The Endoribonuclease RNase E Coordinates Expression of mRNAs and Small Regulatory RNAs and Is Critical for the Virulence of Brucella abortus

RNases are key regulatory components in prokaryotes, responsible for the degradation and maturation of specific RNA molecules at precise times. Specifically, RNases allow cells to cope with changes in their environment through rapid alteration of gene expression. To date, few RNases have been characterized in the mammalian pathogen Brucella abortus. In the present work, we sought to investigate several RNases in B. abortus and determine what role, if any, they have in pathogenesis. Of the 4 RNases reported in this study, the highly conserved endoribonuclease, RNase E, was found to play an integral role in the virulence of B. abortus. Although rne, which encodes RNase E, is essential in B. abortus, we were able to generate a strain encoding a defective version of RNase E lacking the C-terminal portion of the protein, and this strain (rne-tnc) was attenuated in a mouse model of Brucella infection. RNA-sequencing analysis revealed massive RNA dysregulation in B. abortusrne-tnc, with 122 upregulated and 161 downregulated transcripts compared to the parental strain. Interestingly, several mRNAs related to metal homeostasis were significantly decreased in the rne-tnc strain. We also identified a small regulatory RNA (sRNA), called Bsr4, that exhibited significantly elevated levels in rne-tnc, demonstrating an important role for RNase E in sRNA-mediated regulatory pathways in Brucella. Overall, these data highlight the importance of RNase E in B. abortus, including the role of RNase E in properly controlling mRNA levels and contributing to virulence in an animal model of infection. IMPORTANCE Brucellosis is a debilitating disease of humans and animals globally, and there is currently no vaccine to combat human infection by Brucella spp. Moreover, effective antibiotic treatment in humans is extremely difficult and can lead to disease relapse. Therefore, it is imperative that systems and pathways be identified and characterized in the brucellae so new vaccines and therapies can be generated. In this study, we describe the impact of the endoribonuclease RNase E on the control of mRNA and small regulatory RNA (sRNA) levels in B. abortus, as well as the importance of RNase E for the full virulence of B. abortus. This work greatly enhances our understanding of ribonucleases in the biology and pathogenesis of Brucella spp.