Subpial Delivery of Adeno-associated Virus 9-synapsin-caveolin-1 () Preserves Motor Neuron and Neuromuscular Junction Morphology, Motor Function, Delays Disease Onset, and Extends Survival in HSOD1 Mice

Overview

Journal Theranostics

Date 2022 Aug 1

PMID 35910808

Authors

Shanshan Wang

Taiga Ichinomiya

Paul Savchenko

Dongsheng Wang

Atsushi Sawada

Xiaojing Li

Tiffany Duong

Wenxi Li

Jacqueline A Bonds

Eun Jung Kim

Atsushi Miyanohara

David M Roth

Hemal H Patel

Piyush M Patel

Takahiro Tadokoro

Martin Marsala

Brian P Head

Affiliations

Soon will be listed here.

Abstract

Elevating neuroprotective proteins using adeno-associated virus (AAV)-mediated gene delivery shows great promise in combating devastating neurodegenerative diseases. Amyotrophic lateral sclerosis (ALS) is one such disease resulting from loss of upper and lower motor neurons (MNs) with 90-95% of cases sporadic (SALS) in nature. Due to the unknown etiology of SALS, interventions that afford neuronal protection and preservation are urgently needed. Caveolin-1 (Cav-1), a membrane/lipid rafts (MLRs) scaffolding and neuroprotective protein, and MLR-associated signaling components are decreased in degenerating neurons in postmortem human brains. We previously showed that, when crossing our SynCav1 transgenic mouse (TG) with the mutant human superoxide dismutase 1 (hSOD1) mouse model of ALS, the double transgenic mouse (SynCav1 TG/hSOD1) exhibited better motor function and longer survival. The objective of the current study was to test whether neuron-targeted Cav-1 upregulation in the spinal cord using could improve motor function and extend longevity in mutant humanized mouse and rat (hSOD1) models of familial (F)ALS. Motor function was assessed by voluntary running wheel (RW) in mice and forelimb grip strength (GS) and motor evoked potentials (MEP) in rats. Immunofluorescence (IF) microscopy for choline acetyltransferase (ChAT) was used to assess MN morphology. Neuromuscular junctions (NMJs) were measured by bungarotoxin-a (Btx-a) and synaptophysin IF. Body weight (BW) was measured weekly, and the survival curve was determined by Kaplan-Meier analysis. Following subpial gene delivery to the lumbar spinal cord, male and female hSOD1G93A mice treated with SynCav1 exhibited delayed disease onset, greater running-wheel performance, preserved spinal alpha-motor neuron morphology and NMJ integrity, and 10% increased longevity, independent of affecting expression of the mutant hSOD1G93A protein. Cervical subpial SynCav1 delivery to hSOD1G93A rats preserved forelimb GS and MEPs in the brachial and gastrocnemius muscles. In summary, subpial delivery of SynCav1 protects and preserves spinal motor neurons, and extends longevity in a familial mouse model of ALS without reducing the toxic monogenic component. Furthermore, subpial SynCav1 delivery preserved neuromuscular function in a rat model of FALS. The latter findings strongly indicate the therapeutic applicability of SynCav1 to treat ALS attributed to monogenic (FALS) and potentially in sporadic cases (i.e., SALS).

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