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Calcium carbonate mineralization is essential for biofilm formation and lung colonization

Malena Cohen‐Cymberknoh, Dror Kolodkin‐Gal, Alona Keren‐Paz, Shani Peretz, Vlad Brumfeld, Sergey Kapishnikov, Ronit Suissa, Michal Shteinberg, Daniel McLeod, Harsh Maan, Marianna A. Patrauchan, Gideon Zamir, Eitan Kerem, Ilana Kolodkin‐Gal

2022iScience32 citationsDOIOpen Access PDF

Abstract

Biofilms are differentiated microbial communities held together by an extracellular matrix. μCT X-ray revealed structured mineralized areas within biofilms of lung pathogens belonging to two distant phyla – the proteobacteria Pseudomonas aeruginosa and the actinobacteria Mycobacterium abscessus. Furthermore, calcium chelation inhibited the assembly of complex bacterial structures for both organisms with little to no effect on cell growth. The molecular mechanisms promoting calcite scaffold formation were surprisingly conserved between the two pathogens as biofilm development was similarly impaired by genetic and biochemical inhibition of calcium uptake and carbonate accumulation. Moreover, chemical inhibition and mutations targeting mineralization significantly reduced the attachment of P. aeruginosa to the lung, as well as the subsequent damage inflicted by biofilms to lung tissues, and restored their sensitivity to antibiotics.This work offers underexplored druggable targets for antibiotics to combat otherwise untreatable biofilm infections.

Topics & Concepts

BiofilmMicrobiologyPseudomonas aeruginosaCalcium carbonateMineralization (soil science)ChemistryExtracellular polymeric substanceAntibioticsCalciumActinobacteriaBiomineralizationBiologyBacteriaGenetics16S ribosomal RNANitrogenOrganic chemistryPaleontologyBacterial biofilms and quorum sensingMicrobial Applications in Construction MaterialsBuilding materials and conservation
Calcium carbonate mineralization is essential for biofilm formation and lung colonization | Litcius