2017
DOI: 10.1523/eneuro.0066-17.2017
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Behavioral Comorbidities and Drug Treatments in a Zebrafishscn1labModel of Dravet Syndrome

Abstract: Loss-of-function mutations in SCN1A cause Dravet syndrome (DS), a catastrophic childhood epilepsy in which patients experience comorbid behavioral conditions, including movement disorders, sleep abnormalities, anxiety, and intellectual disability. To study the functional consequences of voltage-gated sodium channel mutations, we use zebrafish with a loss-of-function mutation in scn1lab, a zebrafish homolog of human SCN1A. Homozygous scn1labs552/s552 mutants exhibit early-life seizures, metabolic deficits, and … Show more

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Cited by 41 publications
(42 citation statements)
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“…In humans, loss-of-function mutations of its ortholog SCN1A are associated with Dravet syndrome, a rare and intractable childhood epilepsy (Anwar et al, 2019). In zebrafish, scn1lab homozygous null mutants display hyperpigmentation, seizures, and complex day-night differences in free-swimming behaviour (Baraban et al, 2013;Grone et al, 2017). As expected, all (91/91) scn1lab F0 knockouts were hyperpigmented ( Figure 6A insert).…”
Section: Continuous Traits Including Behavioural Can Be Accuratelysupporting
confidence: 61%
“…In humans, loss-of-function mutations of its ortholog SCN1A are associated with Dravet syndrome, a rare and intractable childhood epilepsy (Anwar et al, 2019). In zebrafish, scn1lab homozygous null mutants display hyperpigmentation, seizures, and complex day-night differences in free-swimming behaviour (Baraban et al, 2013;Grone et al, 2017). As expected, all (91/91) scn1lab F0 knockouts were hyperpigmented ( Figure 6A insert).…”
Section: Continuous Traits Including Behavioural Can Be Accuratelysupporting
confidence: 61%
“…Interestingly, scn1lab 552À/larvae exhibit spontaneous abnormal electrographic activity, motor hyperactivity and convulsive activities starting at 3 dpf and persisting until early fatality around 10e12 dpf. This model of Dravet Syndrome has been characterised at behavioural, electrophysiological, transcriptomic and metabolic levels [9,52,53] and has been used extensively for drug-screening purposes [17,18,54]. More recently, the emergence of novel targeted mutagenesis techniques such as CRISPR/Cas9 opens the door to the generation of stable genetic models targeting all possible human epilepsy single gene mutations.…”
Section: Zebrafish Models Of Acute Seizures and Epilepsymentioning
confidence: 99%
“…The scn1lab mutant zebrafish line exhibits spontaneous seizures that can be easily monitored using acute behavioral and electrophysiological assays (Baraban et al, 2013;Hong et al, 2016;Griffin et al, 2017;Hunyadi et al, 2017). These mutants exhibit metabolic deficit, early fatality, sleep disturbances, and a pharmacological profile similar to Dravet syndrome patients (Schoonheim et al, 2010;Kumar et al, 2016;Grone et al, 2017). In addition to replicating key aspects of Dravet syndrome, scn1lab mutants were shown to be a useful model system for large-scale phenotype-based drug screening and experimental drugs identified in this model have shown efficacy in the clinic (Baraban et al, 2013;Dinday and Baraban, 2015;Griffin et al, 2017;Sourbron et al, 2017;Griffin et al, 2018).…”
Section: Introductionmentioning
confidence: 99%