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Heather Snell - Elucidating the Mechanism underlying Stress and Caffeine-Induced Motor Dysfunction using a Mouse Model of Episodic Ataxia Type 2

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Event Details:

Elucidating the Mechanism underlying Stress and Caffeine-Induced Motor Dysfunction using a Mouse Model of Episodic Ataxia Type 2

Heather Snell, Albert Einstein College of Medicine

Abstract:

Episodic Ataxia type 2 (EA2), caused by mutations in the CACNA1A gene, results in a loss-of-function of the P/Q type calcium channel, which leads to baseline ataxia, and attacks of dyskinesia, that can last a few hours to a few days. Attacks are brought on by consumption of caffeine, alcohol, and physical or emotional stress. Interestingly, caffeine and stress are common triggers among other episodic channelopathies, as well as causing tremor or shaking in otherwise healthy adults. The mechanism underlying stress and caffeine induced motor impairment remains poorly understood. Utilizing behavior, and in vivo and in vitro electrophysiology in the tottering mouse, a well characterized mouse model of EA2, or WT mice, we first sought to elucidate the mechanism underlying stress-induced motor impairment. We found stress induces attacks in EA2 though the activation of cerebellar alpha 1 adrenergic receptors by norepinephrine (NE) through casein kinase 2 (CK2) dependent phosphorylation. This decreases SK2 channel activity, causing increased Purkinje cell irregularity and motor impairment. Knocking down or blocking CK2 with an FDA approved drug CX-4945 prevented PC irregularity and stress-induced attacks. We next hypothesized caffeine, which has been shown to increase NE levels, could induce attacks through the same alpha 1 adrenergic mechanism in EA2. We found caffeine increases PC irregularity and induces attacks through the same CK2 pathway. Block of alpha 1 adrenergic receptors, however, failed to prevent caffeine-induced attacks. Caffeine instead induces attacks through the block of cerebellar A1 adenosine receptors. This increases the release of glutamate, which interacts with mGluR1 receptors on PC, resulting in erratic firing and motor attacks. Finally, we show a novel direct interaction between mGluR1 and CK2, and inhibition of mGluR1 prior to initiation of attack, prevents the caffeine-induced increase in phosphorylation. These data elucidate the mechanism underlying stress and caffeine-induced motor impairment. Furthermore, given the success of CX-4945 to prevent stress and caffeine induced attacks, it establishes ground-work for the development of therapeutics for the treatment of caffeine and stress induced attacks in EA2 patients and possibly other episodic channelopathies.

Hosted by - Mari Sosa

About the BELONG Seminar Series

The BELONG seminar series features scientific talks from exceptional postdocs in the neurosciences who identify as Black, Indigenous, Latinx, and/or Person of Color. Sponsored by the Wu Tsai Neurosciences Institute Committee for Diversity, Inclusion, Belonging, Equity and Justice.

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In-person attendance is strongly encouraged, but if you are not able to join us in Gunn Rotunda, you may view the talk via Zoom:

https://stanford.zoom.us/j/93045403904?pwd=SDdYc3BJUXJSTlJQRjRjOERIUnpXQT09
Password: 665931

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