Methodological advances in the discovery of novel neuroblastoma therapeutics
Methodological advances in the discovery of novel neuroblastoma therapeutics
Introduction: Neuroblastoma is a cancer of the sympathetic nervous system that causes up to 15% of cancer-related deaths among children. Among the ~1,000 newly diagnosed cases per year in Europe, more than half are classified as high-risk, with a 5-year survival rate <50%. Current multimodal treatments have improved survival among these patients, but relapsed and refractory tumors remain a major therapeutic challenge. A number of new methodologies are paving the way for the development of more effective and safer therapies to ultimately improve outcomes for high-risk patients. Areas covered: The authors provide a critical review on methodological advances aimed at providing new therapeutic opportunities for neuroblastoma patients, including preclinical models of human disease, generation of omics data to discover new therapeutic targets, and artificial intelligence-based technologies to implement personalized treatments. Expert opinion: While survival of childhood cancer has improved over the past decades, progress has been uneven. Still, survival is dismal for some cancers, including high-risk neuroblastoma. Embracing new technologies (e.g. molecular profiling of tumors, 3D in vitro models, etc.), international collaborative efforts and the incorporation of new therapies (e.g. RNA-based therapies, epigenetic therapies, immunotherapy) will ultimately lead to more effective and safer therapies for these subgroups of neuroblastoma patients.
3D in vitro models, Functional genomics, genetically engineered murine models, immunotherapy, liquid biopsy, neuroblastoma, next generation sequencing, patient-derived xenografts, radiogenomics
Segura, Miguel F.
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Soriano, Aroa
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Roma, Josep
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Piskareva, Olga
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Jimenez, Carlos
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Boloix, Ariadna
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Fletcher, Jamie I.
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Harber, Michelle
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Gray, Juliet
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Cerda-Alberich, Leonor
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Martinez de Las Heras, Blanca
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Canete, Adela
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Gallego, Soledad
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Moreno, Lucas
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22 November 2021
Segura, Miguel F.
19393439-5955-4095-9485-e8cf7ef73785
Soriano, Aroa
ed530f31-1d3d-432f-8be2-c6bc76c33037
Roma, Josep
7528b6b6-646b-4d28-9d08-54daa8efaa21
Piskareva, Olga
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Jimenez, Carlos
184f0175-f4fc-4eee-adda-b16ad34b254b
Boloix, Ariadna
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Fletcher, Jamie I.
96b52488-36d5-4d53-96a7-359cba1cda5b
Harber, Michelle
8ffa01ab-45b2-4e08-8b0e-fcdfdbae4f48
Gray, Juliet
12d5e17c-97bb-4d6d-8fc4-3914b730ed42
Cerda-Alberich, Leonor
6805cafd-0e8d-45da-878d-d11064d0fe56
Martinez de Las Heras, Blanca
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Canete, Adela
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Gallego, Soledad
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Moreno, Lucas
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Segura, Miguel F., Soriano, Aroa, Roma, Josep, Piskareva, Olga, Jimenez, Carlos, Boloix, Ariadna, Fletcher, Jamie I., Harber, Michelle, Gray, Juliet, Cerda-Alberich, Leonor, Martinez de Las Heras, Blanca, Canete, Adela, Gallego, Soledad and Moreno, Lucas
(2021)
Methodological advances in the discovery of novel neuroblastoma therapeutics.
Expert Opinion on Drug Discovery.
(doi:10.1080/17460441.2022.2002297).
Abstract
Introduction: Neuroblastoma is a cancer of the sympathetic nervous system that causes up to 15% of cancer-related deaths among children. Among the ~1,000 newly diagnosed cases per year in Europe, more than half are classified as high-risk, with a 5-year survival rate <50%. Current multimodal treatments have improved survival among these patients, but relapsed and refractory tumors remain a major therapeutic challenge. A number of new methodologies are paving the way for the development of more effective and safer therapies to ultimately improve outcomes for high-risk patients. Areas covered: The authors provide a critical review on methodological advances aimed at providing new therapeutic opportunities for neuroblastoma patients, including preclinical models of human disease, generation of omics data to discover new therapeutic targets, and artificial intelligence-based technologies to implement personalized treatments. Expert opinion: While survival of childhood cancer has improved over the past decades, progress has been uneven. Still, survival is dismal for some cancers, including high-risk neuroblastoma. Embracing new technologies (e.g. molecular profiling of tumors, 3D in vitro models, etc.), international collaborative efforts and the incorporation of new therapies (e.g. RNA-based therapies, epigenetic therapies, immunotherapy) will ultimately lead to more effective and safer therapies for these subgroups of neuroblastoma patients.
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e-pub ahead of print date: 21 November 2021
Published date: 22 November 2021
Additional Information:
Publisher Copyright:
© 2021 Informa UK Limited, trading as Taylor & Francis Group.
Copyright:
Copyright 2021 Elsevier B.V., All rights reserved.
Keywords:
3D in vitro models, Functional genomics, genetically engineered murine models, immunotherapy, liquid biopsy, neuroblastoma, next generation sequencing, patient-derived xenografts, radiogenomics
Identifiers
Local EPrints ID: 452713
URI: http://eprints.soton.ac.uk/id/eprint/452713
ISSN: 1746-0441
PURE UUID: e20f5431-790a-4c3b-9c83-241ecc2d2e73
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Date deposited: 15 Dec 2021 17:36
Last modified: 17 Mar 2024 02:57
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Contributors
Author:
Miguel F. Segura
Author:
Aroa Soriano
Author:
Josep Roma
Author:
Olga Piskareva
Author:
Carlos Jimenez
Author:
Ariadna Boloix
Author:
Jamie I. Fletcher
Author:
Michelle Harber
Author:
Leonor Cerda-Alberich
Author:
Blanca Martinez de Las Heras
Author:
Adela Canete
Author:
Soledad Gallego
Author:
Lucas Moreno
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