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Allosteric mutants show that PrfA activation is dispensable for vacuole escape but required for efficient spread and Listeria survival in vivo

Allosteric mutants show that PrfA activation is dispensable for vacuole escape but required for efficient spread and Listeria survival in vivo
Allosteric mutants show that PrfA activation is dispensable for vacuole escape but required for efficient spread and Listeria survival in vivo

The transcriptional regulator PrfA controls key virulence determinants of the facultative intracellular pathogen Listeria monocytogenes. PrfA-dependent gene expression is strongly induced within host cells. While the basis of this activation is unknown, the structural homology of PrfA with the cAMP receptor protein (Crp) and the finding of constitutively activated PrfA* mutants suggests it may involve ligand-induced allostery. Here, we report the identification of a solvent-accessible cavity within the PrfA N-terminal domain that may accommodate an activating ligand. The pocket occupies a similar position to the cAMP binding site in Crp but lacks the cyclic nucleotide-anchoring motif and has its entrance on the opposite side of the β-barrel. Site-directed mutations in this pocket impaired intracellular PrfA-dependent gene activation without causing extensive structural/functional alterations to PrfA. Two substitutions, L48F and Y63W, almost completely abolished intracellular virulence gene induction and thus displayed the expected phenotype for allosteric activation-deficient PrfA mutations. Neither PrfAallo substitution affected vacuole escape and initial intracellular growth of L.monocytogenes in epithelial cells and macrophages but caused defective cell-to-cell spread and strong attenuation in mice. Our data support the hypothesis that PrfA is allosterically activated during intracellular infection and identify the probable binding site for the effector ligand. They also indicate that PrfA allosteric activation is not required for early intracellular survival but is essential for full Listeria virulence and colonization of host tissues.

0950-382X
461-477
Deshayes, Caroline
55b63c5f-364e-4220-ab09-30b78019451e
Bielecka, Magdalena K.
90391ea3-aa1f-4104-a893-568c138718a2
Cain, Robert J.
07972451-2682-4daa-afe9-8582efc64a8f
Scortti, Mariela
e3e46316-6a50-424b-9fdc-dd40c1cedaa1
De las Heras, Aitor
f683308c-b28d-4848-a8f0-1f7a7cf247a7
Pietras, Zbigniew
a29e5de3-df6c-4a83-938b-d0512a613162
Luisi, Ben F.
75fb3a48-d7a4-4cbf-ad81-f2ffeaaf79ff
Núñez Miguel, Ricardo
8b985472-3f14-4ce5-b570-3bb5a0430b35
Vázquez-Boland, José A.
53433537-838b-433e-b1ee-f8648f9b2b26
Deshayes, Caroline
55b63c5f-364e-4220-ab09-30b78019451e
Bielecka, Magdalena K.
90391ea3-aa1f-4104-a893-568c138718a2
Cain, Robert J.
07972451-2682-4daa-afe9-8582efc64a8f
Scortti, Mariela
e3e46316-6a50-424b-9fdc-dd40c1cedaa1
De las Heras, Aitor
f683308c-b28d-4848-a8f0-1f7a7cf247a7
Pietras, Zbigniew
a29e5de3-df6c-4a83-938b-d0512a613162
Luisi, Ben F.
75fb3a48-d7a4-4cbf-ad81-f2ffeaaf79ff
Núñez Miguel, Ricardo
8b985472-3f14-4ce5-b570-3bb5a0430b35
Vázquez-Boland, José A.
53433537-838b-433e-b1ee-f8648f9b2b26

Deshayes, Caroline, Bielecka, Magdalena K., Cain, Robert J., Scortti, Mariela, De las Heras, Aitor, Pietras, Zbigniew, Luisi, Ben F., Núñez Miguel, Ricardo and Vázquez-Boland, José A. (2012) Allosteric mutants show that PrfA activation is dispensable for vacuole escape but required for efficient spread and Listeria survival in vivo. Molecular Microbiology, 85 (3), 461-477. (doi:10.1111/j.1365-2958.2012.08121.x).

Record type: Article

Abstract

The transcriptional regulator PrfA controls key virulence determinants of the facultative intracellular pathogen Listeria monocytogenes. PrfA-dependent gene expression is strongly induced within host cells. While the basis of this activation is unknown, the structural homology of PrfA with the cAMP receptor protein (Crp) and the finding of constitutively activated PrfA* mutants suggests it may involve ligand-induced allostery. Here, we report the identification of a solvent-accessible cavity within the PrfA N-terminal domain that may accommodate an activating ligand. The pocket occupies a similar position to the cAMP binding site in Crp but lacks the cyclic nucleotide-anchoring motif and has its entrance on the opposite side of the β-barrel. Site-directed mutations in this pocket impaired intracellular PrfA-dependent gene activation without causing extensive structural/functional alterations to PrfA. Two substitutions, L48F and Y63W, almost completely abolished intracellular virulence gene induction and thus displayed the expected phenotype for allosteric activation-deficient PrfA mutations. Neither PrfAallo substitution affected vacuole escape and initial intracellular growth of L.monocytogenes in epithelial cells and macrophages but caused defective cell-to-cell spread and strong attenuation in mice. Our data support the hypothesis that PrfA is allosterically activated during intracellular infection and identify the probable binding site for the effector ligand. They also indicate that PrfA allosteric activation is not required for early intracellular survival but is essential for full Listeria virulence and colonization of host tissues.

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Published date: August 2012
Organisations: Clinical & Experimental Sciences

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Local EPrints ID: 408005
URI: http://eprints.soton.ac.uk/id/eprint/408005
ISSN: 0950-382X
PURE UUID: 18dc07ac-e0a1-459a-853a-62b06b901530

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Date deposited: 06 May 2017 01:06
Last modified: 15 Mar 2024 13:24

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Contributors

Author: Caroline Deshayes
Author: Magdalena K. Bielecka
Author: Robert J. Cain
Author: Mariela Scortti
Author: Aitor De las Heras
Author: Zbigniew Pietras
Author: Ben F. Luisi
Author: Ricardo Núñez Miguel
Author: José A. Vázquez-Boland

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