Presynaptic N-type calcium channels regulate synaptic growth

doi:10.1074/jbc.M306417200

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Presynaptic N-type calcium channels regulate synaptic growth

Gabrielle E. Rieckhof, Motojiro Yoshihara, Zhuo Guan, and J. Troy Littleton

Department of Biology, Massachusetts Institute of Technology, Cambridge, MA 02139

Corresponding Author: troy{at}mit.edu

Voltage-gated calcium channels couple changes in membrane potential to neuronal functions regulated by calcium, including neurotransmitter release. Here we report that presynaptic N-type calcium channels not only control neurotransmitter release, but also regulate synaptic growth at Drosophila neuromuscular junctions. In a screen for behavioral mutants that disrupt synaptic transmission, an allele of the N-type calcium channel locus (Dmca1A) was identified that caused synaptic undergrowth. The underlying molecular defect was identified as a neutralization of a charged residue in the third S4 voltage sensor. RNAi reduction of N-type calcium channel expression also reduced synaptic growth. Hypomorphic mutations in syntaxin-1A or n-synaptobrevin, which also disrupt neurotransmitter release, did not affect synapse proliferation at the neuromuscular junction, suggesting calcium entry through presynaptic N-type calcium channels, not neurotransmitter release per se, is important for synaptic growth. The reduced synapse proliferation in Dmca1A mutants is not due to increased synapse retraction, but instead reflects a role for calcium influx in synaptic growth mechanisms. These results suggest N-type channels participate in synaptic growth through signaling pathways that are distinct from those that mediate neurotransmitter release. Linking presynaptic voltage-gated calcium entry to downstream calcium-sensitive synaptic growth regulators provides an efficient activity-dependent mechanism for modifying synaptic strength.

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				C. V. Ly, C.-K. Yao, P. Verstreken, T. Ohyama, and H. J. Bellen straightjacket is required for the synaptic stabilization of cacophony, a voltage-gated calcium channel {alpha}1 subunit J. Cell Biol., April 3, 2008; 181(1): 157 - 170. [Abstract] [Full Text] [PDF]

				D. K. Dickman, P. T. Kurshan, and T. L. Schwarz Mutations in a Drosophila {alpha}2{delta} Voltage-Gated Calcium Channel Subunit Reveal a Crucial Synaptic Function J. Neurosci., January 2, 2008; 28(1): 31 - 38. [Abstract] [Full Text] [PDF]

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				I-F. Peng and C.-F. Wu Drosophila cacophony Channels: A Major Mediator of Neuronal Ca2+ Currents and a Trigger for K+ Channel Homeostatic Regulation J. Neurosci., January 31, 2007; 27(5): 1072 - 1081. [Abstract] [Full Text] [PDF]

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				J. D. Spafford, J. van Minnen, P. Larsen, A. B. Smit, N. I. Syed, and G. W. Zamponi Uncoupling of Calcium Channel {alpha}1 and {beta} Subunits in Developing Neurons J. Biol. Chem., September 24, 2004; 279(39): 41157 - 41167. [Abstract] [Full Text] [PDF]

				B. Adolfsen, S. Saraswati, M. Yoshihara, and J. T. Littleton Synaptotagmins are trafficked to distinct subcellular domains including the postsynaptic compartment J. Cell Biol., July 19, 2004; 166(2): 249 - 260. [Abstract] [Full Text] [PDF]

				P. Wang, S. Saraswati, Z. Guan, C. J. Watkins, R. J. Wurtman, and J. T. Littleton A Drosophila Temperature-Sensitive Seizure Mutant in Phosphoglycerate Kinase Disrupts ATP Generation and Alters Synaptic Function J. Neurosci., May 12, 2004; 24(19): 4518 - 4529. [Abstract] [Full Text] [PDF]

				W.-C. M. Lee, M. Yoshihara, and J. T. Littleton Cytoplasmic aggregates trap polyglutamine-containing proteins and block axonal transport in a Drosophila model of Huntington's disease PNAS, March 2, 2004; 101(9): 3224 - 3229. [Abstract] [Full Text] [PDF]