{delta} Subunit Susceptibility Variants E177A and R220H Associated with Complex Epilepsy Alter Channel Gating and Surface Expression of {alpha}4beta2{delta} GABAA Receptors

doi:10.1523/JNEUROSCI.2913-05.2006

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The Journal of Neuroscience, February 1, 2006, 26(5):1499-1506; doi:10.1523/JNEUROSCI.2913-05.2006

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Neurobiology of Disease
${delta}$ Subunit Susceptibility Variants E177A and R220H Associated with Complex Epilepsy Alter Channel Gating and Surface Expression of ${alpha}$ 4 $beta$ 2 ${delta}$ GABA_A Receptors
Hua-Jun Feng,¹ Jing-Qiong Kang,¹ Luyan Song,¹ Leanne Dibbens,⁴^,5 John Mulley,⁴^,6 and Robert L. Macdonald¹^,2^,3
¹Departments of Neurology, ²Molecular Physiology and Biophysics, and ³Pharmacology, Vanderbilt University Medical Center, Nashville, Tennessee 37212, ⁴Department of Genetic Medicine, Women’s and Children’s Hospital, ⁵Department of Pediatrics, and ⁶School of Molecular and Biomedical Sciences, The University of Adelaide, Adelaide, SA 5031, Australia
Correspondence should be addressed to Dr. Robert L. Macdonald, Department of Neurology, Vanderbilt University Medical Center, 6140 Medical Research Building III, 465 21st Avenue South, Nashville, TN 37232-8552. Email: robert.macdonald{at}vanderbilt.edu
Most human idiopathic generalized epilepsies (IGEs) are polygenic,but virtually nothing is known of the molecular basis for anyof the complex epilepsies. Recently, two GABA_A receptor ${delta}$ subunitvariants (E177A, R220H) were proposed as susceptibility allelesfor generalized epilepsy with febrile seizures plus and juvenilemyoclonic epilepsy. In human embryonic kidney 293T cells, recombinanth ${alpha}$ 1 $beta$ 2 ${delta}$ (E177A) and h ${alpha}$ 1 $beta$ 2 ${delta}$ (R220H) receptor currents were reduced, butthe basis for the current reduction was not determined. We examinedthe mechanistic basis for the current reduction produced bythese variants using the h ${alpha}$ 4 $beta$ 2 ${delta}$ receptor, an isoform more physiologicallyrelevant and linked to epileptogenesis, by characterizing theeffects of these variants on receptor cell surface expressionand single-channel gating properties. Expression of variant ${alpha}$ 4 $beta$ 2 ${delta}$ (R220H) receptors resulted in a decrease in surface receptorproteins, and a smaller, but significant, reduction was observedfor variant ${alpha}$ 4 $beta$ 2 ${delta}$ (E177A) receptors. For both variants, no significantalterations of surface expression were observed for mixed populationof wild-type and variant receptors. The mean open durationsof ${alpha}$ 4 $beta$ 2 ${delta}$ (E177A) and ${alpha}$ 4 $beta$ 2 ${delta}$ (R220H) receptor single-channel currentswere both significantly decreased compared to wild-type receptors.These data suggest that both ${delta}$ (E177A) and ${delta}$ (R220H) variants mayresult in disinhibition in IGEs by similar cellular and molecularmechanisms, and in heterozygously affected individuals, a reductionin channel open duration of ${delta}$ subunit-containing GABA_A receptorsmay be the major contributor to the epilepsy phenotypes.

Key words: complex epilepsy; susceptibility gene; GABA_A receptor; ${delta}$ ; subunit; single channel; surface receptor

Received July 14, 2005; revised Dec. 12, 2005; accepted Dec. 15, 2005.

Correspondence should be addressed to Dr. Robert L. Macdonald, Department of Neurology, Vanderbilt University Medical Center, 6140 Medical Research Building III, 465 21st Avenue South, Nashville, TN 37232-8552. Email: robert.macdonald{at}vanderbilt.edu

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