Aging is a physiological and progressive phenomenon in all organisms' life cycle, characterized by the accumulation of degenerative processes triggered by several alterations within molecular pathways. These changes compromise cell fate, resulting in the loss of functions in tissues throughout the body, including the brain. Physiological brain aging has been linked to structural and functional alterations, as well as to an increased risk of neurodegenerative diseases. Post-transcriptional RNA modifications modulate mRNA coding properties, stability, translatability, expanding the coding capacity of the genome, and are involved in all cellular processes. Among mRNA post-transcriptional modifications, the A-to-I RNA editing, m6A RNA Methylation and Alternative Splicing play a critical role in all the phases of a neuronal cell life cycle and alterations in their mechanisms of action significantly contribute to aging and neurodegeneration. Here we review our current understanding of the contribution of A-to-I RNA editing, m6A RNA Methylation, and Alternative Splicing to physiological brain aging process and neurodegenerative diseases.
Contribution of A-to-I RNA editing, M6A RNA methylation, and alternative splicing to physiological brain aging and neurodegenerative diseases / Tassinari, Valentina; LA ROSA, Piergiorgio; Guida, Eugenia; Colopi, Ambra; Caratelli, Sara; DE PAOLIS, Francesca; Gallo, Angela; Cenciarelli, Carlo; Sconocchia, Giuseppe; Dolci, Susanna; Cesarini, Valeriana. - In: MECHANISMS OF AGEING AND DEVELOPMENT. - ISSN 0047-6374. - 212:(2023). [10.1016/j.mad.2023.111807]
Contribution of A-to-I RNA editing, M6A RNA methylation, and alternative splicing to physiological brain aging and neurodegenerative diseases
Valentina Tassinari
;Piergiorgio La Rosa;Sara Caratelli;Francesca De Paolis;Angela Gallo;Susanna Dolci;
2023
Abstract
Aging is a physiological and progressive phenomenon in all organisms' life cycle, characterized by the accumulation of degenerative processes triggered by several alterations within molecular pathways. These changes compromise cell fate, resulting in the loss of functions in tissues throughout the body, including the brain. Physiological brain aging has been linked to structural and functional alterations, as well as to an increased risk of neurodegenerative diseases. Post-transcriptional RNA modifications modulate mRNA coding properties, stability, translatability, expanding the coding capacity of the genome, and are involved in all cellular processes. Among mRNA post-transcriptional modifications, the A-to-I RNA editing, m6A RNA Methylation and Alternative Splicing play a critical role in all the phases of a neuronal cell life cycle and alterations in their mechanisms of action significantly contribute to aging and neurodegeneration. Here we review our current understanding of the contribution of A-to-I RNA editing, m6A RNA Methylation, and Alternative Splicing to physiological brain aging process and neurodegenerative diseases.| File | Dimensione | Formato | |
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