Electrophysiological Properties and Subunit Composition of GABAA Receptors in Patients With Gelastic Seizures and Hypothalamic Hamartoma

doi:10.1152/jn.00165.2007

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J Neurophysiol 98: 5-15, 2007. First published April 11, 2007; doi:10.1152/jn.00165.2007
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TRANSLATIONAL PHYSIOLOGY

Electrophysiological Properties and Subunit Composition of GABA_A Receptors in Patients With Gelastic Seizures and Hypothalamic Hamartoma

Jie Wu¹, Yongchang Chang², Guohui Li¹, Fenqin Xue², Jamie DeChon¹, Kevin Ellsworth¹, Qiang Liu¹, Kechun Yang¹, Nasim Bahadroani², Chao Zheng¹, Jianliang Zhang², Harold Rekate³, Jong M. Rho¹ and John F. Kerrigan¹

¹Divisions of Neurology, ²Neurobiology, and ³Neurosurgery, Barrow Neurological Institute, St. Joseph's Hospital and Medical Center, Phoenix, Arizona

Submitted 13 February 2007; accepted in final form 7 April 2007

Abnormalities in GABA_A receptor structure and/or function havebeen associated with various forms of epilepsy in both humansand animals. Whether this is true for patients with gelasticseizures and hypothalamic hamartoma (HH) is unknown. In thisstudy, we characterized the pharmacological properties and nativesubunit composition of GABA_A receptors on acutely dissociatedsingle neurons from surgically resected HH tissues using patch-clamp,immunocytochemical, and RT-PCR techniques. We found that 1)GABA induced an inward current (I_GABA) at a holding potentialof –60 mV; 2) I_GABA was mimicked by the GABA_A receptoragonist muscimol and blocked by the GABA_A receptor antagonistbicuculline, suggesting that I_GABA was mediated principallythrough the GABA_A receptor; 3) the EC₅₀ and Hill coefficientderived from the I_GABA concentration-response curve were 6.8µM and 1.9, respectively; 4) the current-voltage curvewas linear at a reversal potential close to zero; and 5) I_GABAexhibited low sensitivity to zinc and diazepam but higher sensitivityto pentobarbital and pregnanolone. Additionally, using Xenopusoocytes microtransplanted with normal human hypothalamic tissue,we confirmed that the functional properties of GABA_A receptorswere similar to those seen in small isolated HH neurons. Finally,the expression profile of GABA_A receptor subunits obtained fromnormal control human hypothalamic tissue was identical to thatfrom surgically resected human HH tissue. Taken together, ourdata indicate that GABA_A receptors on small HH neurons exhibitnormal pharmacosensitivity and subunit composition. These findingsbear relevance to a broader understanding of inhibitory neurotransmissionin human HH tissue.

Address for reprint requests and other correspondence: J. Wu, Neurophysiology Lab., Div. of Neurology, Barrow Neurological Inst., St. Joseph's Hospital and Medical Center, Phoenix, AZ 85013-4496 (E-mail: Jie.Wu{at}chw.edu)

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