Cationic PMMA nanoparticles bind and deliver antisense oligoribonucleotides allowing restoration of dystrophin expression in the mdx mouse

Paola Rimessi; Patrizia Sabatelli; Marina Fabris; Paola Braghetta; Elena Bassi; Pietro Spitali; Gaetano Vattemi; Giuliano Tomelleri; Lara Mari; Daniela Perrone; Alessandro Medici; Marcella Neri; Matteo Bovolenta; Elena Martoni; Nadir M. Maraldi; Francesca Gualandi; Luciano Merlini; Marco Ballestri; Luisa Tondelli; Katia Sparnacci; Paolo Bonaldo; Antonella Caputo; Michele Laus; Alessandra Ferlini

doi:10.1038/mt.2009.8

Cationic PMMA nanoparticles bind and deliver antisense oligoribonucleotides allowing restoration of dystrophin expression in the mdx mouse

Paola Rimessi, Patrizia Sabatelli, Marina Fabris, Paola Braghetta, Elena Bassi, Pietro Spitali, Gaetano Vattemi, Giuliano Tomelleri, Lara Mari, Daniela Perrone, Alessandro Medici, Marcella Neri, Matteo Bovolenta, Elena Martoni, Nadir M. Maraldi, Francesca Gualandi, Luciano Merlini, Marco Ballestri, Luisa Tondelli, Katia SparnacciPaolo Bonaldo, Antonella Caputo, Michele Laus, Alessandra Ferlini

Dipartimento di Scienze e Innovazione Tecnologica

Risultato della ricerca: Contributo su rivista › Articolo in rivista › peer review

Abstract

For subsets of Duchenne muscular dystrophy (DMD) mutations, antisense oligoribonucleotide (AON)-mediated exon skipping has proven to be efficacious in restoring the expression of dystrophin protein. In the mdx murine model systemic delivery of AON, recognizing the splice donor of dystrophin exon 23, has shown proof of concept. Here, we show that using cationic polymethylmethacrylate (PMMA) (marked as T1) nanoparticles loaded with a low dose of 2′-O-methyl-phosphorothioate (2′OMePS) AON delivered by weekly intraperitoneal (IP) injection (0.9 mg/kg/week), could restore dystrophin expression in body-wide striated muscles. Delivery of an identical dose of naked AON did not result in detectable dystrophin expression. Transcription, western, and immunohistochemical analysis showed increased levels of dystrophin transcript and protein, and correct localization at the sarcolemma. This study shows that T1 nanoparticles have the capacity to bind and convoy AONs in body-wide muscle tissues and to reduce the dose required for dystrophin rescue. By immunofluorescence and electron microscopy studies, we highlighted the diffusion pathways of this compound. This nonviral approach may valuably improve the therapeutic usage of AONs in DMD as well as the delivery of RNA molecules with many implications in both basic research and medicine.

Lingua originale	Inglese
pagine (da-a)	820-827
Numero di pagine	8
Rivista	Molecular Therapy
Volume	17
Numero di pubblicazione	5
DOI	https://doi.org/10.1038/mt.2009.8
Stato di pubblicazione	Pubblicato - 2009

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10.1038/mt.2009.8

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Rimessi, P., Sabatelli, P., Fabris, M., Braghetta, P., Bassi, E., Spitali, P., Vattemi, G., Tomelleri, G., Mari, L., Perrone, D., Medici, A., Neri, M., Bovolenta, M., Martoni, E., Maraldi, N. M., Gualandi, F., Merlini, L., Ballestri, M., Tondelli, L., ... Ferlini, A. (2009). Cationic PMMA nanoparticles bind and deliver antisense oligoribonucleotides allowing restoration of dystrophin expression in the mdx mouse. Molecular Therapy, 17(5), 820-827. https://doi.org/10.1038/mt.2009.8

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title = "Cationic PMMA nanoparticles bind and deliver antisense oligoribonucleotides allowing restoration of dystrophin expression in the mdx mouse",

abstract = "For subsets of Duchenne muscular dystrophy (DMD) mutations, antisense oligoribonucleotide (AON)-mediated exon skipping has proven to be efficacious in restoring the expression of dystrophin protein. In the mdx murine model systemic delivery of AON, recognizing the splice donor of dystrophin exon 23, has shown proof of concept. Here, we show that using cationic polymethylmethacrylate (PMMA) (marked as T1) nanoparticles loaded with a low dose of 2′-O-methyl-phosphorothioate (2′OMePS) AON delivered by weekly intraperitoneal (IP) injection (0.9 mg/kg/week), could restore dystrophin expression in body-wide striated muscles. Delivery of an identical dose of naked AON did not result in detectable dystrophin expression. Transcription, western, and immunohistochemical analysis showed increased levels of dystrophin transcript and protein, and correct localization at the sarcolemma. This study shows that T1 nanoparticles have the capacity to bind and convoy AONs in body-wide muscle tissues and to reduce the dose required for dystrophin rescue. By immunofluorescence and electron microscopy studies, we highlighted the diffusion pathways of this compound. This nonviral approach may valuably improve the therapeutic usage of AONs in DMD as well as the delivery of RNA molecules with many implications in both basic research and medicine.",

author = "Paola Rimessi and Patrizia Sabatelli and Marina Fabris and Paola Braghetta and Elena Bassi and Pietro Spitali and Gaetano Vattemi and Giuliano Tomelleri and Lara Mari and Daniela Perrone and Alessandro Medici and Marcella Neri and Matteo Bovolenta and Elena Martoni and Maraldi, {Nadir M.} and Francesca Gualandi and Luciano Merlini and Marco Ballestri and Luisa Tondelli and Katia Sparnacci and Paolo Bonaldo and Antonella Caputo and Michele Laus and Alessandra Ferlini",

year = "2009",

doi = "10.1038/mt.2009.8",

language = "English",

volume = "17",

pages = "820--827",

journal = "Molecular Therapy",

issn = "1525-0016",

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number = "5",

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Rimessi, P, Sabatelli, P, Fabris, M, Braghetta, P, Bassi, E, Spitali, P, Vattemi, G, Tomelleri, G, Mari, L, Perrone, D, Medici, A, Neri, M, Bovolenta, M, Martoni, E, Maraldi, NM, Gualandi, F, Merlini, L, Ballestri, M, Tondelli, L, Sparnacci, K, Bonaldo, P, Caputo, A, Laus, M & Ferlini, A 2009, 'Cationic PMMA nanoparticles bind and deliver antisense oligoribonucleotides allowing restoration of dystrophin expression in the mdx mouse', Molecular Therapy, vol. 17, n. 5, pagg. 820-827. https://doi.org/10.1038/mt.2009.8

TY - JOUR

T1 - Cationic PMMA nanoparticles bind and deliver antisense oligoribonucleotides allowing restoration of dystrophin expression in the mdx mouse

AU - Rimessi, Paola

AU - Sabatelli, Patrizia

AU - Fabris, Marina

AU - Braghetta, Paola

AU - Bassi, Elena

AU - Spitali, Pietro

AU - Vattemi, Gaetano

AU - Tomelleri, Giuliano

AU - Mari, Lara

AU - Perrone, Daniela

AU - Medici, Alessandro

AU - Neri, Marcella

AU - Bovolenta, Matteo

AU - Martoni, Elena

AU - Maraldi, Nadir M.

AU - Gualandi, Francesca

AU - Merlini, Luciano

AU - Ballestri, Marco

AU - Tondelli, Luisa

AU - Sparnacci, Katia

AU - Bonaldo, Paolo

AU - Caputo, Antonella

AU - Laus, Michele

AU - Ferlini, Alessandra

PY - 2009

Y1 - 2009

N2 - For subsets of Duchenne muscular dystrophy (DMD) mutations, antisense oligoribonucleotide (AON)-mediated exon skipping has proven to be efficacious in restoring the expression of dystrophin protein. In the mdx murine model systemic delivery of AON, recognizing the splice donor of dystrophin exon 23, has shown proof of concept. Here, we show that using cationic polymethylmethacrylate (PMMA) (marked as T1) nanoparticles loaded with a low dose of 2′-O-methyl-phosphorothioate (2′OMePS) AON delivered by weekly intraperitoneal (IP) injection (0.9 mg/kg/week), could restore dystrophin expression in body-wide striated muscles. Delivery of an identical dose of naked AON did not result in detectable dystrophin expression. Transcription, western, and immunohistochemical analysis showed increased levels of dystrophin transcript and protein, and correct localization at the sarcolemma. This study shows that T1 nanoparticles have the capacity to bind and convoy AONs in body-wide muscle tissues and to reduce the dose required for dystrophin rescue. By immunofluorescence and electron microscopy studies, we highlighted the diffusion pathways of this compound. This nonviral approach may valuably improve the therapeutic usage of AONs in DMD as well as the delivery of RNA molecules with many implications in both basic research and medicine.

AB - For subsets of Duchenne muscular dystrophy (DMD) mutations, antisense oligoribonucleotide (AON)-mediated exon skipping has proven to be efficacious in restoring the expression of dystrophin protein. In the mdx murine model systemic delivery of AON, recognizing the splice donor of dystrophin exon 23, has shown proof of concept. Here, we show that using cationic polymethylmethacrylate (PMMA) (marked as T1) nanoparticles loaded with a low dose of 2′-O-methyl-phosphorothioate (2′OMePS) AON delivered by weekly intraperitoneal (IP) injection (0.9 mg/kg/week), could restore dystrophin expression in body-wide striated muscles. Delivery of an identical dose of naked AON did not result in detectable dystrophin expression. Transcription, western, and immunohistochemical analysis showed increased levels of dystrophin transcript and protein, and correct localization at the sarcolemma. This study shows that T1 nanoparticles have the capacity to bind and convoy AONs in body-wide muscle tissues and to reduce the dose required for dystrophin rescue. By immunofluorescence and electron microscopy studies, we highlighted the diffusion pathways of this compound. This nonviral approach may valuably improve the therapeutic usage of AONs in DMD as well as the delivery of RNA molecules with many implications in both basic research and medicine.

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U2 - 10.1038/mt.2009.8

DO - 10.1038/mt.2009.8

M3 - Article

SN - 1525-0016

VL - 17

SP - 820

EP - 827

JO - Molecular Therapy

JF - Molecular Therapy

IS - 5

ER -

Cationic PMMA nanoparticles bind and deliver antisense oligoribonucleotides allowing restoration of dystrophin expression in the mdx mouse

Abstract

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