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lüll Semaphorin function in neural plasticity and disease Pasterkamp RJ; Giger RJCurr Opin Neurobiol 2009[Jun]; 19 (3): 263-74The semaphorins, originally discovered as evolutionarily conserved steering molecules for developing axons, also influence neuronal structure and function in the early postnatal and juvenile nervous systems through several refinement processes. Semaphorins control synaptogenesis, axon pruning, and the density and maturation of dendritic spines. In addition, semaphorins and their downstream signaling components regulate synaptic physiology and neuronal excitability in the mature hippocampus, and these proteins are also implicated in a number of developmental, psychiatric, and neurodegenerative disorders. Significant inroads have been made in defining the mechanisms by which semaphorins regulate dynamic changes in the neuronal cytoskeleton at the molecular and cellular levels during embryonic nervous system development. However, comparatively little is known about how semaphorins influence neuronal structure and synaptic plasticity during adult nervous system homeostasis or following injury and disease. A detailed understanding of how semaphorins function beyond initial phases of neural network assembly is revealing novel insights into key aspects of nervous system physiology and pathology.|Animals[MESH]|Humans[MESH]|Models, Neurological[MESH]|Nerve Regeneration/physiology[MESH]|Nervous System Diseases/*physiopathology[MESH]|Neuronal Plasticity/*physiology[MESH]|Neurons/*physiology[MESH]|Semaphorins/*metabolism[MESH]|Synapses/physiology[MESH] |