Active bacterial modification of the host environment through RNA polymerase II inhibition

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Abstract

Unlike pathogens, which attack the host, commensal bacteria create a state of friendly coexistence. Here, we identified a mechanism of bacterial adaptation to the host niche, where they reside. Asymptomatic carrier strains were shown to inhibit RNA polymerase II (Pol II) in host cells by targeting Ser2 phosphorylation, a step required for productive mRNA elongation. Assisted by a rare, spontaneous loss-of-function mutant from a human carrier, the bacterial NlpD protein was identified as a Pol II inhibitor. After internalization by host cells, NlpD was shown to target constituents of the Pol II phosphorylation complex (RPB1 and PAF1C), attenuating host gene expression. Therapeutic efficacy of a recombinant NlpD protein was demonstrated in a urinary tract infection model, by reduced tissue pathology, accelerated bacterial clearance, and attenuated Pol II–dependent gene expression. The findings suggest an intriguing, evolutionarily conserved mechanism for bacterial modulation of host gene expression, with a remarkable therapeutic potential.

Authors

Inès Ambite, Nina A. Filenko, Elisabed Zaldastanishvili, Daniel S.C. Butler, Thi Hien Tran, Arunima Chaudhuri, Parisa Esmaeili, Shahram Ahmadi, Sanchari Paul, Björn Wullt, Johannes Putze, Swaine L. Chen, Ulrich Dobrindt, Catharina Svanborg