Urease-powered nanobots for radionuclide bladder cancer therapy

Cristina  Simó Costa; Meritxell Serra-Casablancas; A. C. L. Hortelão; Valerio Di Carlo; Sandra Guallar Garrido; Sandra Plaza-García; Rosa Maria Rabanal; Pedro Ramos-Cabrer; Balbino Yagüe; Laura Aguado; Lídia Bardia; Sébastien Tosi; Vanessa Gómez Vallejo; Abraham Martín; Tania Patino; Esther Julián; Julien Colombelli; Jordi Llop; Samuel Sánchez

doi:10.1038/s41565-023-01577-y

Urease-powered nanobots for radionuclide bladder cancer therapy

Cristina Simó Costa , Meritxell Serra-Casablancas, A. C. L. Hortelão, Valerio Di Carlo, Sandra Guallar Garrido, Sandra Plaza-García, Rosa Maria Rabanal, Pedro Ramos-Cabrer, Balbino Yagüe, Laura Aguado, Lídia Bardia, Sébastien Tosi, Vanessa Gómez Vallejo, Abraham Martín, Tania Patino, Esther Julián, Julien Colombelli, Jordi Llop, Samuel Sánchez

Producció científica: Contribució a revista › Article › Recerca › Avaluat per experts

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Resum

Bladder cancer treatment via intravesical drug administration achieves reasonable survival rates but suffers from low therapeutic efficacy. To address the latter, self-propelled nanoparticles or nanobots have been proposed, taking advantage of their enhanced diffusion and mixing capabilities in urine when compared with conventional drugs or passive nanoparticles. However, the translational capabilities of nanobots in treating bladder cancer are underexplored. Here, we tested radiolabelled mesoporous silica-based urease-powered nanobots in an orthotopic mouse model of bladder cancer. In vivo and ex vivo results demonstrated enhanced nanobot accumulation at the tumour site, with an eightfold increase revealed by positron emission tomography in vivo. Label-free optical contrast based on polarization-dependent scattered light-sheet microscopy of cleared bladders confirmed tumour penetration by nanobots ex vivo. Treating tumour-bearing mice with intravesically administered radio-iodinated nanobots for radionuclide therapy resulted in a tumour size reduction of about 90%, positioning nanobots as efficient delivery nanosystems for bladder cancer therapy.

Idioma original	Anglès
Pàgines (de-a)	554-564
Nombre de pàgines	19
Revista	Nature Nanotechnology
Volum	19
Número	4
Data online anticipada	15 de gen. 2024
DOIs	https://doi.org/10.1038/s41565-023-01577-y https://doi.org/10.1038/s41565-023-01577-y
Estat de la publicació	Publicada - 15 de gen. 2024

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https://ddd.uab.cat/record/310544

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NUEVA GENERACION DE AGENTES INMUNOTERAPEUTICOS BASADOS EN MICOBACTERIAS NO TUBERCULOSAS MODIFICADAS
Julian Gomez, E. (PI), Luquin Fernandez, M. D. L. M. (Investigador/a), Rabanal Prados, R. M. (Investigador/a), Carbonell Segura, J. (Col.laborador/a), Segui Moll, A. (Col.laborador/a), Herrero Abadia, P. (Col.laborador/a) & Campo Pérez, V. (Col.laborador/a)
Fons Europeu de Desenvolupament Regional (FEDER)
1/09/22 → 31/08/25
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Simó Costa , C., Serra-Casablancas, M., Hortelão, A. C. L., Carlo, V. D., Garrido, S. G., Plaza-García, S., Rabanal, R. M., Ramos-Cabrer, P., Yagüe, B., Aguado, L., Bardia, L., Tosi, S., Vallejo, V. G., Martín, A., Patino, T., Julián, E., Colombelli, J., Llop, J., & Sánchez, S. (2024). Urease-powered nanobots for radionuclide bladder cancer therapy. Nature Nanotechnology, 19(4), 554-564. https://doi.org/10.1038/s41565-023-01577-y, https://doi.org/10.1038/s41565-023-01577-y

@article{40f769bca2014ecea52189279c5d922f,

title = "Urease-powered nanobots for radionuclide bladder cancer therapy",

abstract = "Bladder cancer treatment via intravesical drug administration achieves reasonable survival rates but suffers from low therapeutic efficacy. To address the latter, self-propelled nanoparticles or nanobots have been proposed, taking advantage of their enhanced diffusion and mixing capabilities in urine when compared with conventional drugs or passive nanoparticles. However, the translational capabilities of nanobots in treating bladder cancer are underexplored. Here, we tested radiolabelled mesoporous silica-based urease-powered nanobots in an orthotopic mouse model of bladder cancer. In vivo and ex vivo results demonstrated enhanced nanobot accumulation at the tumour site, with an eightfold increase revealed by positron emission tomography in vivo. Label-free optical contrast based on polarization-dependent scattered light-sheet microscopy of cleared bladders confirmed tumour penetration by nanobots ex vivo. Treating tumour-bearing mice with intravesically administered radio-iodinated nanobots for radionuclide therapy resulted in a tumour size reduction of about 90%, positioning nanobots as efficient delivery nanosystems for bladder cancer therapy.",

keywords = "Cell, Drug-delivery, Nanomotors, Tissue, Tumor penetration, Animals, Urinary Bladder Neoplasms/diagnostic imaging, Mice, Urease, Administration, Intravesical, Radioisotopes/therapeutic use",

author = "{Sim{\'o} Costa}, Cristina and Meritxell Serra-Casablancas and Hortel{\~a}o, {A. C. L.} and Carlo, {Valerio Di} and Garrido, {Sandra Guallar} and Sandra Plaza-Garc{\'i}a and Rabanal, {Rosa Maria} and Pedro Ramos-Cabrer and Balbino Yag{\"u}e and Laura Aguado and L{\'i}dia Bardia and S{\'e}bastien Tosi and Vallejo, {Vanessa G{\'o}mez} and Abraham Mart{\'i}n and Tania Patino and Esther Juli{\'a}n and Julien Colombelli and Jordi Llop and Samuel S{\'a}nchez",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = jan,

day = "15",

doi = "10.1038/s41565-023-01577-y",

language = "English",

volume = "19",

pages = "554--564",

journal = "Nature Nanotechnology",

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Simó Costa , C, Serra-Casablancas, M, Hortelão, ACL, Carlo, VD, Garrido, SG, Plaza-García, S, Rabanal, RM, Ramos-Cabrer, P, Yagüe, B, Aguado, L, Bardia, L, Tosi, S, Vallejo, VG, Martín, A, Patino, T, Julián, E, Colombelli, J, Llop, J & Sánchez, S 2024, 'Urease-powered nanobots for radionuclide bladder cancer therapy', Nature Nanotechnology, vol. 19, núm. 4, pàg. 554-564. https://doi.org/10.1038/s41565-023-01577-y, https://doi.org/10.1038/s41565-023-01577-y

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AU - Simó Costa , Cristina

AU - Serra-Casablancas, Meritxell

AU - Hortelão, A. C. L.

AU - Carlo, Valerio Di

AU - Garrido, Sandra Guallar

AU - Plaza-García, Sandra

AU - Rabanal, Rosa Maria

AU - Ramos-Cabrer, Pedro

AU - Yagüe, Balbino

AU - Aguado, Laura

AU - Bardia, Lídia

AU - Tosi, Sébastien

AU - Vallejo, Vanessa Gómez

AU - Martín, Abraham

AU - Patino, Tania

AU - Julián, Esther

AU - Colombelli, Julien

AU - Llop, Jordi

AU - Sánchez, Samuel

N1 - Publisher Copyright: © The Author(s) 2024.

PY - 2024/1/15

Y1 - 2024/1/15

N2 - Bladder cancer treatment via intravesical drug administration achieves reasonable survival rates but suffers from low therapeutic efficacy. To address the latter, self-propelled nanoparticles or nanobots have been proposed, taking advantage of their enhanced diffusion and mixing capabilities in urine when compared with conventional drugs or passive nanoparticles. However, the translational capabilities of nanobots in treating bladder cancer are underexplored. Here, we tested radiolabelled mesoporous silica-based urease-powered nanobots in an orthotopic mouse model of bladder cancer. In vivo and ex vivo results demonstrated enhanced nanobot accumulation at the tumour site, with an eightfold increase revealed by positron emission tomography in vivo. Label-free optical contrast based on polarization-dependent scattered light-sheet microscopy of cleared bladders confirmed tumour penetration by nanobots ex vivo. Treating tumour-bearing mice with intravesically administered radio-iodinated nanobots for radionuclide therapy resulted in a tumour size reduction of about 90%, positioning nanobots as efficient delivery nanosystems for bladder cancer therapy.

AB - Bladder cancer treatment via intravesical drug administration achieves reasonable survival rates but suffers from low therapeutic efficacy. To address the latter, self-propelled nanoparticles or nanobots have been proposed, taking advantage of their enhanced diffusion and mixing capabilities in urine when compared with conventional drugs or passive nanoparticles. However, the translational capabilities of nanobots in treating bladder cancer are underexplored. Here, we tested radiolabelled mesoporous silica-based urease-powered nanobots in an orthotopic mouse model of bladder cancer. In vivo and ex vivo results demonstrated enhanced nanobot accumulation at the tumour site, with an eightfold increase revealed by positron emission tomography in vivo. Label-free optical contrast based on polarization-dependent scattered light-sheet microscopy of cleared bladders confirmed tumour penetration by nanobots ex vivo. Treating tumour-bearing mice with intravesically administered radio-iodinated nanobots for radionuclide therapy resulted in a tumour size reduction of about 90%, positioning nanobots as efficient delivery nanosystems for bladder cancer therapy.

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KW - Drug-delivery

KW - Nanomotors

KW - Tissue

KW - Tumor penetration

KW - Animals

KW - Urinary Bladder Neoplasms/diagnostic imaging

KW - Mice

KW - Urease

KW - Administration, Intravesical

KW - Radioisotopes/therapeutic use

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JF - Nature Nanotechnology

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Urease-powered nanobots for radionuclide bladder cancer therapy

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