Multiple deletions of the osmolyte transporters BetL, Gbu, and OpuC of Listeria monocytogenes affect virulence and growth at high osmolarity

Multiple deletions of the osmolyte transporters BetL, Gbu, and OpuC of Listeria monocytogenes affect virulence and growth at high osmolarity

The success of Listeria monocytogenes as a food-borne pathogen owes much to its ability to survive a variety of stresses, both in the food environment and, after ingestion, within the animal host. Growth at high salt concentrations is attributed mainly to the accumulation of organic solutes such as glycine betaine and carnitine. We characterized L. monocytogenes LO28 strains with single, double, and triple deletions in the osmolyte transport systems BetL, Gbu, and OpuC. When single deletion mutants were tested, Gbu was found to have the most drastic effect on the rate of growth in brain heart infusion (BHI) broth with 6dded NaCl. The highest reduction in growth rate was found for the triple mutant LO28BCG (ΔbetL ΔopuC Δgbu), although the mutant was still capable of growth under these adverse conditions. In addition, we analyzed the growth and survival of this triple mutant in an animal (murine) model. LO28BCG showed a significant reduction in its ability to cause systemic infection following peroral coinoculation with the wild-type parent. Altering OpuC alone resulted in similar effects (R. D. Sleator, J. Wouters, C. G. M. Gahan, T. Abee, and C. Hill, Appl. Environ. Microbiol. 67:2692-2698, 2001), leading to the assumption that OpuC may play an important role in listerial pathogenesis. Analysis of the accumulation of osmolytes revealed that betaine is accumulated up to 300 μmol/g (dry weight) when grown in BHI broth plus 6␗aCl whereas no carnitine accumulation could be detected. Radiolabeled-betaine uptake studies revealed an inability of BGSOE (ΔbetL Δgbu) and LO28BCG to transport betaine. Indeed, for LO28BCG, no accumulated betaine was found, but carnitine was accumulated in this strain up to 600 μmol/g (dry weight) of cells, indicating the presence of a possible fourth osmolyte transporter.

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Main Authors: Wemekamp-Kamphuis, H.H., Wouters, J.A., Sleator, R.D., Gahan, C.G.M., Hill, C., Abee, T.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Life Science,
Online Access:https://research.wur.nl/en/publications/multiple-deletions-of-the-osmolyte-transporters-betl-gbu-and-opuc-2
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spelling dig-wur-nl-wurpubs-3188382024-12-04 Wemekamp-Kamphuis, H.H. Wouters, J.A. Sleator, R.D. Gahan, C.G.M. Hill, C. Abee, T. Article/Letter to editor Applied and Environmental Microbiology 68 (2002) ISSN: 0099-2240 Multiple deletions of the osmolyte transporters BetL, Gbu, and OpuC of Listeria monocytogenes affect virulence and growth at high osmolarity 2002 The success of Listeria monocytogenes as a food-borne pathogen owes much to its ability to survive a variety of stresses, both in the food environment and, after ingestion, within the animal host. Growth at high salt concentrations is attributed mainly to the accumulation of organic solutes such as glycine betaine and carnitine. We characterized L. monocytogenes LO28 strains with single, double, and triple deletions in the osmolyte transport systems BetL, Gbu, and OpuC. When single deletion mutants were tested, Gbu was found to have the most drastic effect on the rate of growth in brain heart infusion (BHI) broth with 6dded NaCl. The highest reduction in growth rate was found for the triple mutant LO28BCG (ΔbetL ΔopuC Δgbu), although the mutant was still capable of growth under these adverse conditions. In addition, we analyzed the growth and survival of this triple mutant in an animal (murine) model. LO28BCG showed a significant reduction in its ability to cause systemic infection following peroral coinoculation with the wild-type parent. Altering OpuC alone resulted in similar effects (R. D. Sleator, J. Wouters, C. G. M. Gahan, T. Abee, and C. Hill, Appl. Environ. Microbiol. 67:2692-2698, 2001), leading to the assumption that OpuC may play an important role in listerial pathogenesis. Analysis of the accumulation of osmolytes revealed that betaine is accumulated up to 300 μmol/g (dry weight) when grown in BHI broth plus 6␗aCl whereas no carnitine accumulation could be detected. Radiolabeled-betaine uptake studies revealed an inability of BGSOE (ΔbetL Δgbu) and LO28BCG to transport betaine. Indeed, for LO28BCG, no accumulated betaine was found, but carnitine was accumulated in this strain up to 600 μmol/g (dry weight) of cells, indicating the presence of a possible fourth osmolyte transporter. en application/pdf https://research.wur.nl/en/publications/multiple-deletions-of-the-osmolyte-transporters-betl-gbu-and-opuc-2 10.1128/AEM.68.10.4710-4716.2002 https://edepot.wur.nl/27910 Life Science Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Life Science
Life Science
spellingShingle Life Science
Life Science
Wemekamp-Kamphuis, H.H.
Wouters, J.A.
Sleator, R.D.
Gahan, C.G.M.
Hill, C.
Abee, T.
Multiple deletions of the osmolyte transporters BetL, Gbu, and OpuC of Listeria monocytogenes affect virulence and growth at high osmolarity
description The success of Listeria monocytogenes as a food-borne pathogen owes much to its ability to survive a variety of stresses, both in the food environment and, after ingestion, within the animal host. Growth at high salt concentrations is attributed mainly to the accumulation of organic solutes such as glycine betaine and carnitine. We characterized L. monocytogenes LO28 strains with single, double, and triple deletions in the osmolyte transport systems BetL, Gbu, and OpuC. When single deletion mutants were tested, Gbu was found to have the most drastic effect on the rate of growth in brain heart infusion (BHI) broth with 6dded NaCl. The highest reduction in growth rate was found for the triple mutant LO28BCG (ΔbetL ΔopuC Δgbu), although the mutant was still capable of growth under these adverse conditions. In addition, we analyzed the growth and survival of this triple mutant in an animal (murine) model. LO28BCG showed a significant reduction in its ability to cause systemic infection following peroral coinoculation with the wild-type parent. Altering OpuC alone resulted in similar effects (R. D. Sleator, J. Wouters, C. G. M. Gahan, T. Abee, and C. Hill, Appl. Environ. Microbiol. 67:2692-2698, 2001), leading to the assumption that OpuC may play an important role in listerial pathogenesis. Analysis of the accumulation of osmolytes revealed that betaine is accumulated up to 300 μmol/g (dry weight) when grown in BHI broth plus 6␗aCl whereas no carnitine accumulation could be detected. Radiolabeled-betaine uptake studies revealed an inability of BGSOE (ΔbetL Δgbu) and LO28BCG to transport betaine. Indeed, for LO28BCG, no accumulated betaine was found, but carnitine was accumulated in this strain up to 600 μmol/g (dry weight) of cells, indicating the presence of a possible fourth osmolyte transporter.
format Article/Letter to editor
topic_facet Life Science
author Wemekamp-Kamphuis, H.H.
Wouters, J.A.
Sleator, R.D.
Gahan, C.G.M.
Hill, C.
Abee, T.
author_facet Wemekamp-Kamphuis, H.H.
Wouters, J.A.
Sleator, R.D.
Gahan, C.G.M.
Hill, C.
Abee, T.
author_sort Wemekamp-Kamphuis, H.H.
title Multiple deletions of the osmolyte transporters BetL, Gbu, and OpuC of Listeria monocytogenes affect virulence and growth at high osmolarity
title_short Multiple deletions of the osmolyte transporters BetL, Gbu, and OpuC of Listeria monocytogenes affect virulence and growth at high osmolarity
title_full Multiple deletions of the osmolyte transporters BetL, Gbu, and OpuC of Listeria monocytogenes affect virulence and growth at high osmolarity
title_fullStr Multiple deletions of the osmolyte transporters BetL, Gbu, and OpuC of Listeria monocytogenes affect virulence and growth at high osmolarity
title_full_unstemmed Multiple deletions of the osmolyte transporters BetL, Gbu, and OpuC of Listeria monocytogenes affect virulence and growth at high osmolarity
title_sort multiple deletions of the osmolyte transporters betl, gbu, and opuc of listeria monocytogenes affect virulence and growth at high osmolarity
url https://research.wur.nl/en/publications/multiple-deletions-of-the-osmolyte-transporters-betl-gbu-and-opuc-2
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