CNS-dominant human FMRP isoform rescues seizures, fear, and sleep abnormalities in Fmr1-KO mice
Hayes Wong, … , Steven J. Gray, David R. Hampson
Hayes Wong, … , Steven J. Gray, David R. Hampson
Published June 8, 2023
Citation Information: JCI Insight. 2023;8(11):e169650. https://doi.org/10.1172/jci.insight.169650.
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Research Article Neuroscience Therapeutics

CNS-dominant human FMRP isoform rescues seizures, fear, and sleep abnormalities in Fmr1-KO mice

Abstract

Fragile X syndrome is a neurodevelopmental disorder caused by the absence of the mRNA-binding protein fragile X messenger ribonucleoprotein (FMRP). Because FMRP is a highly pleiotropic protein controlling the expression of hundreds of genes, viral vector–mediated gene replacement therapy is viewed as a potential viable treatment to correct the fundamental underlying molecular pathology inherent in the disorder. Here, we studied the safety profile and therapeutic effects of a clinically relevant dose of a self-complementary adeno-associated viral (AAV) vector containing a major human brain isoform of FMRP after intrathecal injection into wild-type and fragile X–KO mice. Analysis of the cellular transduction in the brain indicated primarily neuronal transduction with relatively sparse glial expression, similar to endogenous FMRP expression in untreated wild-type mice. AAV vector–treated KO mice showed recovery from epileptic seizures, normalization of fear conditioning, reversal of slow-wave deficits as measured via electroencephalographic recordings, and restoration of abnormal circadian motor activity and sleep. Further assessment of vector efficacy by tracking and analyzing individual responses demonstrated correlations between the level and distribution of brain transduction and drug response. These preclinical findings further demonstrate the validity of AAV vector–mediated gene therapy for treating the most common genetic cause of cognitive impairment and autism in children.

Authors

Hayes Wong, Alexander W.M. Hooper, Hye Ri Kang, Shiron J. Lee, Jiayi Zhao, Chanchal Sadhu, Satinder Rawat, Steven J. Gray, David R. Hampson

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Figure 4

Normalization of fear memory response to conditioned stimulus in mice treated with scAAV-JeT-hFMR1iso17 vector.

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Normalization of fear memory response to conditioned stimulus in mice tr...
(A) Schematic of the fear conditioning protocol. (BE) Results from the fear conditioning test. No differences were found among genotypes or treatments in response to the conditioned context (B, context A) or a novel context (C, context B). KO+vehicle mice froze significantly less than both WT+vehicle and KO+FMRP mice in the first 30 seconds of exposure to the conditioned stimulus (D). This effect remained after correcting for inherent freezing activity on a per-animal basis (cond stim — context B), and KO+vehicle mice also demonstrated a significantly higher rate in freezing relative to WT+FMRP mice during the 90–120 seconds interval of exposure to the conditioned tone (E). All mice were females. n values: WT+vehicle = 27; KO+vehicle = 19; KO+FMRP = 14. Bars = mean ± SEM. *P < 0.05 for 1-way ANOVA and Tukey’s post hoc test comparing percentage of time frozen between KO+vehicle mice and both WT+vehicle and KO+FMRP mice. #P < 0.05 for 1-way ANOVA and Tukey’s post hoc test comparing percentage of time frozen between KO+vehicle mice and WT+vehicle mice.