Litcius/Paper detail

What the Hel: recent advances in understanding rifampicin resistance in bacteria

Petra Sudzinová, Hana Šanderová, T. Kovaĺ, Tereza Skálová, Nabajyoti Borah, Jarmila Hnilicová, Tomáš Kouba, Jan Dohnálek, Libor Krásný

2022FEMS Microbiology Reviews13 citationsDOIOpen Access PDF

Abstract

Rifampicin is a clinically important antibiotic that binds to, and blocks the DNA/RNA channel of bacterial RNA polymerase (RNAP). Stalled, nonfunctional RNAPs can be removed from DNA by HelD proteins; this is important for maintenance of genome integrity. Recently, it was reported that HelD proteins from high G+C Actinobacteria, called HelR, are able to dissociate rifampicin-stalled RNAPs from DNA and provide rifampicin resistance. This is achieved by the ability of HelR proteins to dissociate rifampicin from RNAP. The HelR-mediated mechanism of rifampicin resistance is discussed here, and the roles of HelD/HelR in the transcriptional cycle are outlined. Moreover, the possibility that the structurally similar HelD proteins from low G+C Firmicutes may be also involved in rifampicin resistance is explored. Finally, the discovery of the involvement of HelR in rifampicin resistance provides a blueprint for analogous studies to reveal novel mechanisms of bacterial antibiotic resistance.

Topics & Concepts

BiologyRifampicinBacteriaMicrobiologyResistance (ecology)Antibiotic resistanceComputational biologyAntibioticsGeneticsEcologyAntibiotic Resistance in BacteriaBacteriophages and microbial interactionsEscherichia coli research studies