Gene therapy with a synthetic adeno-associated viral vector improves audiovestibular phenotypes in Pjvk-mutant mice
Ying-Chang Lu, … , Chen-Chi Wu, Yen-Fu Cheng
Ying-Chang Lu, … , Chen-Chi Wu, Yen-Fu Cheng
Published October 24, 2022
Citation Information: JCI Insight. 2022;7(20):e152941. https://doi.org/10.1172/jci.insight.152941.
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Research Article Neuroscience Therapeutics

Gene therapy with a synthetic adeno-associated viral vector improves audiovestibular phenotypes in Pjvk-mutant mice

Abstract

Recessive PJVK mutations that cause a deficiency of pejvakin, a protein expressed in both sensory hair cells and first-order neurons of the inner ear, are an important cause of hereditary hearing impairment. Patients with PJVK mutations garner limited benefits from cochlear implantation; thus, alternative biological therapies may be required to address this clinical difficulty. The synthetic adeno-associated viral vector Anc80L65, with its wide tropism and high transduction efficiency in various inner ear cells, may provide a solution. We delivered the PJVK transgene to the inner ear of Pjvk mutant mice using the synthetic Anc80L65 vector. We observed robust exogenous pejvakin expression in the hair cells and neurons of the cochlea and vestibular organs. Subsequent morphologic and audiologic studies demonstrated significant restoration of spiral ganglion neuron density and hair cells in the cochlea, along with partial recovery of sensorineural hearing impairment. In addition, we observed a recovery of vestibular ganglion neurons and balance function to WT levels. Our study demonstrates the utility of Anc80L65-mediated gene delivery in Pjvk mutant mice and provides insights into the potential of gene therapy for PJVK-related inner ear deficits.

Authors

Ying-Chang Lu, Yi-Hsiu Tsai, Yen-Huei Chan, Chin-Ju Hu, Chun-Ying Huang, Ru Xiao, Chuan-Jen Hsu, Luk H. Vandenberghe, Chen-Chi Wu, Yen-Fu Cheng

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Figure 1

Anc80L65-CMV-PJVK transduction and PJVK mRNA expression in the inner ear.

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Anc80L65-CMV-PJVK transduction and PJVK mRNA expression in the inner ear...
P10 PjvkG292R/G292R mice injected with Anc80L65-CMV-PJVK at P0–P1 were used to evaluate the transduction efficiency of the virus. (A) Schematic diagram of the transgene constructs. The full-length human PJVK coding sequence and EGFP sequence were driven by a CMV enhancer and CMV promoter, flanked by AAV2 ITR, and packaged into an Anc80L65 capsid. (B) Whole-mount and paraffin-section samples of mouse inner ear organs underwent immunofluorescence staining for β-III tubulin (red) and myosin VIIA (red) to detect neurons and HCs, respectively. Scale bars: 100 μm. (C) The transduction efficiency was quantified in the collected parts of P10-treated mice with GFP expression. For SGN and VGN quantification, cells that were double positive for β-III tubulin and GFP were counted; for vestibular HCs (VHCs) and cochlear HCs (CHCs), cells with myosin VIIA and GFP double positivity were counted (n = 4 or 6 in each collection part). (D) Quantification of human PJVK mRNA expression in P10 WT, untreated PjvkG292R/G292R, and treated mice. Samples were divided into SGNs, VGNs, VO, and OC and then detected by qPCR (n = 4 or 6 in each collection part). Data are shown as the mean ± SD. ****P < 0.0001, **P < 0.01, *P < 0.05, 1-way ANOVA with Tukey post hoc tests.