The mechanisms by which neurotrophins elicit long-term structural and functional changes of synapses are not known. We report the mechanistic separation of functional and structural synaptic regulation by neurotrophin 3 (NT-3), using the neuromuscular synapse as a model. Inhibition of cAMP response element (CRE)–binding protein (CREB)–mediated transcription blocks the enhancement of transmitter release elicited by NT-3, without affecting the synaptic varicosity of the presynaptic terminals. Further analysis indicates that CREB is activated through Ca2+/calmodulin-dependent kinase IV (CaMKIV) pathway, rather than the mitogen-activated protein kinase (MAPK) or cAMP pathway. In contrast, inhibition of MAPK prevents the NT-3–induced structural, but not functional, changes. Genetic and imaging experiments indicate that the small GTPase Rap1, but not Ras, acts upstream of MAPK activation by NT-3. Thus, NT-3 initiates parallel structural and functional modifications of synapses through the Rap1–MAPK and CaMKIV–CREB pathways, respectively. These findings may have implications in the general mechanisms of long-term synaptic modulation by neurotrophins.
Neurotrophin 3 induces structural and functional modification of synapses through distinct molecular mechanisms
Abbreviations used in this paper: AChR, acetylcholine receptor; bZIP, basic leucine zipper; CAM, cell adhesion molecule; CaMK, calmodulin-dependent kinase; CRE, cAMP response element; CREB, CRE-binding protein; Dn, dominant-negative; ESC, evoked synaptic current; FRET, fluorescent resonance energy transfer; LTF, long-term facilitation; LTP, long-term potentiation; NMJ, neuromuscular junction; pCREB, phospho-CREB; PKA, protein kinase A; ROI, region of interest; SYP, synaptophysin.
Hyun-Soo Je, Feng Yang, Jiangzheng Zhou, Bai Lu; Neurotrophin 3 induces structural and functional modification of synapses through distinct molecular mechanisms . J Cell Biol 18 December 2006; 175 (6): 1029–1042. doi: https://doi.org/10.1083/jcb.200603061
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