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Detection and physicochemical characterization of Membrane Vesicles (MVs) of Lactobacillus reuteri DSM 17938

Detection and physicochemical characterization of Membrane Vesicles (MVs) of Lactobacillus reuteri DSM 17938
Detection and physicochemical characterization of Membrane Vesicles (MVs) of Lactobacillus reuteri DSM 17938
Membrane vesicles (MVs) are bilayer structures which bleb from bacteria, and are important in trafficking biomolecules to other bacteria or host cells. There are few data about MVs produced by the Gram-positive commensal – derived probiotic Lactobacillus reuteri; however, MVs from this species may have potential therapeutic benefit. The aim of this study was to detect and characterize MVs produced from biofilm (bMVs), and planktonic (pMVs) phenotypes of L. reuteri DSM 17938. MVs were analyzed for structure and physicochemical characterization by Scanning Electron Microscope (SEM) and Dynamic Light Scattering (DLS). Their composition was interrogated using various digestive enzyme treatments and subsequent Transmission Electron Microscopy (TEM) analysis. eDNA (extracellular DNA) was detected and quantified using PicoGreen. We found that planktonic and biofilm of L. reuteri cultures generated MVs with a broad size distribution. Our data also showed that eDNA was associated with pMVs and bMVs (eMVsDNA). DNase I treatment demonstrated no modifications of MVs, suggesting that an eDNA-MVs complex protected the eMVsDNA. Proteinase K and Phospholipase C treatments modified the structure of MVs, showing that lipids and proteins are important structural components of L. reuteri MVs. The biological composition and the physicochemical characterization of MVs generated by the probiotic L. reuteri may represent a starting point for future applications in the development of vesicles-based therapeutic systems.
Lactobacillus reuteri, Membrane Vesicles (MVs), Biofilm, Nanoparticles, Extracellular DNA, Probiotics, Commensal Bacteria
1664-302X
Grande, Rossella
acd0039e-d03a-498d-a1a4-c63db5a57d59
Celia, Christian
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Mincione, Gabriella
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Stringaro, Annarita
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Di Marzio, Luisa
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Colone, Marisa
33b1c1b2-9f34-4e0e-8edd-2b48479b63ea
Di Marcantonio, Maria C.
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Savino, Luca
d716d809-0c80-4488-8f39-b2924d5e13c2
Puca, Valentina
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Santoliquido, Roberto
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Locatelli, Marcello
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Muraro, Raffaella
eb18adb8-10ed-4256-a5a8-fb5085497fdd
Hall-Stoodley, Luanne
94ebdc00-b549-4488-b15f-5310fb965f5b
Stoodley, Paul
08614665-92a9-4466-806e-20c6daeb483f
Grande, Rossella
acd0039e-d03a-498d-a1a4-c63db5a57d59
Celia, Christian
a83c1085-b231-45eb-9ac2-2f2baabc27ed
Mincione, Gabriella
25deb07b-f154-4658-9f08-1346d70b5f84
Stringaro, Annarita
8ff11b8d-8181-4f61-91bb-a6525e034556
Di Marzio, Luisa
6b9be2b3-59a5-4c54-b85e-78d507d9e002
Colone, Marisa
33b1c1b2-9f34-4e0e-8edd-2b48479b63ea
Di Marcantonio, Maria C.
9c589f51-adfc-4666-b198-cea30b372865
Savino, Luca
d716d809-0c80-4488-8f39-b2924d5e13c2
Puca, Valentina
64cea64c-4055-42e0-81e5-289dbd7a1f7c
Santoliquido, Roberto
0efdfb40-2b5c-4670-82f0-20423f50dc7f
Locatelli, Marcello
8d0b7b82-c736-46b6-bf60-2010365e5c05
Muraro, Raffaella
eb18adb8-10ed-4256-a5a8-fb5085497fdd
Hall-Stoodley, Luanne
94ebdc00-b549-4488-b15f-5310fb965f5b
Stoodley, Paul
08614665-92a9-4466-806e-20c6daeb483f

Grande, Rossella, Celia, Christian, Mincione, Gabriella, Stringaro, Annarita, Di Marzio, Luisa, Colone, Marisa, Di Marcantonio, Maria C., Savino, Luca, Puca, Valentina, Santoliquido, Roberto, Locatelli, Marcello, Muraro, Raffaella, Hall-Stoodley, Luanne and Stoodley, Paul (2017) Detection and physicochemical characterization of Membrane Vesicles (MVs) of Lactobacillus reuteri DSM 17938. Frontiers in Microbiology, 8, [1040]. (doi:10.3389/fmicb.2017.01040).

Record type: Article

Abstract

Membrane vesicles (MVs) are bilayer structures which bleb from bacteria, and are important in trafficking biomolecules to other bacteria or host cells. There are few data about MVs produced by the Gram-positive commensal – derived probiotic Lactobacillus reuteri; however, MVs from this species may have potential therapeutic benefit. The aim of this study was to detect and characterize MVs produced from biofilm (bMVs), and planktonic (pMVs) phenotypes of L. reuteri DSM 17938. MVs were analyzed for structure and physicochemical characterization by Scanning Electron Microscope (SEM) and Dynamic Light Scattering (DLS). Their composition was interrogated using various digestive enzyme treatments and subsequent Transmission Electron Microscopy (TEM) analysis. eDNA (extracellular DNA) was detected and quantified using PicoGreen. We found that planktonic and biofilm of L. reuteri cultures generated MVs with a broad size distribution. Our data also showed that eDNA was associated with pMVs and bMVs (eMVsDNA). DNase I treatment demonstrated no modifications of MVs, suggesting that an eDNA-MVs complex protected the eMVsDNA. Proteinase K and Phospholipase C treatments modified the structure of MVs, showing that lipids and proteins are important structural components of L. reuteri MVs. The biological composition and the physicochemical characterization of MVs generated by the probiotic L. reuteri may represent a starting point for future applications in the development of vesicles-based therapeutic systems.

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Accepted/In Press date: 23 May 2017
e-pub ahead of print date: 13 June 2017
Keywords: Lactobacillus reuteri, Membrane Vesicles (MVs), Biofilm, Nanoparticles, Extracellular DNA, Probiotics, Commensal Bacteria

Identifiers

Local EPrints ID: 412282
URI: http://eprints.soton.ac.uk/id/eprint/412282
DOI: doi:10.3389/fmicb.2017.01040
ISSN: 1664-302X
PURE UUID: 8713cbd6-dfa7-4e45-a9d2-f6ffebedd704
ORCID for Paul Stoodley: ORCID iD orcid.org/0000-0001-6069-273X

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Date deposited: 17 Jul 2017 13:26
Last modified: 16 Mar 2024 04:01

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Contributors

Author: Rossella Grande
Author: Christian Celia
Author: Gabriella Mincione
Author: Annarita Stringaro
Author: Luisa Di Marzio
Author: Marisa Colone
Author: Maria C. Di Marcantonio
Author: Luca Savino
Author: Valentina Puca
Author: Roberto Santoliquido
Author: Marcello Locatelli
Author: Raffaella Muraro
Author: Luanne Hall-Stoodley
Author: Paul Stoodley ORCID iD

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