Use of phosphosynapsin I-specific antibodies for image analysis of signal transduction in single nerve terminals

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JOURNAL ARTICLES

Use of phosphosynapsin I-specific antibodies for image analysis of signal transduction in single nerve terminals

A Menegon, DD Dunlap, F Castano, F Benfenati, AJ Czernik, P Greengard and F Valtorta
Dept Neuroscience, San Raffaele Scientific Institute, Milan, Italy. valtorta.flavia@hsr.it

We have developed a semi-quantitative method for indirectly revealing variations in the concentration of second messengers (Ca(2+), cyclic AMP) in single presynaptic boutons by detecting the phosphorylation of the synapsins, excellent nerve terminal substrates for cyclic AMP- and Ca(2+)/calmodulin-dependent protein kinases. For this purpose, we employed polyclonal, antipeptide antibodies recognising exclusively synapsin I phosphorylated by Ca(2+)/calmodulin-dependent protein kinase II (at site 3) or synapsins I/II phosphorylated by either cAMP-dependent protein kinase or Ca(2+)/calmodulin-dependent protein kinase I (at site 1). Cerebellar granular neurones in culture were double-labelled with a monoclonal antibody to synapsins I/II and either of the polyclonal antibodies. Digitised images were analysed to determine the relative phosphorylation stoichiometry at each individual nerve terminal. We have found that: (i) under basal conditions, phosphorylation of site 3 was undetectable, whereas site 1 exhibited some degree of constitutive phosphorylation; (ii) depolarisation in the presence of extracellular Ca(2+) was followed by a selective and widespread increase in site 3 phosphorylation, although the relative phosphorylation stoichiometry varied among individual terminals; and (iii) phosphorylation of site 1 was increased by stimulation of cyclic AMP-dependent protein kinase but not by depolarisation and often occurred in specific nerve terminal sub-populations aligned along axon branches. In addition to shedding light on the regulation of synapsin phosphorylation in living nerve terminals, this approach permits the spatially-resolved analysis of the activation of signal transduction pathways in the presynaptic compartment, which is usually too small to be studied with other currently available techniques.

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				A. Menegon, D. Bonanomi, C. Albertinazzi, F. Lotti, G. Ferrari, H.-T. Kao, F. Benfenati, P. Baldelli, and F. Valtorta Protein Kinase A-Mediated Synapsin I Phosphorylation Is a Central Modulator of Ca2+-Dependent Synaptic Activity. J. Neurosci., November 8, 2006; 26(45): 11670 - 11681. [Abstract] [Full Text] [PDF]

				D. Bonanomi, A. Menegon, A. Miccio, G. Ferrari, A. Corradi, H.-T. Kao, F. Benfenati, and F. Valtorta Phosphorylation of Synapsin I by cAMP-Dependent Protein Kinase Controls Synaptic Vesicle Dynamics in Developing Neurons J. Neurosci., August 10, 2005; 25(32): 7299 - 7308. [Abstract] [Full Text] [PDF]

				D. Gitler, Y. Xu, H.-T. Kao, D. Lin, S. Lim, J. Feng, P. Greengard, and G. J. Augustine Molecular Determinants of Synapsin Targeting to Presynaptic Terminals J. Neurosci., April 7, 2004; 24(14): 3711 - 3720. [Abstract] [Full Text] [PDF]

				A. Menegon, C. Verderio, C. Leoni, F. Benfenati, A. J. Czernik, P. Greengard, M. Matteoli, and F. Valtorta Spatial and Temporal Regulation of Ca2+/Calmodulin-Dependent Protein Kinase II Activity in Developing Neurons J. Neurosci., August 15, 2002; 22(16): 7016 - 7026. [Abstract] [Full Text] [PDF]

				M. Pennuto, D. Dunlap, A. Contestabile, F. Benfenati, and F. Valtorta Fluorescence Resonance Energy Transfer Detection of Synaptophysin I and Vesicle-associated Membrane Protein 2 Interactions during Exocytosis from Single Live Synapses Mol. Biol. Cell, August 1, 2002; 13(8): 2706 - 2717. [Abstract] [Full Text] [PDF]

				H. Bolay, Y. Gursoy-Ozdemir, Y. Sara, R. Onur, A. Can, and T. Dalkara Persistent Defect in Transmitter Release and Synapsin Phosphorylation in Cerebral Cortex After Transient Moderate Ischemic Injury Stroke, May 1, 2002; 33(5): 1369 - 1375. [Abstract] [Full Text] [PDF]