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Discovery and Characterization of a Novel Regulatory Small RNA, VcrS, Required for Virulence in Brucella abortus

Brucella abortus is a facultative, intracellular, zoonotic pathogen that resides inside macrophages during infection. This is a specialized niche where B. abortus encounters various stresses, such as acidic conditions and reactive oxygen species, as it navigates through the macrophage. In order to survive this harsh environment, B. abortus utilizes post-transcriptional regulation through the use of small regulatory RNAs (sRNAs). sRNAs bind to messenger RNA (mRNA) targets via complementary base pairing. sRNAs are a class of regulatory molecules in bacteria that elicit rapid post-transcriptional regulation. sRNA-mRNA binding can positively or negatively influence gene expression. Positive regulation can occur through sRNA binding to protect the mRNA from RNases. sRNA binding can also alleviate the secondary structure and reveal the ribosomal binding site. Alternatively, sRNA-mRNA interactions can have negative consequences on gene expression through degradation via RNases or sRNA binding can occlude the ribosomal binding site. Although some sRNAs have been discovered in B. abortus, few have been characterized in regards to virulence.
In this study, B. abortus was stressed in conditions relevant to the macrophage, including, including low pH, oxidative stress, and nutrient limitation. Transcriptomic analysis revealed high levels of transcripts in intergenic regions, a hallmark of sRNAs, which led to the discovery of VcrS for virulence and cell wall regulating sRNA. A ΔvcrS was engineered and this mutant was used to infect both naïve murine macrophages, as well as BALB/c mice. Both virulence studies demonstrated significantly decreased bacterial recovery of ΔvcrS compared to the wildtype strain. Quantitative proteomics revealed that one protein, BAB1_1454, is 30-fold over-produced in ΔvcrS compared to wildtype. This essential protein encodes MurF, which catalyzes the final cytoplasmic step of generating the mura-pentapeptide precursor for peptidoglycan synthesis. VcrS is hypothesized to interact with murF mRNA and interfere with translation initiation. Sequence data indicates a putative 6 nucleotide motif in VcrS that has complementarity to the ribosomal binding site of murF. Identification of the binding site and further characterization of VcrS will showcase the importance of sRNA regulation in the virulence of B. abortus. / Master of Science / Brucella abortus is a bacterial pathogen that primarily infects cattle but is also transmitted to humans. Human disease most commonly results from the consumption of unpasteurized milk and milk products. Human brucellosis has very limited treatment options, with a high incidence of disease relapse. B. abortus survives and replicates within immune cells, which create a harsh environment. However, the bacteria are able to sense and adapt to survive and replicate within these immune cells, maintaining a chronic infection. A better understanding of the adaptation process B. abortus utilizes to survive within the human host can lead to improvement of treatment options. The present work characterizes a novel regulatory small RNA- VcrS, which was found required for survival and replication inside immune cells

Identiferoai:union.ndltd.org:VTETD/oai:vtechworks.lib.vt.edu:10919/108081
Date01 February 2022
CreatorsKing, Kellie Alexandra
ContributorsBiomedical and Veterinary Sciences, Caswell, Clayton Christopher, Scharf, Birgit, Allen, Irving C., Lahmers, Kevin K.
PublisherVirginia Tech
Source SetsVirginia Tech Theses and Dissertation
LanguageEnglish
Detected LanguageEnglish
TypeThesis
FormatETD, application/pdf
RightsIn Copyright, http://rightsstatements.org/vocab/InC/1.0/

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