A dual-action antibiotic that kills Clostridioides difficile vegetative cells and inhibits spore germination

Clostridioides difficile infection (CDI) is the most lethal of the five CDC urgent public health treats, resulting in 12,800 annual deaths in the United States alone [Antibiotic Resistance Threats in the United States, 2019 (2019), www.cdc.gov/DrugResistance/Biggest-Threats.html]. The high recurrenc...

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Autores principales: Janardhanan, Jeshina, Kim, Choon, Qian, Yuanyuan, Yang, Jingdong, Meisel, Jayda E., Ding, Derong, Speri, Enrico, Schroeder, Valerie A., Wolter, William R., Oliver, Allen G., Mobashery, Shahriar, Chang, Mayland
Formato: Online Artículo Texto
Lenguaje:English
Publicado: National Academy of Sciences 2023
Materias:
Biological Sciences
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10193928/
https://www.ncbi.nlm.nih.gov/pubmed/37155891
http://dx.doi.org/10.1073/pnas.2304110120
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author Janardhanan, Jeshina
Kim, Choon
Qian, Yuanyuan
Yang, Jingdong
Meisel, Jayda E.
Ding, Derong
Speri, Enrico
Schroeder, Valerie A.
Wolter, William R.
Oliver, Allen G.
Mobashery, Shahriar
Chang, Mayland
author_facet Janardhanan, Jeshina
Kim, Choon
Qian, Yuanyuan
Yang, Jingdong
Meisel, Jayda E.
Ding, Derong
Speri, Enrico
Schroeder, Valerie A.
Wolter, William R.
Oliver, Allen G.
Mobashery, Shahriar
Chang, Mayland
author_sort Janardhanan, Jeshina
collection PubMed
description Clostridioides difficile infection (CDI) is the most lethal of the five CDC urgent public health treats, resulting in 12,800 annual deaths in the United States alone [Antibiotic Resistance Threats in the United States, 2019 (2019), www.cdc.gov/DrugResistance/Biggest-Threats.html]. The high recurrence rate and the inability of antibiotics to treat such infections mandate discovery of new therapeutics. A major challenge with CDI is the production of spores, leading to multiple recurrences of infection in 25% of patients [C. P. Kelly, J. T. LaMont, N. Engl. J. Med. 359, 1932–1940 (2008)], with potentially lethal consequence. Herein, we describe the discovery of an oxadiazole as a bactericidal anti-C. difficile agent that inhibits both cell-wall peptidoglycan biosynthesis and spore germination. We document that the oxadiazole binds to the lytic transglycosylase SleC and the pseudoprotease CspC for prevention of spore germination. SleC degrades the cortex peptidoglycan, a critical step in the initiation of spore germination. CspC senses germinants and cogerminants. Binding to SleC is with higher affinity than that to CspC. Prevention of spore germination breaks the nefarious cycles of CDI recurrence in the face of the antibiotic challenge, which is a primary cause of therapeutic failure. The oxadiazole exhibits efficacy in a mouse model of recurrent CDI and holds promise in clinical treatment of CDI.
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spelling pubmed-101939282023-11-08 A dual-action antibiotic that kills Clostridioides difficile vegetative cells and inhibits spore germination Janardhanan, Jeshina Kim, Choon Qian, Yuanyuan Yang, Jingdong Meisel, Jayda E. Ding, Derong Speri, Enrico Schroeder, Valerie A. Wolter, William R. Oliver, Allen G. Mobashery, Shahriar Chang, Mayland Proc Natl Acad Sci U S A Biological Sciences Clostridioides difficile infection (CDI) is the most lethal of the five CDC urgent public health treats, resulting in 12,800 annual deaths in the United States alone [Antibiotic Resistance Threats in the United States, 2019 (2019), www.cdc.gov/DrugResistance/Biggest-Threats.html]. The high recurrence rate and the inability of antibiotics to treat such infections mandate discovery of new therapeutics. A major challenge with CDI is the production of spores, leading to multiple recurrences of infection in 25% of patients [C. P. Kelly, J. T. LaMont, N. Engl. J. Med. 359, 1932–1940 (2008)], with potentially lethal consequence. Herein, we describe the discovery of an oxadiazole as a bactericidal anti-C. difficile agent that inhibits both cell-wall peptidoglycan biosynthesis and spore germination. We document that the oxadiazole binds to the lytic transglycosylase SleC and the pseudoprotease CspC for prevention of spore germination. SleC degrades the cortex peptidoglycan, a critical step in the initiation of spore germination. CspC senses germinants and cogerminants. Binding to SleC is with higher affinity than that to CspC. Prevention of spore germination breaks the nefarious cycles of CDI recurrence in the face of the antibiotic challenge, which is a primary cause of therapeutic failure. The oxadiazole exhibits efficacy in a mouse model of recurrent CDI and holds promise in clinical treatment of CDI. National Academy of Sciences 2023-05-08 2023-05-16 /pmc/articles/PMC10193928/ /pubmed/37155891 http://dx.doi.org/10.1073/pnas.2304110120 Text en Copyright © 2023 the Author(s). Published by PNAS. https://creativecommons.org/licenses/by-nc-nd/4.0/This article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND) (https://creativecommons.org/licenses/by-nc-nd/4.0/) .
spellingShingle Biological Sciences
Janardhanan, Jeshina
Kim, Choon
Qian, Yuanyuan
Yang, Jingdong
Meisel, Jayda E.
Ding, Derong
Speri, Enrico
Schroeder, Valerie A.
Wolter, William R.
Oliver, Allen G.
Mobashery, Shahriar
Chang, Mayland
A dual-action antibiotic that kills Clostridioides difficile vegetative cells and inhibits spore germination
title A dual-action antibiotic that kills Clostridioides difficile vegetative cells and inhibits spore germination
title_full A dual-action antibiotic that kills Clostridioides difficile vegetative cells and inhibits spore germination
title_fullStr A dual-action antibiotic that kills Clostridioides difficile vegetative cells and inhibits spore germination
title_full_unstemmed A dual-action antibiotic that kills Clostridioides difficile vegetative cells and inhibits spore germination
title_short A dual-action antibiotic that kills Clostridioides difficile vegetative cells and inhibits spore germination
title_sort dual-action antibiotic that kills clostridioides difficile vegetative cells and inhibits spore germination
topic Biological Sciences
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10193928/
https://www.ncbi.nlm.nih.gov/pubmed/37155891
http://dx.doi.org/10.1073/pnas.2304110120
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