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Type II Fatty Acid Synthesis Pathway and Cyclopropane Ring Formation Are Dispensable during Enterococcus faecalis Systemic Infection
Enterococcus faecalis, a multiple antibiotic-resistant Gram-positive bacterium, has emerged as a serious nosocomial pathogen. Here, we used a genetic approach to characterize the strategies used by E. faecalis to fulfill its requirements for endogenous fatty acid (FA) synthesis and . The type II fat...
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Published in: | Journal of bacteriology 2021-09, Vol.203 (20), p.e0022121-e0022121 |
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Main Authors: | , , , , , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | Enterococcus faecalis, a multiple antibiotic-resistant Gram-positive bacterium, has emerged as a serious nosocomial pathogen. Here, we used a genetic approach to characterize the strategies used by E. faecalis to fulfill its requirements for endogenous fatty acid (FA) synthesis
and
. The type II fatty acid synthesis (FASII) pathway is encoded by two operons and two monocistronic genes. Expression of all of these genes is repressed by exogenous FAs, which are incorporated into the E. faecalis membrane and modify its composition. Deletion of nine genes of the 12-gene operon abolished growth in an FA-free medium. Addition of serum, which is lipid rich, restored growth. Interestingly, the E. faecalis membrane contains cyclic fatty acids that modify membrane properties but that are unavailable in host serum. The
gene that encodes the cyclopropanation process is located in a locus independent of the FASII genes. Its deletion did not alter growth under the conditions tested, but yielded bacteria devoid of cyclic FAs. No differences were observed between mice infected with wild-type (WT) or with FASII or cyclopropanation mutant strains, in terms of bacterial loads in blood, liver, spleen, or kidneys. We conclude that in E. faecalis, neither FASII nor cyclopropanation enzymes are suitable antibiotic targets.
Membrane lipid homeostasis is crucial for bacterial physiology, adaptation, and virulence. Fatty acids are constituents of the phospholipids that are essential membrane components. Most bacteria incorporate exogenous fatty acids into their membranes. Enterococcus faecalis has emerged as a serious nosocomial pathogen that is responsible for urinary tract infections, bacteremia, and endocarditis and is intrinsically resistant to numerous antibiotics. E. faecalis synthesizes saturated and unsaturated fatty acids, as well as cyclic fatty acids that are not found in the human host. Here, we characterized mutant strains deficient in fatty acid synthesis and modification using genetic, biochemical, and
approaches. We conclude that neither the fatty acid synthesis pathway nor the cyclopropanation enzyme are suitable targets for E. faecalis antibiotic development. |
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ISSN: | 0021-9193 1098-5530 |
DOI: | 10.1128/JB.00221-21 |