Gene therapy ameliorates spontaneous seizures associated with cortical neuron loss in a Cln2R207X mouse model
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
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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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 9

AAV9-mediated gene therapy attenuates neuropathological changes in Cln2R207X mice.

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AAV9-mediated gene therapy attenuates neuropathological changes in Cln2R...
(A) Unbiased stereological counts of immunostained neuron populations reveal significant prevention of calbindin-positive (CB) neuron loss within primary somatosensory cortex (S1BF), and a positive protective effect on parvalbumin-positive (PV) neurons within the thalamic reticular nucleus–positive (Rt) and somatostatin-positive (SOM) neurons within S1BF of AAV9.hCLN2-treated Cln2R207X mice, though these effects were not statistically significant. There was no significant treatment effect of AAV9 delivery of hCLN2 upon PV-positive neuron loss or transcription factor COUP TF1-interacting protein 2–positive (CTIP2) neurons within S1BF of Cln2R207X mice. (B and C) Immunostaining for subunit c of mitochondrial ATP synthase (SCMAS, green), cluster of differentiation 68 (CD68, red), and glial fibrillary acidic protein (GFAP, green) and quantitative thresholding image analysis on immunoreactivity of these markers reveal the effects of neonatal AAV9.hCLN2-treatment in Cln2R207X mice at 3 months. These include complete abrogation of SCMAS accumulation within both S1BF and ventral posterior nuclei of thalamus (VPM/VPL), complete prevention of microglial activation/astrogliosis within VPM/VPL, partial prevention of microglial activation within S1BF, and no significant change for astrogliosis within S1BF of AAV9.hCLN2-treated Cln2R207X mice at 3 months. Scale bar: 200 μm. Dots represent values from individual animals. Values are shown as mean ± SEM (n = 6 mice per group). *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001, 1-way ANOVA with Bonferroni’s correction.