Affiliation:
1. Laboratory of Zoonotic Pathogens, National Institute of Allergy and Infectious Diseases, National Institutes of Health, Hamilton, Montana, USA
2. Research Technologies Branch, Rocky Mountain Laboratories, National Institute of Allergy and Infectious Diseases, National Institutes of Health, Hamilton, Montana, USA
3. Department of Pathology and Laboratory Medicine, McGovern Medical School at UTHealth, Houston, Texas, USA
Abstract
ABSTRACT
In many bacteria, the FtsH protease and its modulators, HflK and HflC, form a large protein complex that contributes to both membrane protein quality control and regulation of the cellular response to environmental stress. Both activities are crucial to the Lyme disease pathogen
Borrelia burgdorferi
, which depends on membrane functions, such as motility, protein transport, and cell signaling, to respond to rapid changes in its environment. Using an inducible system, we demonstrate that FtsH production is essential for both mouse and tick infectivity and for
in vitro
growth of
B. burgdorferi
. FtsH depletion in
B. burgdorferi
cells resulted in membrane deformation and cell death. Overproduction of the protease did not have any detectable adverse effects on
B. burgdorferi
growth
in vitro
, suggesting that excess FtsH does not proteolytically overwhelm its substrates. In contrast, we did not observe any phenotype for cells lacking the protease modulators HflK and HflC (ΔHflK/C), although we examined morphology, growth rate, growth under stress conditions, and the complete mouse-tick infectious cycle. Our results demonstrate that FtsH provides an essential function in the life cycle of the obligate pathogen
B. burgdorferi
but that HflK and HflC do not detectably affect FtsH function.
IMPORTANCE
Lyme disease is caused by
Borrelia burgdorferi
, which is maintained in nature in an infectious cycle alternating between small mammals and
Ixodes
ticks.
B. burgdorferi
produces specific membrane proteins to successfully infect and persist in these diverse organisms. We hypothesized that
B. burgdorferi
has a specific mechanism to ensure that membrane proteins are properly folded and biologically active when needed and removed if improperly folded or dysfunctional. Our experiments demonstrate that FtsH, a protease that fulfills this role in other microorganisms, is essential to
B. burgdorferi
viability. Cells depleted of FtsH do not survive in laboratory culture medium and cannot colonize mice or ticks, revealing an absolute requirement for this protease. However, the loss of two potential modulators of FtsH activity, HflK and HflC, does not detectably affect
B. burgdorferi
physiology. Our results provide the groundwork for the identification of FtsH substrates that are critical for the bacterium’s viability.
Funder
Division of Intramural Research, National Institute of Allergy and Infectious Diseases
Publisher
American Society for Microbiology
Cited by
25 articles.
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