Literature DB >> 21827867

Synapsin III: role in neuronal plasticity and disease.

Barbara Porton1, William C Wetsel, Hung-Teh Kao.   

Abstract

Synapsin III was discovered in 1998, more than two decades after the first two synapsins (synapsins I and II) were identified. Although the biology of synapsin III is not as well understood as synapsins I and II, this gene is emerging as an important factor in the regulation of the early stages of neurodevelopment and dopaminergic neurotransmission, and in certain neuropsychiatric illnesses. Molecular genetic and clinical studies of synapsin III have determined that its neurodevelopmental effects are exerted at the levels of neurogenesis and axonogenesis. In vitro voltammetry studies have shown that synapsin III can control dopamine release in the striatum. Since dopaminergic dysfunction is implicated in many neuropsychiatric conditions, one may anticipate that polymorphisms in synapsin III can exert pervasive effects, especially since it is localized to extrasynaptic sites. Indeed, mutations in this gene have been identified in individuals diagnosed with schizophrenia, bipolar disorder and multiple sclerosis. These and other findings indicate that the roles of synapsin III differ significantly from those of synapsins I and II. Here, we focus on the unique roles of the newest synapsin, and where relevant, compare and contrast these with the actions of synapsins I and II.
Copyright © 2011 Elsevier Ltd. All rights reserved.

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Year:  2011        PMID: 21827867      PMCID: PMC3185065          DOI: 10.1016/j.semcdb.2011.07.007

Source DB:  PubMed          Journal:  Semin Cell Dev Biol        ISSN: 1084-9521            Impact factor:   7.727


  126 in total

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4.  Suppression of synapsin II inhibits the formation and maintenance of synapses in hippocampal culture.

Authors:  A Ferreira; H Q Han; P Greengard; K S Kosik
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5.  Long-distance neuronal migration in the adult mammalian brain.

Authors:  C Lois; A Alvarez-Buylla
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6.  Neurogenesis in the dentate gyrus of the adult tree shrew is regulated by psychosocial stress and NMDA receptor activation.

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7.  Critical role of the parahippocampal region for paired-associate learning in rats.

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9.  A combined analysis of D22S278 marker alleles in affected sib-pairs: support for a susceptibility locus for schizophrenia at chromosome 22q12. Schizophrenia Collaborative Linkage Group (Chromosome 22).

Authors:  M Gill; H Vallada; D Collier; P Sham; P Holmans; R Murray; P McGuffin; S Nanko; M Owen; S Antonarakis; D Housman; H Kazazian; G Nestadt; A E Pulver; R E Straub; C J MacLean; D Walsh; K S Kendler; L DeLisi; M Polymeropoulos; H Coon; W Byerley; R Lofthouse; E Gershon; C M Read
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Authors:  T A Ryan; L Li; L S Chin; P Greengard; S J Smith
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Review 5.  Involvement of synaptic genes in the pathogenesis of autism spectrum disorders: the case of synapsins.

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6.  The impact of synapsin III gene on the neurometabolite level alterations after single-dose methylphenidate in attention-deficit hyperactivity disorder patients.

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Review 10.  The Synapse as a Central Target for Neurodevelopmental Susceptibility to Pesticides.

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