hemant K. Kashyap, Amit Jaiswal

2021Biomaterials Science22 citationsDOI

Abstract

) bacteria at very low concentrations without showing any toxicity towards mammalian cells. A combined approach of atomistic molecular dynamics simulation and experimental assays revealed that CP exerts a membrane directed bactericidal action through an atypical "non-pore forming" pathway which is not yet established for any known antibacterial polysaccharides. This involves an increase in membrane roughness, disorder among anionic lipid tails, formation of localized anionic lipid clusters and membrane depolarization, finally leading to physical disruption of the membrane integrity. Moreover, CP also displayed biofilm eradication abilities and emerged as an excellent therapeutic material for disinfection and healing of infected wounds. The present work shows the potential of exploiting polysaccharides as next-generation broad-spectrum antimicrobials and provides a platform for further development of rationally designed pullulan-based functional materials for biomedical applications.

Topics & Concepts

PullulanChemistryStaphylococcus aureusBiofilmAntimicrobialBacteriaMembraneMicrobiologyAmmoniumPolysaccharideLipid bilayerWound healingBiophysicsBiochemistryBiologyOrganic chemistryImmunologyGeneticsAntimicrobial agents and applicationsBacterial biofilms and quorum sensingWound Healing and Treatments