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Innovative Therapeutic and Delivery Approaches Using Nanotechnology to Correct Splicing Defects Underlying Disease

Marc Suñé-Pou, María J. Limeres, Cristina Moreno‐Castro, Cristina Hernández-Munaín, Josep M. Suñé‐Negre, María L. Cuestas, Carlos Suñé

2020Frontiers in Genetics24 citationsDOIOpen Access PDF

Abstract

Alternative splicing of pre-mRNA contributes strongly to the diversity of cell- and tissue-specific protein expression patterns. Global transcriptome analyses have suggested that >90% of human multiexon genes are alternatively spliced. Alterations in the splicing process cause missplicing events that lead to genetic diseases and pathologies, including various neurological disorders, cancers, and muscular dystrophies. In recent decades, research has helped to elucidate the mechanisms regulating alternative splicing and, in some cases, to reveal how dysregulation of these mechanisms leads to disease. The resulting knowledge has enabled the design of novel therapeutic strategies for correction of splicing-derived pathologies. In this review, we focus primarily on therapeutic approaches targeting splicing, and we highlight nanotechnology-based gene delivery applications that address the challenges and barriers facing nucleic acid-based therapeutics.

Topics & Concepts

RNA splicingAlternative splicingComputational biologyTranscriptomeDiseaseBiologyGeneBioinformaticsNeuroscienceGene expressionMedicineRNAGeneticsMessenger RNAPathologyRNA Interference and Gene DeliveryRNA Research and SplicingAdvanced biosensing and bioanalysis techniques
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