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Caveolin-1 Expression and Membrane Cholesterol Content Modulate N-Type Calcium Channel Activity in NG108-15 Cells

M. Toselli ^*, G. Biella ^*, V. Taglietti ^*, E. Cazzaniga  and M. Parenti 

^* Department of Cellular and Molecular Physiological and Pharmacological Sciences, and INFM (National Institute of Matter Physics), University of Pavia, Pavia, Italy; and Department of Experimental and Environmental Medicine and Medical Biotechnologies, University of Milano-Bicocca, Monza, Italy

Correspondence: Address reprint requests to Mauro Toselli, Dept. of Cellular and Molecular Physiological and Pharmacological Sciences, University of Pavia, Via Forlanini 6, I-27100 Pavia, Italy. Tel.: 39-0382-987612; Fax: 39-0382-987527; E-mail: mtoselli{at}unipv.it.

Caveolins are the main structural proteins of glycolipid/cholesterol-rich plasmalemmal invaginations, termed caveolae. In addition, caveolin-1 isoform takes part in membrane remodelling as it binds and transports newly synthesized cholesterol from endoplasmic reticulum to the plasma membrane. Caveolin-1 is expressed in many cell types, including hippocampal neurons, where an abundant SNAP25-caveolin-1 complex is detected after induction of persistent synaptic potentiation. To ascertain whether caveolin-1 influences neuronal voltage-gated Ca²⁺ channel basal activity, we stably expressed caveolin-1 into transfected neuroblastoma x glioma NG108-15 hybrid cells [cav1(+) clone] that lack endogenous caveolins but express N-type Ca²⁺ channels upon cAMP-induced neuronal differentiation. Whole-cell patch-clamp recordings of cav1(+) cells demonstrated that N-type current density was reduced in size by 70% without any significant change in the time course of activation and inactivation and voltage dependence. Moreover, the cav1(+) clone exhibited a significantly increased proportion of membrane cholesterol compared to wild-type NG108-15 cells. To gain insight into the mechanism underlying caveolin-1 lowering of N-current density, and more precisely to test whether this was indirectly caused by caveolin-1-induced enhancement of membrane cholesterol, we compared single N-type channel activities in cav1(+) clone and wild-type NG108-15 cells enriched with cholesterol after exposure to a methyl-ß-cyclodextrin-cholesterol complex. A lower Ca²⁺ channel activity was recorded from cell-attached patches of both cell types, thus supporting the view that the increased proportion of membrane cholesterol is ultimately responsible for the effect. This is due to a reduction in the probability of channel opening caused by a significant decrease of channel mean open time and by an increase of the frequency of null sweeps.

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