Targeting synaptic dysfunction using SINEUP ncRNA enhancer in neurodegenerative diseases

LE STUDIUM Multidisciplinary Journal, 2021, 5, 62-69

Kathia Zaleta-Rivera 1, 2, Stefano Espinoza 3, Roberto F. Delgadillo 4, Emmanuel Astoul 5, Sylviane Marouillat 2, Stefano Gustincich 3,6, Frederic Laumonnier 2, and Patrick Vourc’h 2,7
1 LE STUDIUM Loire Valley Institute for Advanced Studies, Orleans, France
2 UMR 1253, iBRAIN, Université de Tours, INSERM, Tours, France
3 Central RNA Laboratory, Istituto italiano di Tecnologia (ITT), Genova, Italy
4 School of Engineering and Sciences, Tecnologico de Monterrey, Monterrey, NL 64849, Mexico
5 TranSine Therapeutics, Cambridge, UK
6 Area of Neuroscience, International School for Advanced Studies (SISSA), Italy
7 CHU de Tours, Service de Biochimie et Biologie Moléculaire, Tours, France. 
 

Abstract

Synaptic transmission is of critical importance for the neurons to communicate, and abnormalities are observed in neurodegenerative diseases, psychiatric disorders, and intellectual disability. Loss of the synaptic vesicle proteins is shared among these disorders and is being noted as one of the earliest hallmarks of neurogenerative diseases. Therefore, novel therapeutics targeting synapses are fundamental to improve brain plasticity and maintain a healthy brain function.  Here, we propose to normalize synaptic protein levels by targeting unstable synaptic mRNAs using antisense RNA enhancer molecules with the ‘long-term goal’ of developing a therapy for patients with synaptic dysfunction, specifically in Alzheimer’s Disease (AD) and Amyotrophic Lateral Sclerosis (ALS). Our ‘hypothesis’ is that stabilization of unstable synaptic mRNA’s by antisense RNA molecules will be effective in enhancing and restore the levels of downregulated synaptic proteins in AD and ALS. As a ‘proof of concept’ antisense RNA molecules targeting 5’UTR regions of unstable synaptic genes (synapsin and synaptophysin) fused to enhancer elements such as SINE. To explore the efficacy and specificity, three different binding domains that span the 5’UTR region and transcription start sites (-40/+32, -40/+4, -14/+4) per gene were prepared and screened in a cell line that endogenously expresses the target genes. Our preliminary results show that SINEUP elements enhanced protein translation of the synapsin dimer by 80% and the monomers by 40%. This significant enhancement can stimulate synaptogenesis, synaptic vesicle recruitment, and maintain the mature synapses. An increase in synaptophysin was also observed. Ex vivo studies using a diseased cell model are in progress to assess phenotype and function. This is a promising step toward targeting synapses in neurodegenerative diseases.

Keywords

Central Nervous System (CNS) Alzheimer Disease (AD) Amyotrophic Lateral Sclerosis (ALS) SINEUP Synapsins RNA therapy
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Le STUDIUM Multidisciplinary Journal