Engineered living materials based on adhesin-mediated trapping of programmable cells

Engineered living materials have the potential for wide-ranging applications such as biosensing and treatment of diseases. Programmable cells provide the functional basis for living materials; however, their release into the environment raises numerous biosafety concerns. Current designs that limit...

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Published in:ACS Synthetic Biology
Main Authors: Guo, Shuaiqi, Dubuc, Emilien, Rave, Yahav, Verhagen, Mick, Twisk, Simone A.E., van der Hek, Tim, Oerlemans, Guido J.M., van den Oetelaar, Maxime C.M., van Hazendonk, Laura S., Brüls, Mariska, Eijkens, Bruno V., Joostens, Pim L., Keij, Sander R., Xing, Weizhou, Nijs, Martijn, Stalpers, Jitske, Sharma, Manoj, Gerth, Marieke, Boonen, Roy J.E.A., Verduin, Kees, Merkx, Maarten, Voets, Ilja K., De Greef, Tom F.A.
Format: Article in Journal/Newspaper
Language:English
Published: 2020
Subjects:
Antarctic
Antarc*
Online Access:https://research.tue.nl/en/publications/5cedf122-29a6-48c7-8c49-9adfe60e6ec8
https://doi.org/10.1021/acssynbio.9b00404
https://pure.tue.nl/ws/files/148307600/acssynbio.9b00404.pdf
http://www.scopus.com/inward/record.url?scp=85081256135&partnerID=8YFLogxK
id ftuniveindcris:oai:pure.tue.nl:publications/5cedf122-29a6-48c7-8c49-9adfe60e6ec8
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spelling ftuniveindcris:oai:pure.tue.nl:publications/5cedf122-29a6-48c7-8c49-9adfe60e6ec8 2024-06-23T07:47:38+00:00 Engineered living materials based on adhesin-mediated trapping of programmable cells Guo, Shuaiqi Dubuc, Emilien Rave, Yahav Verhagen, Mick Twisk, Simone A.E. van der Hek, Tim Oerlemans, Guido J.M. van den Oetelaar, Maxime C.M. van Hazendonk, Laura S. Brüls, Mariska Eijkens, Bruno V. Joostens, Pim L. Keij, Sander R. Xing, Weizhou Nijs, Martijn Stalpers, Jitske Sharma, Manoj Gerth, Marieke Boonen, Roy J.E.A. Verduin, Kees Merkx, Maarten Voets, Ilja K. De Greef, Tom F.A. 2020-03-20 application/pdf https://research.tue.nl/en/publications/5cedf122-29a6-48c7-8c49-9adfe60e6ec8 https://doi.org/10.1021/acssynbio.9b00404 https://pure.tue.nl/ws/files/148307600/acssynbio.9b00404.pdf http://www.scopus.com/inward/record.url?scp=85081256135&partnerID=8YFLogxK eng eng https://research.tue.nl/en/publications/5cedf122-29a6-48c7-8c49-9adfe60e6ec8 info:eu-repo/semantics/openAccess Guo , S , Dubuc , E , Rave , Y , Verhagen , M , Twisk , S A E , van der Hek , T , Oerlemans , G J M , van den Oetelaar , M C M , van Hazendonk , L S , Brüls , M , Eijkens , B V , Joostens , P L , Keij , S R , Xing , W , Nijs , M , Stalpers , J , Sharma , M , Gerth , M , Boonen , R J E A , Verduin , K , Merkx , M , Voets , I K & De Greef , T F A 2020 , ' Engineered living materials based on adhesin-mediated trapping of programmable cells ' , ACS Synthetic Biology , vol. 9 , no. 3 , pp. 475-485 . https://doi.org/10.1021/acssynbio.9b00404 article 2020 ftuniveindcris https://doi.org/10.1021/acssynbio.9b00404 2024-06-13T00:04:01Z Engineered living materials have the potential for wide-ranging applications such as biosensing and treatment of diseases. Programmable cells provide the functional basis for living materials; however, their release into the environment raises numerous biosafety concerns. Current designs that limit the release of genetically engineered cells typically involve the fabrication of multilayer hybrid materials with submicrometer porous matrices. Nevertheless the stringent physical barriers limit the diffusion of macromolecules and therefore the repertoire of molecules available for actuation in response to communication signals between cells and their environment. Here, we engineer a novel living material entitled "Platform for Adhesin-mediated Trapping of Cells in Hydrogels" (PATCH). This technology is based on engineered E. coli that displays an adhesion protein derived from an Antarctic bacterium with a high affinity for glucose. The adhesin stably anchors E. coli in dextran-based hydrogels with large pore diameters (10-100 μm) and reduces the leakage of bacteria into the environment by up to 100-fold. As an application of PATCH, we engineered E. coli to secrete the bacteriocin lysostaphin which specifically kills Staphyloccocus aureus with low probability of raising antibiotic resistance. We demonstrated that living materials containing this lysostaphin-secreting E. coli inhibit the growth of S. aureus, including the strain resistant to methicillin (MRSA). Our tunable platform allows stable integration of programmable cells in dextran-based hydrogels without compromising free diffusion of macromolecules and could have potential applications in biotechnology and biomedicine. © Article in Journal/Newspaper Antarc* Antarctic Eindhoven University of Technology research portal Antarctic ACS Synthetic Biology 9 3 475 485
institution Open Polar
collection Eindhoven University of Technology research portal
op_collection_id ftuniveindcris
language English
description Engineered living materials have the potential for wide-ranging applications such as biosensing and treatment of diseases. Programmable cells provide the functional basis for living materials; however, their release into the environment raises numerous biosafety concerns. Current designs that limit the release of genetically engineered cells typically involve the fabrication of multilayer hybrid materials with submicrometer porous matrices. Nevertheless the stringent physical barriers limit the diffusion of macromolecules and therefore the repertoire of molecules available for actuation in response to communication signals between cells and their environment. Here, we engineer a novel living material entitled "Platform for Adhesin-mediated Trapping of Cells in Hydrogels" (PATCH). This technology is based on engineered E. coli that displays an adhesion protein derived from an Antarctic bacterium with a high affinity for glucose. The adhesin stably anchors E. coli in dextran-based hydrogels with large pore diameters (10-100 μm) and reduces the leakage of bacteria into the environment by up to 100-fold. As an application of PATCH, we engineered E. coli to secrete the bacteriocin lysostaphin which specifically kills Staphyloccocus aureus with low probability of raising antibiotic resistance. We demonstrated that living materials containing this lysostaphin-secreting E. coli inhibit the growth of S. aureus, including the strain resistant to methicillin (MRSA). Our tunable platform allows stable integration of programmable cells in dextran-based hydrogels without compromising free diffusion of macromolecules and could have potential applications in biotechnology and biomedicine. ©
format Article in Journal/Newspaper
author Guo, Shuaiqi
Dubuc, Emilien
Rave, Yahav
Verhagen, Mick
Twisk, Simone A.E.
van der Hek, Tim
Oerlemans, Guido J.M.
van den Oetelaar, Maxime C.M.
van Hazendonk, Laura S.
Brüls, Mariska
Eijkens, Bruno V.
Joostens, Pim L.
Keij, Sander R.
Xing, Weizhou
Nijs, Martijn
Stalpers, Jitske
Sharma, Manoj
Gerth, Marieke
Boonen, Roy J.E.A.
Verduin, Kees
Merkx, Maarten
Voets, Ilja K.
De Greef, Tom F.A.
spellingShingle Guo, Shuaiqi
Dubuc, Emilien
Rave, Yahav
Verhagen, Mick
Twisk, Simone A.E.
van der Hek, Tim
Oerlemans, Guido J.M.
van den Oetelaar, Maxime C.M.
van Hazendonk, Laura S.
Brüls, Mariska
Eijkens, Bruno V.
Joostens, Pim L.
Keij, Sander R.
Xing, Weizhou
Nijs, Martijn
Stalpers, Jitske
Sharma, Manoj
Gerth, Marieke
Boonen, Roy J.E.A.
Verduin, Kees
Merkx, Maarten
Voets, Ilja K.
De Greef, Tom F.A.
Engineered living materials based on adhesin-mediated trapping of programmable cells
author_facet Guo, Shuaiqi
Dubuc, Emilien
Rave, Yahav
Verhagen, Mick
Twisk, Simone A.E.
van der Hek, Tim
Oerlemans, Guido J.M.
van den Oetelaar, Maxime C.M.
van Hazendonk, Laura S.
Brüls, Mariska
Eijkens, Bruno V.
Joostens, Pim L.
Keij, Sander R.
Xing, Weizhou
Nijs, Martijn
Stalpers, Jitske
Sharma, Manoj
Gerth, Marieke
Boonen, Roy J.E.A.
Verduin, Kees
Merkx, Maarten
Voets, Ilja K.
De Greef, Tom F.A.
author_sort Guo, Shuaiqi
title Engineered living materials based on adhesin-mediated trapping of programmable cells
title_short Engineered living materials based on adhesin-mediated trapping of programmable cells
title_full Engineered living materials based on adhesin-mediated trapping of programmable cells
title_fullStr Engineered living materials based on adhesin-mediated trapping of programmable cells
title_full_unstemmed Engineered living materials based on adhesin-mediated trapping of programmable cells
title_sort engineered living materials based on adhesin-mediated trapping of programmable cells
publishDate 2020
url https://research.tue.nl/en/publications/5cedf122-29a6-48c7-8c49-9adfe60e6ec8
https://doi.org/10.1021/acssynbio.9b00404
https://pure.tue.nl/ws/files/148307600/acssynbio.9b00404.pdf
http://www.scopus.com/inward/record.url?scp=85081256135&partnerID=8YFLogxK
geographic Antarctic
geographic_facet Antarctic
genre Antarc*
Antarctic
genre_facet Antarc*
Antarctic
op_source Guo , S , Dubuc , E , Rave , Y , Verhagen , M , Twisk , S A E , van der Hek , T , Oerlemans , G J M , van den Oetelaar , M C M , van Hazendonk , L S , Brüls , M , Eijkens , B V , Joostens , P L , Keij , S R , Xing , W , Nijs , M , Stalpers , J , Sharma , M , Gerth , M , Boonen , R J E A , Verduin , K , Merkx , M , Voets , I K & De Greef , T F A 2020 , ' Engineered living materials based on adhesin-mediated trapping of programmable cells ' , ACS Synthetic Biology , vol. 9 , no. 3 , pp. 475-485 . https://doi.org/10.1021/acssynbio.9b00404
op_relation https://research.tue.nl/en/publications/5cedf122-29a6-48c7-8c49-9adfe60e6ec8
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1021/acssynbio.9b00404
container_title ACS Synthetic Biology
container_volume 9
container_issue 3
container_start_page 475
op_container_end_page 485
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