Heterologous expression of <it>Brucella abortus </it>GroEL heat-shock protein in <it>Lactococcus lactis</it>

Heterologous expression of <it>Brucella abortus </it>GroEL heat-shock protein in <it>Lactococcus lactis</it>

<p>Abstract</p> <p>Background</p> <p><it>Brucella abortus </it>is a facultative intracellular pathogen that mainly infects cattle and humans. Current vaccines rely on live attenuated strains of <it>B. abortus</it>, which can revert to their patho...

Full description

Bibliographic Details
Main Authors: Langella Philippe, Oliveira Sérgio C, Le Loir Yves, Ribeiro Luciana A, Bermúdez-Humarán Luis G, Miyoshi Anderson, Azevedo Vasco
Format: Article
Language:English
Published: BMC 2006-03-01
Series:Microbial Cell Factories
Online Access:http://www.microbialcellfactories.com/content/5/1/14
id doaj-79d5c9dd11614fe9b6b6c69194fbf674
record_format Article
spelling doaj-79d5c9dd11614fe9b6b6c69194fbf6742020-11-25T00:53:54ZengBMCMicrobial Cell Factories1475-28592006-03-01511410.1186/1475-2859-5-14Heterologous expression of <it>Brucella abortus </it>GroEL heat-shock protein in <it>Lactococcus lactis</it>Langella PhilippeOliveira Sérgio CLe Loir YvesRibeiro Luciana ABermúdez-Humarán Luis GMiyoshi AndersonAzevedo Vasco<p>Abstract</p> <p>Background</p> <p><it>Brucella abortus </it>is a facultative intracellular pathogen that mainly infects cattle and humans. Current vaccines rely on live attenuated strains of <it>B. abortus</it>, which can revert to their pathogenic status and thus are not totally safe for use in humans. Therefore, the development of mucosal live vaccines using the food-grade lactic acid bacterium, <it>Lactococcus lactis</it>, as an antigen delivery vector, is an attractive alternative and a safer vaccination strategy against <it>B. abortus</it>. Here, we report the construction of <it>L. lactis </it>strains genetically modified to produce <it>B. abortus </it>GroEL heat-shock protein, a candidate antigen, in two cellular locations, intracellular or secreted.</p> <p>Results</p> <p>Only the secreted form of GroEL was stably produced in <it>L. lactis</it>, suggesting a detrimental effect of GroEL protein when intracellularly produced in this bacterium. Only trace amounts of mature GroEL were detected in the supernatant fraction of induced lactococcal cultures, and the GroEL precursor remained stacked in the cell fraction. Attempts to raise the secretion yields were made, but even when GroEL was fused to a synthetic propeptide, secretion of this antigen was not improved.</p> <p>Conclusion</p> <p>We found that <it>L. lactis </it>is able to produce, and to secrete, a stable form of GroEL into the extracellular medium. Despite the low secretion efficiency of GroEL, which suggest that this antigen interacts with the cell envelope of <it>L. lactis</it>, secretion seems to be the best way to achieve both production and protein yields, regardless of cellular location. The <it>L. lactis </it>strain secreting GroEL has potential for <it>in vivo </it>immunization.</p> http://www.microbialcellfactories.com/content/5/1/14
collection DOAJ
language English
format Article
sources DOAJ
author Langella Philippe
Oliveira Sérgio C
Le Loir Yves
Ribeiro Luciana A
Bermúdez-Humarán Luis G
Miyoshi Anderson
Azevedo Vasco
spellingShingle Langella Philippe
Oliveira Sérgio C
Le Loir Yves
Ribeiro Luciana A
Bermúdez-Humarán Luis G
Miyoshi Anderson
Azevedo Vasco
Heterologous expression of <it>Brucella abortus </it>GroEL heat-shock protein in <it>Lactococcus lactis</it>
Microbial Cell Factories
author_facet Langella Philippe
Oliveira Sérgio C
Le Loir Yves
Ribeiro Luciana A
Bermúdez-Humarán Luis G
Miyoshi Anderson
Azevedo Vasco
author_sort Langella Philippe
title Heterologous expression of <it>Brucella abortus </it>GroEL heat-shock protein in <it>Lactococcus lactis</it>
title_short Heterologous expression of <it>Brucella abortus </it>GroEL heat-shock protein in <it>Lactococcus lactis</it>
title_full Heterologous expression of <it>Brucella abortus </it>GroEL heat-shock protein in <it>Lactococcus lactis</it>
title_fullStr Heterologous expression of <it>Brucella abortus </it>GroEL heat-shock protein in <it>Lactococcus lactis</it>
title_full_unstemmed Heterologous expression of <it>Brucella abortus </it>GroEL heat-shock protein in <it>Lactococcus lactis</it>
title_sort heterologous expression of <it>brucella abortus </it>groel heat-shock protein in <it>lactococcus lactis</it>
publisher BMC
series Microbial Cell Factories
issn 1475-2859
publishDate 2006-03-01
description <p>Abstract</p> <p>Background</p> <p><it>Brucella abortus </it>is a facultative intracellular pathogen that mainly infects cattle and humans. Current vaccines rely on live attenuated strains of <it>B. abortus</it>, which can revert to their pathogenic status and thus are not totally safe for use in humans. Therefore, the development of mucosal live vaccines using the food-grade lactic acid bacterium, <it>Lactococcus lactis</it>, as an antigen delivery vector, is an attractive alternative and a safer vaccination strategy against <it>B. abortus</it>. Here, we report the construction of <it>L. lactis </it>strains genetically modified to produce <it>B. abortus </it>GroEL heat-shock protein, a candidate antigen, in two cellular locations, intracellular or secreted.</p> <p>Results</p> <p>Only the secreted form of GroEL was stably produced in <it>L. lactis</it>, suggesting a detrimental effect of GroEL protein when intracellularly produced in this bacterium. Only trace amounts of mature GroEL were detected in the supernatant fraction of induced lactococcal cultures, and the GroEL precursor remained stacked in the cell fraction. Attempts to raise the secretion yields were made, but even when GroEL was fused to a synthetic propeptide, secretion of this antigen was not improved.</p> <p>Conclusion</p> <p>We found that <it>L. lactis </it>is able to produce, and to secrete, a stable form of GroEL into the extracellular medium. Despite the low secretion efficiency of GroEL, which suggest that this antigen interacts with the cell envelope of <it>L. lactis</it>, secretion seems to be the best way to achieve both production and protein yields, regardless of cellular location. The <it>L. lactis </it>strain secreting GroEL has potential for <it>in vivo </it>immunization.</p>
url http://www.microbialcellfactories.com/content/5/1/14
work_keys_str_mv AT langellaphilippe heterologousexpressionofitbrucellaabortusitgroelheatshockproteininitlactococcuslactisit
AT oliveirasergioc heterologousexpressionofitbrucellaabortusitgroelheatshockproteininitlactococcuslactisit
AT leloiryves heterologousexpressionofitbrucellaabortusitgroelheatshockproteininitlactococcuslactisit
AT ribeirolucianaa heterologousexpressionofitbrucellaabortusitgroelheatshockproteininitlactococcuslactisit
AT bermudezhumaranluisg heterologousexpressionofitbrucellaabortusitgroelheatshockproteininitlactococcuslactisit
AT miyoshianderson heterologousexpressionofitbrucellaabortusitgroelheatshockproteininitlactococcuslactisit
AT azevedovasco heterologousexpressionofitbrucellaabortusitgroelheatshockproteininitlactococcuslactisit
_version_ 1725236000028884992

Similar Items