Glycine Receptors Involved in Synaptic Transmission Are Selectively Regulated by the Cytoskeleton in Mouse Spinal Neurons

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J Neurophysiol 87: 640-644, 2002;
0022-3077/02 $5.00

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The Journal of Neurophysiology Vol. 87 No. 1 January 2002, pp. 640-644
Copyright ©2002 by the American Physiological Society

RAPID COMMUNICATION

Glycine Receptors Involved in Synaptic Transmission Are Selectively Regulated by the Cytoskeleton in Mouse Spinal Neurons

Brigitte van Zundert,¹^,³ Francisco J. Alvarez,³ Gonzalo E. Yevenes,¹ Juan G. Cárcamo,² Juan Carlos Vera,² and Luis G. Aguayo¹

¹Department of Physiology and ²Department of Pathophysiology, University of Concepción, Concepcion, Chile; and ³Department of Anatomy, Wright State University, Dayton, Ohio 45435

van Zundert, Brigitte, Francisco J. Alvarez, Gonzalo E. Yevenes, Juan G. Cárcamo, Juan Carlos Vera, and Luis G. Aguayo. Glycine Receptors Involved in Synaptic Transmission Are Selectively Regulated by the Cytoskeleton in Mouse Spinal Neurons. J. Neurophysiol. 87: 640-644, 2002. Using whole cell patch-clamp recordings, we examined the effect of colchicine, a microtubule disrupter, on the propertiesof glycine receptors (GlyRs) in cultured spinal cord neurons.Confocal microscopy revealed that colchicine treatment effectivelyaltered microtubule bundles and neuronal morphology. Applicationof colchicine via the culture media or the patch-pipette, however,did not affect the whole cell current rundown (73 ± 6% of controlafter 1 h), the sensitivity of the GlyR to glycine (EC₅₀ = 29± 1 µM), or strychnine inhibition (47 ± 5% of control after 100nM strychnine). On the other hand, colchicine dialyzed for 25min via the patch pipette selectively reduced the quantal amplitudeof spontaneous glycinergic miniature inhibitory postsynaptic currents(mIPSCs) to 68 ± 5% of control. This effect was specific for GlyRssince synaptic events mediated by $alpha$ -amino-3-hydroxy-5-methyl-4-isoxazolepropionicacid (AMPA) and GABA_A receptors were unchanged. In conclusion,this study indicates that microtubules can regulate the functionof GlyRs involved in inhibitory synaptictransmission.

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