Kcnj16 knockout produces audiogenic seizures in the Dahl salt-sensitive rat
Anna D. Manis, … , Matthew R. Hodges, Alexander Staruschenko
Anna D. Manis, … , Matthew R. Hodges, Alexander Staruschenko
Published November 24, 2020
Citation Information: JCI Insight. 2021;6(1):e143251. https://doi.org/10.1172/jci.insight.143251.
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Research Article Neuroscience

Kcnj16 knockout produces audiogenic seizures in the Dahl salt-sensitive rat

Abstract

Kir5.1 is an inwardly rectifying potassium (Kir) channel subunit abundantly expressed in the kidney and brain. We previously established the physiologic consequences of a Kcnj16 (gene encoding Kir5.1) knockout in the Dahl salt-sensitive rat (SSKcnj16–/–), which caused electrolyte/pH dysregulation and high-salt diet–induced mortality. Since Kir channel gene mutations may alter neuronal excitability and are linked to human seizure disorders, we hypothesized that SSKcnj16–/– rats would exhibit neurological phenotypes, including increased susceptibility to seizures. SSKcnj16–/– rats exhibited increased light sensitivity (fMRI) and reproducible sound-induced tonic-clonic audiogenic seizures confirmed by electroencephalography. Repeated seizure induction altered behavior, exacerbated hypokalemia, and led to approximately 38% mortality in male SSKcnj16–/– rats. Dietary potassium supplementation did not prevent audiogenic seizures but mitigated hypokalemia and prevented mortality induced by repeated seizures. These results reveal a distinct, nonredundant role for Kir5.1 channels in the brain, introduce a rat model of audiogenic seizures, and suggest that yet-to-be identified mutations in Kcnj16 may cause or contribute to seizure disorders.

Authors

Anna D. Manis, Oleg Palygin, Elena Isaeva, Vladislav Levchenko, Peter S. LaViolette, Tengis S. Pavlov, Matthew R. Hodges, Alexander Staruschenko

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Figure 5

Effects of 3 seizure exposures on SSKcnj16–/– rat behavior.

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Effects of 3 seizure exposures on SSKcnj16–/– rat behavior. SSKcnj16–/– ...
SSKcnj16–/– and SSWT rats were exposed to the acoustic stimulus once per day for 3 days. (A) Seizure duration in seconds for n = 6 SSKcnj16–/– rats plotted for each of the 3 days. (B) Recovery time (minutes) after a seizure, determined by the time to resume normal ambulatory behaviors, plotted for each day (n = 6). Recovery time was significantly increased on day 3 (*P = 0.016 comparing days 1 and 3, 1-way repeated-measures ANOVA with Holm-Sidak multiple comparisons). (C) Duration of the apnea that occurs during the tonic phase of the seizure did not change over the 3 days (n = 6). (D) Representative open-field tests with locomotion mapped (90 × 90 cm enclosure) before and after 3 exposures to the acoustic stimulus. (E) Total distance traveled during the 20-minute test period significantly decreased in SSKcnj16–/– rats (n = 6) after 3 seizures (*P = 0.007, 2-way repeated-measures ANOVA with Holm-Sidak multiple comparisons) but was unchanged in SSWT rats after 3 exposures to the same acoustic stimulus (n = 5; P = 0.171). The connecting lines designate paired values to show change from before (blue data points) to after (red data points) completing the 3× acoustic stimulation protocol.