Gene therapy ameliorates spontaneous seizures associated with cortical neuron loss in a Cln2R207X mouse model
Keigo Takahashi, … , Michael Wong, Jonathan D. Cooper
Keigo Takahashi, … , Michael Wong, Jonathan D. Cooper
Published April 27, 2023
Citation Information: J Clin Invest. 2023;133(12):e165908. https://doi.org/10.1172/JCI165908.
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Research Article Neuroscience

Gene therapy ameliorates spontaneous seizures associated with cortical neuron loss in a Cln2R207X mouse model

Abstract

Although a disease-modifying therapy for classic late infantile neuronal ceroid lipofuscinosis (CLN2 disease) exists, poor understanding of cellular pathophysiology has hampered the development of more effective and persistent therapies. Here, we investigated the nature and progression of neurological and underlying neuropathological changes in Cln2R207X mice, which carry one of the most common pathogenic mutations in human patients but are yet to be fully characterized. Long-term electroencephalography recordings revealed progressive epileptiform abnormalities, including spontaneous seizures, providing a robust, quantifiable, and clinically relevant phenotype. These seizures were accompanied by the loss of multiple cortical neuron populations, including those stained for interneuron markers. Further histological analysis revealed early localized microglial activation months before neuron loss started in the thalamocortical system and spinal cord, which was accompanied by astrogliosis. This pathology was more pronounced and occurred in the cortex before the thalamus or spinal cord and differed markedly from the staging seen in mouse models of other forms of neuronal ceroid lipofuscinosis. Neonatal administration of adeno-associated virus serotype 9–mediated gene therapy ameliorated the seizure and gait phenotypes and prolonged the life span of Cln2R207X mice, attenuating most pathological changes. Our findings highlight the importance of clinically relevant outcome measures for judging preclinical efficacy of therapeutic interventions for CLN2 disease.

Authors

Keigo Takahashi, Elizabeth M. Eultgen, Sophie H. Wang, Nicholas R. Rensing, Hemanth R. Nelvagal, Joshua T. Dearborn, Olivier Danos, Nicholas Buss, Mark S. Sands, Michael Wong, Jonathan D. Cooper

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Figure 10

AAV9-mediated gene therapy prevents spontaneous seizures and extends the life span of Cln2R207X mice.

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AAV9-mediated gene therapy prevents spontaneous seizures and extends the...
(A) Time course of seizures (red dots) and deaths (black Xs) in vehicle- and AAV9.hCLN2-treated mice. EEG recording reveals that the AAV9.hCLN2 treatment results in a significantly lower percentage of Cln2R207X mice who develop spontaneous seizures (B) and a significantly reduced total number of spontaneous seizures (C). n = 10 mice per group. (D) Representative EEG traces from vehicle- and AAV9.hCLN2-treated Cln2R207X mice at 16 weeks of age. (E) EEG recordings reveal that AAV9.hCLN2 treatment results in a significantly lower average spike frequency at 13, 14, 15, 16, and 19 weeks. n = 10 mice per group. (F) Survival studies out to 48 weeks reveal a significantly extended life span of AAV9.hCLN2-treated Cln2R207X mice (n = 10) compared with vehicle-treated Cln2R207X mice (n = 6). (G) CatWalk XT gait analysis reveals no significant difference between gait performance of AAV9.hCLN2-treated Cln2R207X mice at 28 (n = 8), 36 (n = 7), or 44 weeks (n = 6) and age-matched WT mice (n = 8 for all time points). **P < 0.01, ***P < 0.001. Log-rank (Mantel-Cox) test (B and F), Mann-Whitney U test (C), and 2-way ANOVA with Bonferroni’s correction (E and G). Dots represent values from individual animals, and values are shown as mean ± SEM (C, E, and G).