SPIONs' Enhancer Effect on Cell Transfection: An Unexpected Advantage for an Improved Gene Delivery System

Laura Balcells; Cristina Fornaguera; Pau Brugada-Vilà; Marta Guerra-Rebollo; Óscar Meca-Cortés; Gema Martínez; Núria Rubio; Jerónimo Blanco; Jesús Santamaría; Anna Cascante; Salvador Borrós

doi:10.1021/acsomega.8b02905

SPIONs' Enhancer Effect on Cell Transfection: An Unexpected Advantage for an Improved Gene Delivery System

Laura Balcells
, Cristina Fornaguera
, Pau Brugada-Vilà
, Marta Guerra-Rebollo
, Óscar Meca-Cortés
, Gema Martínez
, Núria Rubio
, Jerónimo Blanco
, Jesús Santamaría
, Anna Cascante
, Salvador Borrós^*

^*Corresponding author for this work

Research output: Indexed journal article › Article › peer-review

13 Citations (Scopus)

Abstract

The clinical implantation of gene therapy is hindered by the limitations of current gene delivery vectors, namely, safety issues regarding viral vectors and low transfection efficacy regarding nonviral vectors. Thus, the design of safe and efficient gene carriers is a key point for the success of such therapies. In addition, when employing genetically modified cells for further applications, the selection of successfully modified cells becomes crucial. To address these issues, we have developed multicomponent nanoparticles composed of poly(ß-amino ester) (pBAE) polymers, plasmid DNA, and superparamagnetic iron oxide nanoparticles (SPIONs). Whereas pBAEs were initially employed as safe and biocompatible carriers with improved transfection efficiency, as compared to commercial vectors, SPIONs were used because of their magnetic character that enables cell selection. Surprisingly, the results presented here revealed an unexpected enhancer effect of SPIONs on the transfection efficiency of pBAE/pDNA polyplexes in both permissive and reluctant to transfection cell lines. This unanticipated outcome, together with the allowance to perform a selective magnetic sorting of genetically modified cells without interfering in cell transfection, opens the door to SPION-containing nanoparticles as promising tools for cell therapy approaches.

Original language	English
Pages (from-to)	2728-2740
Number of pages	13
Journal	ACS Omega
Volume	4
Issue number	2
DOIs	https://doi.org/10.1021/acsomega.8b02905
Publication status	Published - 6 Feb 2019

Keywords

Poly(beta-amino ester)s
Magnetic nanoparticles
Gold nanoparticles
Nonviral vectors
Dna delivery
In-vivo
Therapy
Sirna
Efficient
Polyelectrolytes

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10.1021/acsomega.8b02905

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@article{4924a6b2ddb149dfa72c39fee06a7208,

title = "SPIONs' Enhancer Effect on Cell Transfection: An Unexpected Advantage for an Improved Gene Delivery System",

abstract = "The clinical implantation of gene therapy is hindered by the limitations of current gene delivery vectors, namely, safety issues regarding viral vectors and low transfection efficacy regarding nonviral vectors. Thus, the design of safe and efficient gene carriers is a key point for the success of such therapies. In addition, when employing genetically modified cells for further applications, the selection of successfully modified cells becomes crucial. To address these issues, we have developed multicomponent nanoparticles composed of poly({\ss}-amino ester) (pBAE) polymers, plasmid DNA, and superparamagnetic iron oxide nanoparticles (SPIONs). Whereas pBAEs were initially employed as safe and biocompatible carriers with improved transfection efficiency, as compared to commercial vectors, SPIONs were used because of their magnetic character that enables cell selection. Surprisingly, the results presented here revealed an unexpected enhancer effect of SPIONs on the transfection efficiency of pBAE/pDNA polyplexes in both permissive and reluctant to transfection cell lines. This unanticipated outcome, together with the allowance to perform a selective magnetic sorting of genetically modified cells without interfering in cell transfection, opens the door to SPION-containing nanoparticles as promising tools for cell therapy approaches.",

keywords = "Poly(beta-amino ester)s, Magnetic nanoparticles, Gold nanoparticles, Nonviral vectors, Dna delivery, In-vivo, Therapy, Sirna, Efficient, Polyelectrolytes",

author = "Laura Balcells and Cristina Fornaguera and Pau Brugada-Vil{\`a} and Marta Guerra-Rebollo and {\'O}scar Meca-Cort{\'e}s and Gema Mart{\'i}nez and N{\'u}ria Rubio and Jer{\'o}nimo Blanco and Jes{\'u}s Santamar{\'i}a and Anna Cascante and Salvador Borr{\'o}s",

note = "Funding Information: Financial supports from MINECO/FEDER (grants RTC-2015-3751-1, SAF2015-64927-C2-1-R, and SAF2015-64927-C2-2-R) and Instituto de Salud Carlos III (Red Tematic{\'a} de Investigacio{\'n} Cooperativa en Terapia Celular-TERCEL and TRANSMAG transference project from CIBER-BBN) are acknowledged. CIBER-BBN is an initiative funded by the VI National R\&D\&I Plan2008−2011, Iniciativa Ingenio 2010, Consolider Program, CIBER Actions, and financed by the Instituto de Salud Carlos III with assistance from the European Regional Development Fund. L.B. is grateful to IQS for their Predoctoral Grant (Ajuts IQS pels Estudis de Doctrorat). C.F. is grateful to MINECO for their Postdoctoral Fellowship (grant Torres Quevedo 2015). The Support of Ageǹcia de Gesti{\'o} d{\textquoteright}Ajuts Universitaris i de Recerca (AGAUR) from Generalitat de Catalunya is acknowledged for their support through SGR 2014 1170 grant. Publisher Copyright: Copyright {\textcopyright} 2019 American Chemical Society.",

year = "2019",

month = feb,

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doi = "10.1021/acsomega.8b02905",

language = "English",

volume = "4",

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journal = "ACS Omega",

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T1 - SPIONs' Enhancer Effect on Cell Transfection

T2 - An Unexpected Advantage for an Improved Gene Delivery System

AU - Balcells, Laura

AU - Fornaguera, Cristina

AU - Brugada-Vilà, Pau

AU - Guerra-Rebollo, Marta

AU - Meca-Cortés, Óscar

AU - Martínez, Gema

AU - Rubio, Núria

AU - Blanco, Jerónimo

AU - Santamaría, Jesús

AU - Cascante, Anna

AU - Borrós, Salvador

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N2 - The clinical implantation of gene therapy is hindered by the limitations of current gene delivery vectors, namely, safety issues regarding viral vectors and low transfection efficacy regarding nonviral vectors. Thus, the design of safe and efficient gene carriers is a key point for the success of such therapies. In addition, when employing genetically modified cells for further applications, the selection of successfully modified cells becomes crucial. To address these issues, we have developed multicomponent nanoparticles composed of poly(ß-amino ester) (pBAE) polymers, plasmid DNA, and superparamagnetic iron oxide nanoparticles (SPIONs). Whereas pBAEs were initially employed as safe and biocompatible carriers with improved transfection efficiency, as compared to commercial vectors, SPIONs were used because of their magnetic character that enables cell selection. Surprisingly, the results presented here revealed an unexpected enhancer effect of SPIONs on the transfection efficiency of pBAE/pDNA polyplexes in both permissive and reluctant to transfection cell lines. This unanticipated outcome, together with the allowance to perform a selective magnetic sorting of genetically modified cells without interfering in cell transfection, opens the door to SPION-containing nanoparticles as promising tools for cell therapy approaches.

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KW - Dna delivery

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KW - Therapy

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KW - Efficient

KW - Polyelectrolytes

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SPIONs' Enhancer Effect on Cell Transfection: An Unexpected Advantage for an Improved Gene Delivery System

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Keywords

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