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Bacterial single-cell RNA sequencing captures biofilm transcriptional heterogeneity and differential responses to immune pressure

Lee E. Korshoj, Tammy Kielian

2024Nature Communications34 citationsDOIOpen Access PDF

Abstract

Biofilm formation is an important mechanism of survival and persistence for many bacterial pathogens. These multicellular communities contain subpopulations of cells that display metabolic and transcriptional diversity along with recalcitrance to antibiotics and host immune defenses. Here, we present an optimized bacterial single-cell RNA sequencing method, BaSSSh-seq, to study Staphylococcus aureus diversity during biofilm growth and transcriptional adaptations following immune cell exposure. BaSSSh-seq captures extensive transcriptional heterogeneity during biofilm compared to planktonic growth. We quantify and visualize transcriptional regulatory networks across heterogeneous biofilm subpopulations and identify gene sets that are associated with a trajectory from planktonic to biofilm growth. BaSSSh-seq also detects alterations in biofilm metabolism, stress response, and virulence induced by distinct immune cell populations. This work facilitates the exploration of biofilm dynamics at single-cell resolution, unlocking the potential for identifying biofilm adaptations to environmental signals and immune pressure. Microbial biofilms contain subpopulations of cells that display metabolic and transcriptional diversity. Here, Korshoj & Kielian present an optimized bacterial single-cell RNA sequencing method and use it to study Staphylococcus aureus diversity during biofilm growth and transcriptional adaptations following immune cell exposure.

Topics & Concepts

Immune systemBiofilmRNABiologyComputational biologyDifferential (mechanical device)GeneticsBacteriaGeneEngineeringAerospace engineeringBacterial biofilms and quorum sensingLegionella and Acanthamoeba researchVibrio bacteria research studies
Bacterial single-cell RNA sequencing captures biofilm transcriptional heterogeneity and differential responses to immune pressure | Litcius