Temporal expression of agrB, cidA and alsS in the early development of Staphylococcus aureus UAMS-1 biofilm formation and the structural role of extracellular DNA and carbohydrates
Temporal expression of agrB, cidA and alsS in the early development of Staphylococcus aureus UAMS-1 biofilm formation and the structural role of extracellular DNA and carbohydrates
Extracellular DNA (eDNA) is an important component of the extracellular polymeric substance (EPS) matrix and is important in the establishment and persistence of Staphylococcus aureus UAMS-1 biofilms. The aim of the study was to determine the temporal expression of genes involved in early biofilm formation and eDNA production. We used RT-qPCR to investigate expression of agrB, which is associated with secreted virulence factors and biofilm dispersal, cidA which is associated with biofilm adherence and genomic DNA release and alsS which is associated with cell lysis, eDNA release and acid tolerance. The contribution of eDNA to the stability of the biofilm matrix was assessed by digesting with DNase I (Pulmozyme) and quantifying structure by confocal microscopy and COMSTAT image analysis. AgrB expression initially increased at 24h but then dramatically decreased at 72h in an inverse relationship to biomass, supporting its role in regulating biofilm dispersal. cidA and alsS expression steadily increased over 72h suggesting that eDNA was an important component of early biofilm development. DNase I had no effect on biomass, but did cause the biofilms to become more heterogeneous. Carbohydrates in the matrix appeared to play an important role in structural stability.
biofilm, S. aureus, agrB, alsS, cidA, eDNA, carbohydrate
414-422.
Grande, R.
433a468c-7892-42cb-9178-0063f35d03c7
Nistico, L.
11f06ab1-8a7b-4957-be24-1c0027b5bd64
Sambanthamoorthy, K.
12ae238f-0317-44d9-ab01-e413254677e2
Longwell, M.
37efd2cf-0784-4790-9755-79304d9e48a5
Iannitelli, A.
f46b0140-7c3d-4c5c-b093-342af26f2c78
Cellini, L.
34b7bf11-79a9-4f48-a40e-8cb5c8a4b746
Di Stefano, A.
611e9cf8-464e-47d5-b618-a29a7659b6da
Hall Stoodley, L.
664c12bf-9dbf-49e9-9f05-d57d6f190481
Stoodley, P.
08614665-92a9-4466-806e-20c6daeb483f
2014
Grande, R.
433a468c-7892-42cb-9178-0063f35d03c7
Nistico, L.
11f06ab1-8a7b-4957-be24-1c0027b5bd64
Sambanthamoorthy, K.
12ae238f-0317-44d9-ab01-e413254677e2
Longwell, M.
37efd2cf-0784-4790-9755-79304d9e48a5
Iannitelli, A.
f46b0140-7c3d-4c5c-b093-342af26f2c78
Cellini, L.
34b7bf11-79a9-4f48-a40e-8cb5c8a4b746
Di Stefano, A.
611e9cf8-464e-47d5-b618-a29a7659b6da
Hall Stoodley, L.
664c12bf-9dbf-49e9-9f05-d57d6f190481
Stoodley, P.
08614665-92a9-4466-806e-20c6daeb483f
Grande, R., Nistico, L., Sambanthamoorthy, K., Longwell, M., Iannitelli, A., Cellini, L., Di Stefano, A., Hall Stoodley, L. and Stoodley, P.
(2014)
Temporal expression of agrB, cidA and alsS in the early development of Staphylococcus aureus UAMS-1 biofilm formation and the structural role of extracellular DNA and carbohydrates.
Pathogens and Disease, 70 (3), .
(doi:10.1111/2049-632X.12158).
Abstract
Extracellular DNA (eDNA) is an important component of the extracellular polymeric substance (EPS) matrix and is important in the establishment and persistence of Staphylococcus aureus UAMS-1 biofilms. The aim of the study was to determine the temporal expression of genes involved in early biofilm formation and eDNA production. We used RT-qPCR to investigate expression of agrB, which is associated with secreted virulence factors and biofilm dispersal, cidA which is associated with biofilm adherence and genomic DNA release and alsS which is associated with cell lysis, eDNA release and acid tolerance. The contribution of eDNA to the stability of the biofilm matrix was assessed by digesting with DNase I (Pulmozyme) and quantifying structure by confocal microscopy and COMSTAT image analysis. AgrB expression initially increased at 24h but then dramatically decreased at 72h in an inverse relationship to biomass, supporting its role in regulating biofilm dispersal. cidA and alsS expression steadily increased over 72h suggesting that eDNA was an important component of early biofilm development. DNase I had no effect on biomass, but did cause the biofilms to become more heterogeneous. Carbohydrates in the matrix appeared to play an important role in structural stability.
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Published date: 2014
Keywords:
biofilm, S. aureus, agrB, alsS, cidA, eDNA, carbohydrate
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nCATS Group
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Local EPrints ID: 362367
URI: http://eprints.soton.ac.uk/id/eprint/362367
PURE UUID: 1e0dbba2-d63c-41f7-b80e-f8d9eff0707c
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Date deposited: 24 Feb 2014 11:53
Last modified: 15 Mar 2024 03:34
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Contributors
Author:
R. Grande
Author:
L. Nistico
Author:
K. Sambanthamoorthy
Author:
M. Longwell
Author:
A. Iannitelli
Author:
L. Cellini
Author:
A. Di Stefano
Author:
L. Hall Stoodley
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