DOI: 10.3390/ncrna12040021 ISSN: 2311-553X

P22 Small Noncoding RNAs Are Actively Secreted in Salmonella Outer Membrane Vesicles During Bacteriophage Infection

Sayema Naaz, Haley A. Kominek, Lydia A. Hayes-Guastella, Autumn M. McDaniel, Enas S. Alsatari, Adeyeye I. Haastrup, Olivia G. Clark, Devin M. Katerski, Francois O. Prinsloo, Olivia R. Roberts, Meredith A. Shaddix, Bridgette N. Sullivan, Isabella M. Swan, Emily M. Hartsell, Jeffrey D. DeMeis, Suhas S. Patil, Richard H. Pham, Makala R. Cox, Glen M. Borchert

Background/Objectives: Outer membrane vesicles (OMVs) are membrane-encapsulated spherical structures ~120 nm in diameter derived from Gram-negative bacterial cell envelopes. OMVs are primarily generated by outer membrane blebbing but contain proteins, DNA, and RNAs at concentrations distinct from that of the intracellular complement. OMVs have been associated with a number of different cellular functions including intercellular communication and resistance to phage. Methods: As bacterial small RNAs (sRNAs) also participate in bacteriophage defense and are specifically delivered to and enriched in OMVs, we recently elected to examine the effects of P22 infection on Salmonella cytosolic and OMV sRNA abundance by employing RNA sequencing. Results: We find that P22 infection triggers a global reduction in sRNAs (with Salmonella sRNA expression levels averaging only 15.6% those observed in noninfected cells) coupled with a reciprocal 72.7% global increase in Salmonella tRNA expression levels. Additionally, of note, while OMV small noncoding RNA (sncRNA) abundance is normally ~1/10 that found in the cytosol, we find that P22 infection triggers active OMV encapsulation and secretion of: (1) a subset of sRNAs, (2) all Salmonella tRNAs including one highly complementary to the P22 genome, and, much to our surprise, (3) ten distinct sRNAs expressed from P22. Conclusions: In summary, the work presented here identifies several Salmonella sncRNA cytosolic and/or OMV abundances significantly altered during P22 infection, and to our knowledge, this constitutes the first reported characterization of bacteriophage-encoded sRNAs being actively secreted within host OMVs.

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