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Novel Players in Iron Homeostasis in Mycobacterium tuberculosis

Nelson, Samantha J.
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Student Authors
Faculty Advisor
Christopher Sassetti
Academic Program
Immunology and Microbiology
Document Type
Doctoral Dissertation
Publication Date
2022-10-12
Subject Area
Embargo Expiration Date
2024-12-22
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Abstract

Tuberculosis, the disease caused by Mycobacterium tuberculosis (Mtb), is the number one cause of death by an infectious agent. Mtb, an obligate pathogen, must compete with the host for nutrients, including for the essential metal, iron. The inability to acquire iron leads to a loss of virulence for Mtb. On the other hand, acquiring excess iron leads to oxidative stress that can damage the bacterium. Therefore, the pathways governing iron homeostasis must be precisely balanced for optimal fitness. Though we know many of the proteins participating in this pathway, we still do not understand several aspects, such as how iron transits the cell envelope or how other stress response pathways affect iron homeostasis. The numerous uncharacterized genes in Mtb, including those required for infection, represent potential participants in this pathway and potential drug targets. In this thesis, we describe two novel players required for iron homeostasis in Mtb. We describe a new role for intramembrane proteolytic signaling and sigma factor regulation in iron homeostasis through the finding that Rip1 and SigL are required for growth in low iron. In addition, we describe a role for the previously uncharacterized protein, Rv3193c, in iron homeostasis. We demonstrate that it is required for infection in mice and a conserved residue of the protein contributes to its function. By characterizing essential pathways such as iron homeostasis, we can better understand the requirements for Mtb growth in the host and develop new treatments to address the global burden of tuberculosis.

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DOI
10.13028/q93c-yv84
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Copyright © 2022 Nelson