Alpha-synuclein, encoded by the SNCA gene, is a pivotal protein implicated in the pathogenesis of synucleinopathies, including Parkinson's disease. Current approaches for modulating alpha-synuclein levels involve anti- sense nucleotides, siRNAs, and small molecules targeting SNCA's 5 '-UTR '-UTR mRNA. Here, we propose a groundbreaking strategy targeting G-quadruplex structures to effectively modulate SNCA gene expression and lowering alpha-synuclein amount. Novel G-quadruplex sequences, identified on the SNCA gene's transcription starting site and 5 '-UTR '-UTR of SNCA mRNAs, were experimentally confirmed for their stability through biophysical assays and in vitro experiments on human genomic DNA. Biological validation in differentiated SH-SY5Y cells revealed that well-known G-quadruplex ligands remarkably stabilized these structures, inducing the modulation of SNCA mRNAs expression, and the effective decrease in alpha-synuclein amount. Besides, a novel peptide nucleic acid conjugate, designed to selectively disrupt of G-quadruplex within the SNCA gene promoter, caused a promising lowering of both SNCA mRNA and alpha-synuclein protein. Altogether our findings highlight Gquadruplexes' key role as intriguing biological targets in achieving a notable and successful reduction in alphasynuclein expression, pointing to a novel approach against synucleinopathies.
Effective lowering of α-synuclein expression by targeting G-quadruplex structures within the SNCA gene / V. Pirota, F. Rey, L. Esposito, V. Fantini, C. Pandini, E. Maghraby, R. Di Gerlando, F. Doria, M. Mella, O. Pansarasa, P. Gandellini, M. Freccero, S. Carelli, C. Cereda. - In: INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES. - ISSN 0141-8130. - 277:Pt 4(2024 Oct), pp. 134417.1-134417.14. [10.1016/j.ijbiomac.2024.134417]
Effective lowering of α-synuclein expression by targeting G-quadruplex structures within the SNCA gene
F. ReyCo-primo
;L. EspositoSecondo
;C. Pandini;P. Gandellini;
2024
Abstract
Alpha-synuclein, encoded by the SNCA gene, is a pivotal protein implicated in the pathogenesis of synucleinopathies, including Parkinson's disease. Current approaches for modulating alpha-synuclein levels involve anti- sense nucleotides, siRNAs, and small molecules targeting SNCA's 5 '-UTR '-UTR mRNA. Here, we propose a groundbreaking strategy targeting G-quadruplex structures to effectively modulate SNCA gene expression and lowering alpha-synuclein amount. Novel G-quadruplex sequences, identified on the SNCA gene's transcription starting site and 5 '-UTR '-UTR of SNCA mRNAs, were experimentally confirmed for their stability through biophysical assays and in vitro experiments on human genomic DNA. Biological validation in differentiated SH-SY5Y cells revealed that well-known G-quadruplex ligands remarkably stabilized these structures, inducing the modulation of SNCA mRNAs expression, and the effective decrease in alpha-synuclein amount. Besides, a novel peptide nucleic acid conjugate, designed to selectively disrupt of G-quadruplex within the SNCA gene promoter, caused a promising lowering of both SNCA mRNA and alpha-synuclein protein. Altogether our findings highlight Gquadruplexes' key role as intriguing biological targets in achieving a notable and successful reduction in alphasynuclein expression, pointing to a novel approach against synucleinopathies.
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