Erythronate utilization activates VdtR regulating its metabolism to promote Brucella proliferation, inducing abortion in mice

Brucella is a facultative intracellular pathogen that preferentially colonizes reproductive organs and utilizes erythritol as a preferred carbon source for its survival and proliferation. In this study, we identified a virulence-related DeoR-family transcriptional regulator (VdtR) and an erythronate...

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Autores principales: Yin, Yi, Fang, Tian, Lian, Zhengmin, Zuo, Dong, Hu, Hai, Zhang, Guangdong, Ding, Chan, Tian, Mingxing, Yu, Shengqing
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Microbiology 2023
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10580937/
https://www.ncbi.nlm.nih.gov/pubmed/37671873
http://dx.doi.org/10.1128/spectrum.02074-23
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author Yin, Yi
Fang, Tian
Lian, Zhengmin
Zuo, Dong
Hu, Hai
Zhang, Guangdong
Ding, Chan
Tian, Mingxing
Yu, Shengqing
author_facet Yin, Yi
Fang, Tian
Lian, Zhengmin
Zuo, Dong
Hu, Hai
Zhang, Guangdong
Ding, Chan
Tian, Mingxing
Yu, Shengqing
author_sort Yin, Yi
collection PubMed
description Brucella is a facultative intracellular pathogen that preferentially colonizes reproductive organs and utilizes erythritol as a preferred carbon source for its survival and proliferation. In this study, we identified a virulence-related DeoR-family transcriptional regulator (VdtR) and an erythronate metabolic pathway responsible for four-carbon acid sugar metabolism of D-erythronate and L-threonate in Brucella. We found that VdtR plays an important role in Brucella intracellular survival and trafficking to the endoplasmic reticulum in RAW 264.7 macrophages and in virulence in a mouse model. More importantly, we found that VdtR negatively regulates the erythronate metabolic pathway to promote extracellular proliferation of Brucella, depending on utilization of D-erythronate, an oxidative product of erythritol in the host. In a pregnant mouse model, the erythronate metabolic pathway was shown to cooperate with erythritol metabolism and play a crucial role in Brucella proliferation in the placenta, inducing placentitis and finally resulting in abortion or stillbirth. Our results demonstrate that, in addition to erythritol, erythronate is a preferred carbon source for Brucella utilization to promote its extracellular proliferation. This discovery updates the information on the preferential colonization of reproductive organs by Brucella and provides a novel insight into the Brucella-associated induction of abortion in pregnant animals. IMPORTANCE: Brucella is an intracellular parasitic bacterium causing zoonosis, which is distributed worldwide and mainly characterized by reproductive disorders. Erythritol is found in allantoic fluid, chorion, and placenta of aborted animals, preferentially utilized by Brucella to cause infertility and abortion. However, the erythritol metabolism-defected mutant was unable to function as a vaccine strain due to its residual virulence. Here, we found that erythronate, an oxidative product of erythritol in the host, was also preferentially utilized by Brucella relying on the function of a deoxyribonucleoside regulator-family transcriptional regulator VdtR. Erythronate utilization activates VdtR regulation of the erythronate metabolic pathway to promote Brucella extracellular proliferation, inducing placentitis/abortion in mice. Double mutations on Brucella erythritol and D-erythronate metabolisms significantly reduced bacterial virulence. This study revealed a novel mechanism of Brucella infection-induced abortion, thus providing a new clue for the study of safer Brucella attenuated vaccines.
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spelling pubmed-105809372023-10-18 Erythronate utilization activates VdtR regulating its metabolism to promote Brucella proliferation, inducing abortion in mice Yin, Yi Fang, Tian Lian, Zhengmin Zuo, Dong Hu, Hai Zhang, Guangdong Ding, Chan Tian, Mingxing Yu, Shengqing Microbiol Spectr Research Article Brucella is a facultative intracellular pathogen that preferentially colonizes reproductive organs and utilizes erythritol as a preferred carbon source for its survival and proliferation. In this study, we identified a virulence-related DeoR-family transcriptional regulator (VdtR) and an erythronate metabolic pathway responsible for four-carbon acid sugar metabolism of D-erythronate and L-threonate in Brucella. We found that VdtR plays an important role in Brucella intracellular survival and trafficking to the endoplasmic reticulum in RAW 264.7 macrophages and in virulence in a mouse model. More importantly, we found that VdtR negatively regulates the erythronate metabolic pathway to promote extracellular proliferation of Brucella, depending on utilization of D-erythronate, an oxidative product of erythritol in the host. In a pregnant mouse model, the erythronate metabolic pathway was shown to cooperate with erythritol metabolism and play a crucial role in Brucella proliferation in the placenta, inducing placentitis and finally resulting in abortion or stillbirth. Our results demonstrate that, in addition to erythritol, erythronate is a preferred carbon source for Brucella utilization to promote its extracellular proliferation. This discovery updates the information on the preferential colonization of reproductive organs by Brucella and provides a novel insight into the Brucella-associated induction of abortion in pregnant animals. IMPORTANCE: Brucella is an intracellular parasitic bacterium causing zoonosis, which is distributed worldwide and mainly characterized by reproductive disorders. Erythritol is found in allantoic fluid, chorion, and placenta of aborted animals, preferentially utilized by Brucella to cause infertility and abortion. However, the erythritol metabolism-defected mutant was unable to function as a vaccine strain due to its residual virulence. Here, we found that erythronate, an oxidative product of erythritol in the host, was also preferentially utilized by Brucella relying on the function of a deoxyribonucleoside regulator-family transcriptional regulator VdtR. Erythronate utilization activates VdtR regulation of the erythronate metabolic pathway to promote Brucella extracellular proliferation, inducing placentitis/abortion in mice. Double mutations on Brucella erythritol and D-erythronate metabolisms significantly reduced bacterial virulence. This study revealed a novel mechanism of Brucella infection-induced abortion, thus providing a new clue for the study of safer Brucella attenuated vaccines. American Society for Microbiology 2023-09-06 /pmc/articles/PMC10580937/ /pubmed/37671873 http://dx.doi.org/10.1128/spectrum.02074-23 Text en Copyright © 2023 Yin et al. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Research Article
Yin, Yi
Fang, Tian
Lian, Zhengmin
Zuo, Dong
Hu, Hai
Zhang, Guangdong
Ding, Chan
Tian, Mingxing
Yu, Shengqing
Erythronate utilization activates VdtR regulating its metabolism to promote Brucella proliferation, inducing abortion in mice
title Erythronate utilization activates VdtR regulating its metabolism to promote Brucella proliferation, inducing abortion in mice
title_full Erythronate utilization activates VdtR regulating its metabolism to promote Brucella proliferation, inducing abortion in mice
title_fullStr Erythronate utilization activates VdtR regulating its metabolism to promote Brucella proliferation, inducing abortion in mice
title_full_unstemmed Erythronate utilization activates VdtR regulating its metabolism to promote Brucella proliferation, inducing abortion in mice
title_short Erythronate utilization activates VdtR regulating its metabolism to promote Brucella proliferation, inducing abortion in mice
title_sort erythronate utilization activates vdtr regulating its metabolism to promote brucella proliferation, inducing abortion in mice
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10580937/
https://www.ncbi.nlm.nih.gov/pubmed/37671873
http://dx.doi.org/10.1128/spectrum.02074-23
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