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The presynaptic cytomatrix of brain synapses 总被引:11,自引:0,他引:11
Dresbach T Qualmann B Kessels MM Garner CC Gundelfinger ED 《Cellular and molecular life sciences : CMLS》2001,58(1):94-116
Synapses are principal sites for communication between neurons via chemical messengers called neurotransmitters. Neurotransmitters are released from presynaptic nerve terminals at the active zone, a restricted area of the cell membrane situated exactly opposite to the postsynaptic neurotransmitter reception apparatus. At the active zone neurotransmitter-containing synaptic vesicles (SVs) dock, fuse, release their content and are recycled in a strictly regulated manner. The cytoskeletal matrix at the active zone (CAZ) is thought to play an essential role in the organization of this SV cycle. Several multi-domain cytoskeleton-associated proteins, including RIM, Bassoon, Piccolo/Aczonin and Munc-13, have been identified, which are specifically localized at the active zone and thus are putative molecular components of the CAZ. This review will summarize our present knowledge about the structure and function of these CAZ-specific proteins. Moreover, we will review our present view of how the exocytotic and endocytic machineries at the site of neurotransmitter release are linked to and organized by the presynaptic cytoskeleton. Finally, we will summarize recent progress that has been made in understanding how active zones are assembled during nervous system development. 相似文献
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Schmeisser MJ Ey E Wegener S Bockmann J Stempel AV Kuebler A Janssen AL Udvardi PT Shiban E Spilker C Balschun D Skryabin BV Dieck St Smalla KH Montag D Leblond CS Faure P Torquet N Le Sourd AM Toro R Grabrucker AM Shoichet SA Schmitz D Kreutz MR Bourgeron T Gundelfinger ED Boeckers TM 《Nature》2012,486(7402):256-260
Autism spectrum disorders comprise a range of neurodevelopmental disorders characterized by deficits in social interaction and communication, and by repetitive behaviour. Mutations in synaptic proteins such as neuroligins, neurexins, GKAPs/SAPAPs and ProSAPs/Shanks were identified in patients with autism spectrum disorder, but the causative mechanisms remain largely unknown. ProSAPs/Shanks build large homo- and heteromeric protein complexes at excitatory synapses and organize the complex protein machinery of the postsynaptic density in a laminar fashion. Here we demonstrate that genetic deletion of ProSAP1/Shank2 results in an early, brain-region-specific upregulation of ionotropic glutamate receptors at the synapse and increased levels of ProSAP2/Shank3. Moreover, ProSAP1/Shank2(-/-) mutants exhibit fewer dendritic spines and show reduced basal synaptic transmission, a reduced frequency of miniature excitatory postsynaptic currents and enhanced N-methyl-d-aspartate receptor-mediated excitatory currents at the physiological level. Mutants are extremely hyperactive and display profound autistic-like behavioural alterations including repetitive grooming as well as abnormalities in vocal and social behaviours. By comparing the data on ProSAP1/Shank2(-/-) mutants with ProSAP2/Shank3αβ(-/-) mice, we show that different abnormalities in synaptic glutamate receptor expression can cause alterations in social interactions and communication. Accordingly, we propose that appropriate therapies for autism spectrum disorders are to be carefully matched to the underlying synaptopathic phenotype. 相似文献
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The strychnine-binding subunit of the glycine receptor shows homology with nicotinic acetylcholine receptors 总被引:21,自引:0,他引:21
G Grenningloh A Rienitz B Schmitt C Methfessel M Zensen K Beyreuther E D Gundelfinger H Betz 《Nature》1987,328(6127):215-220
We have cloned and sequenced cDNAs of the strychnine-binding subunit of the rat glycine receptor, a neurotransmitter-gated chloride channel protein of the CNS. The deduced polypeptide shows significant structural and amino-acid sequence homology with nicotinic acetylcholine receptor proteins, indicating that there is a family of genes encoding neurotransmitter-gated ion channels. 相似文献
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Khimich D Nouvian R Pujol R Tom Dieck S Egner A Gundelfinger ED Moser T 《Nature》2005,434(7035):889-894
Hearing relies on faithful synaptic transmission at the ribbon synapse of cochlear inner hair cells (IHCs). At present, the function of presynaptic ribbons at these synapses is still largely unknown. Here we show that anchoring of IHC ribbons is impaired in mouse mutants for the presynaptic scaffolding protein Bassoon. The lack of active-zone-anchored synaptic ribbons reduced the presynaptic readily releasable vesicle pool, and impaired synchronous auditory signalling as revealed by recordings of exocytic IHC capacitance changes and sound-evoked activation of spiral ganglion neurons. Both exocytosis of the hair cell releasable vesicle pool and the number of synchronously activated spiral ganglion neurons co-varied with the number of anchored ribbons during development. Interestingly, ribbon-deficient IHCs were still capable of sustained exocytosis with normal Ca2+-dependence. Endocytic membrane retrieval was intact, but an accumulation of tubular and cisternal membrane profiles was observed in ribbon-deficient IHCs. We conclude that ribbon-dependent synchronous release of multiple vesicles at the hair cell afferent synapse is essential for normal hearing. 相似文献
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Glycine vs GABA receptors 总被引:1,自引:0,他引:1
G Grenningloh E Gundelfinger B Schmitt H Betz M G Darlison E A Barnard P R Schofield P H Seeburg 《Nature》1987,330(6143):25-26
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