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1.
Quantitative western blot analysis in laminectomy control spinal cords of adult rats was used to provide the first report of the normal expression patterns of the N1, C1, C2 and C2' cassettes in the cervical, thoracic and lumbar regions of the spinal cord as a percent of total NR1 subunit protein. In all regions studied, the C1 and C2 cassettes were usually contained in less than 10% of total NR1 protein. In contrast, approximately 90% of total NR1 protein contained the C2' cassette. A significant proportion of total NR1 protein (approximately 30%) also contained the N1 cassette. These data are consistent with expression of NR1(000) (NR1-4a) and NR1(100) (NR1-4b) as the dominant splice forms in the spinal cord. Splice variant expression was also studied following incomplete, contusive spinal cord injury (SCI) to the thoracic level 8 (T8) region. This injury did not change expression of the C1 or C2 cassette in any region of the spinal cord acutely at 24 h or chronically at 1 month. There was an increase in expression of the N1 cassette in the lumbar regions 1 month after injury (p < 0.05). These data indicate that SCI induces distal changes in NR1 splice variant expression, which may play a role in the adaptive response of neurons in the chronically injured spinal cord.  相似文献   

2.
The distribution of the mRNA of different C-terminal splice variants of the μ-opioid receptor in rat CNS was assessed by RT-PCR. The mRNA species for MOR1, MOR1A and MOR1B were readily detectable and distributed widely throughout the rat CNS, with levels of MOR1 and MOR1A mRNA being overall greater than for MOR1B. We did not find convincing evidence that significant levels of MOR1C, MOR1C1, MOR1C2 and MOR1D are present in rat CNS. To examine possible differences in the agonist-induced regulation of MOR1, MOR1A and MOR1B, we expressed these constructs in HEK293 cells along with G-protein-coupled inwardly rectifying K+ channel subunits and measured the rate and extent of desensitisation of ( d -Ala2, N -Me-Phe4,glycinol5)-enkephalin (DAMGO)- and morphine-induced G-protein-coupled inwardly rectifying K+ currents. Morphine-induced desensitisation was rapid for all three splice variants ( t ½: 1.2–1.7 min) but DAMGO-induced desensitisation was significantly slower for MOR1B ( t ½ 4.2 min). Inhibition of endocytosis by expression of a dynamin-dominant negative mutant increased the rate of DAMGO-induced desensitisation of MOR1B. These data show that some splice variants of μ-opioid receptor are widely expressed in rat CNS but question the existence of others that have been reported in the literature. In addition, whereas the rate of desensitisation of MOR1 and MOR1A is agonist-independent, that for MOR1B is agonist-dependent.  相似文献   

3.
Synapse Associated Protein 97 (SAP97), a member of membrane-associated guanylate kinase (MAGUK) protein family, has been involved in the correct targeting and clustering of ionotropic glutamate receptors (iGluRs) at postsynaptic sites. Calcium/calmodulin kinase II (CaMKII) phosphorylates SAP97 on two major sites in vivo; one located in the N-terminal domain (Ser39) and the other in the first postsynaptic density disc large ZO1 (PDZ) domain (Ser232). CaMKII-mediated phosphorylation of SAP97-Ser39 is necessary and sufficient to drive SAP97 to the postsynaptic compartment in cultured hippocampal neurons. CaMKII-dependent phosphorylation of Ser232 disrupts SAP97 interaction with NR2A subunit, thereby regulating synaptic targeting of this NMDA receptor subunit. Here we show by means of phospho-specific antibodies that SAP97-Ser39 phosphorylation represents the driving force to release SAP97/NR2A complex from the endoplasmic reticulum. Ser39 phosphorylation does not interfere with SAP97 capability to bind NR2A. On the contrary, SAP97-Ser232 phosphorylation occurs within the postsynaptic compartment and is responsible for both the disruption of NR2A/SAP97 complex and, consequently, for NR2A insertion in the postsynaptic membrane. Thus, CaMKII-dependent phosphorylation of SAP97 in different time frames and locations within the neurons controls both NR2A trafficking and insertion.  相似文献   

4.
Phosphorylation of the NMDA receptor by Src-family tyrosine kinases has been implicated in the regulation of receptor function. We have investigated the tyrosine phosphorylation of NMDA receptor subunits NR2A and NR2B by exogenous Src and Fyn and compared this to phosphorylation by tyrosine kinases associated with the postsynaptic density (PSD). Phosphorylation of the receptor by exogenous Src and Fyn was dependent upon initial binding of the kinases to PSDs via their SH2-domains. Src and Fyn phosphorylated similar sites in NR2A and NR2B, tryptic peptide mapping identifying seven and five major tyrosine-phosphorylated peptides derived from NR2A and NR2B, respectively. All five tyrosine phosphorylation sites on NR2B were localized to the C-terminal, cytoplasmic domain. Phosphorylation of NR2B by endogenous PSD tyrosine kinases yielded only three tyrosine-phosphorylated tryptic peptides, two of which corresponded to Src phosphorylation sites, and one of which was novel. Phosphorylation-site specific antibodies identified NR2B Tyr1472 as a phosphorylation site for intrinsic PSD tyrosine kinases. Phosphorylation of this site was inhibited by the Src-family-specific inhibitor PP2. The results identify several potential phosphorylation sites for Src in the NMDA receptor, and indicate that not all of these sites are available for phosphorylation by kinases located within the structural framework of the PSD.  相似文献   

5.
The PSD-95/Dlg/ZO-1 (PDZ) domain-containing proteins MALS and PSD-95 localize to post-synaptic densities and bind the COOH-termini of NR2 subunits of the NMDA receptor. The effects of MALS-2 and PSD-95 on the channel activity of NMDA receptors were compared using the Xenopus oocyte expression system. Both MALS-2 and PSD-95 increased the current response of the NR1-NR2B receptor to l-glutamate. In contrast, the current response of the NR1-NR2A receptor was increased by PSD-95 but not by MALS-2. MALS-2 had no effect either on the potentiation of NR1-NR2A or NR1-NR2B channel activity by protein kinase C, or on Src-mediated potentiation of NR1-NR2A activity, whereas PSD-95 almost completely inhibited the effects of these protein kinases. Construction of chimeras of MALS-2 and PSD-95 revealed that the first two PDZ domains and two NH(2)-terminal cysteine residues are essential for the inhibitory effects of PSD-95 on protein kinase C-mediated potentiation of NR1-NR2A and NR1-NR2B channel activity, respectively. The second of the three PDZ domains of PSD-95 was required for its inhibition of Src-mediated potentiation of NR1-NR2A activity. These results indicate that the NR1-NR2A and NR1-NR2B receptors are modulated differentially by MALS-2 and PSD-95, and that similar regulatory effects of PSD-95 on these receptors are achieved by distinct mechanisms.  相似文献   

6.
We cloned two novel alternatively-spliced mRNA isoforms of glutamate receptor interacting protein 1 (GRIP1) which we named GRIP1d and GRIP1e 4-7. GRIP1d is a 135 kDa, 7-PDZ-domain variant of GRIP1, containing the 12 amino acid C-terminus originally described for the 4-PDZ-domain GRIP1c 4-7. GRIP1e 4-7 is a 75 kDa 4-PDZ-domain variant of GRIP1, containing the 12 amino acid C-terminus originally described for the 7-PDZ-domain GRIP1a/b. Northern blots indicated that GRIP1d mRNA is 5.1 kb long and abundant in brain. An antibody to the C-terminus of the 75 kDa GRIP1c 4-7 also recognized an abundant 135 kDa protein, consistent with the predicted size of GRIP1d. Similarly, an antibody to the C-terminus of the 135 kDa GRIP1a/b also recognized a low abundance 75 kDa protein, consistent with the predicted size of GRIP1e 4-7. Immunocytochemistry of hippocampal cultures and intact brain using these antibodies showed that (i) these isoforms are present in both GABAergic and glutamatergic synapses, and (ii) the isoforms co-localize in individual synapses. While GRIP1a/b isoforms are abundant in interneurons and highly concentrated in GABAergic presynaptic terminals, the isoforms recognized by the antibody to the C-terminus common to GRIP1c 4-7 and GRIP1d are much less abundant in interneurons and preferentially concentrate at the postsynaptic complex.  相似文献   

7.
The current quantitative study demonstrates that the recruitment of neuronal nitric oxide synthase (nNOS) beneath N-methyl-D-aspartate (NMDA) receptors, via postsynaptic density 95 (PSD-95) proteins significantly enhances nitric oxide (NO) production. Real-time single-cell fluorescence imaging was applied to measure both NO production and Ca(2+) influx in Chinese hamster ovary (CHO) cells expressing recombinant NMDA receptors (NMDA-R), nNOS, and PSD-95. We examined the relationship between the rate of NO production and Ca(2+) influx via NMDA receptors using the NO-reactive fluorescent dye, diaminofluorescein-FM (DAF-FM) and the Ca(2+)-sensitive yellow cameleon 3.1 (YC3.1), conjugated with PSD-95 (PSD-95-YC3.1). The presence of PSD-95 enhanced the rate of NO production by 2.3-fold upon stimulation with 100 microm NMDA in CHO1(+) cells (expressing NMDA-R, nNOS and PSD-95) when compared with CHO1(-) cells (expressing NMDA-R and nNOS lacking PSD-95). The presence of nNOS inhibitor or NMDA-R blocker almost completely suppressed this NMDA-stimulated NO production. The Ca(2+) concentration beneath the NMDA-R, [Ca(2+)](NR), was determined to be 5.4 microm by stimulating CHO2 cells (expressing NMDA-R and PSD-95-YC3.1) with 100 microm NMDA. By completely permealizing CHO1 cells with ionomycin, a general relationship curve of the rate of NO production versus the Ca(2+) concentration around nNOS, [Ca(2+)](NOS), was obtained over the wide range of [Ca(2+)](NOS). This sigmoidal curve had an EC(50) of approximately 1.2 microm of [Ca(2+)](NOS), implying that [Ca(2+)](NR) = 5.4 microm can activate nNOS effectively.  相似文献   

8.
Three distinct subtypes of vesicular glutamate transporters (VGLUTs) have been identified to date that are expressed basically in a cell type-specific manner. We have found a splice variant of VGLUT1 mRNA that is expressed almost exclusively in photosensitive tissues, i.e. the retina and the pineal gland. The variant mRNA, termed VGLUT1v, contains an additional 75 base pair sequence derived from part of a second intron (designated as exon IIa) between exons 2 and 3. The variant accounted for approximately 70% and 25%of VGLUT1 mRNA in the adult retina and pineal gland, respectively. The expression of VGLUT1v was developmentally regulated in both tissues. Organ culture showed that expression of the variant in the retina increased in association with the development of rod cells, suggesting that VGLUT1v is expressed in rod cells. In situ hybridization with variant-specific probes showed expression of VGLUT1v in the inner segment layer of photoreceptor cells. On the other hand, variant expression did not parallel the development of rhodopsin-positive cells in the pineal gland. As rod cells and pinealocytes are known to release glutamate continuously at ribbon synapses, it is possible that the variant has some functional advantage over the wild-type transporter in such a specialized manner of glutamate release.  相似文献   

9.
10.
Exposure of pregnant women to stress during a critical period of fetal brain development is an environmental risk factor for developing schizophrenia in the adult offspring. We have applied a repeated variable stress paradigm to pregnant Sprague-Dawley rats during the last week of gestation coinciding with the second trimester in human brain development. Here we report our findings from a microarray analysis of the frontal pole of the prenatally stressed adult offspring and non-stressed adult controls complemented with measurement of plasma corticosterone levels following exposure to an acute stress. The direction of change of selected genes was confirmed by real time quantitative fluorescence PCR and in situ hybridization. The analysis revealed significant changes in genes associated with the NMDA receptor/postsynaptic density complex and the vesicle exocytosis machinery including NMDA receptor NR1 and NR2A subunits, densin-180, brain enriched guanylate kinase-associated protein, synaptosome-associated protein of 25 kDa, synaphin/complexin and vesicle-associated membrane protein 2/synaptobrevin 2. Interestingly, some of the changes in this animal preparation are analogous to changes observed in schizophrenic and bipolar patients. Our results suggest that application of a repeated variable prenatal stress paradigm during a critical period of fetal brain development reprograms the response of the hypothalamo-pituitary-adrenal axis to acute stress and results in gene expression changes that may have enduring effects on synaptic function in the offspring during adulthood.  相似文献   

11.
Neurotransmitter receptors in vivo are linked to intracellular adaptor proteins and signalling molecules driving downstream pathways. Methods for physical isolation are essential to answer fundamental questions about the size, structure and composition of in vivo complexes and complement the widely used yeast 2-hybrid method. The N-methyl-D-aspartate receptor (NMDAR) binds postsynaptic density 95 (PSD-95) protein; both are required for synaptic plasticity and learning and participate in other important pathophysiological functions. Here we describe the development and optimization of novel methods for large-scale isolation of NMDAR--PSD-95 complexes from mouse brain including immunoaffinity, immunoprecipitation, ligand-affinity and immobilized PSD-95 binding peptides. Short PDZ binding peptides modelled on NMDAR subunits were shown to isolate NMDAR complexes. Gel filtration indicated the native NMDAR--PSD-95 complexes were 2000 kDa, and sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) revealed a complexity suggesting a huge network of both structural components and signalling enzymes. These methods can be used to define the structure of the complexes at different synapses and in mice carrying gene mutations as well as new tools for drug discovery.  相似文献   

12.
One approach to studying the functional role of individual NMDA receptor subunits involves the reduction in the abundance of the protein subunit in neurons. We have pursued a strategy to achieve this goal that involves the use of a small guide RNA which can lead to the destruction of the mRNA for a specific receptor subunit. We designed a small RNA molecule, termed 'external guide sequence' (EGS), which binds to the NR1 mRNA and directs the endonuclease RNase P to cleave the target message. This EGS has exquisite specificity and directed the RNase P-dependent cleavage at the targeted location within the NR1 mRNA. To improve the efficiency of this EGS, an in vitro evolution strategy was employed which led to a second generation EGS that was 10 times more potent than the parent molecule. We constructed an expression cassette by flanking the EGS with self-cleaving ribozymes and this permitted generation of the specified EGS RNA sequence from any promoter. Using a recombinant Herpes simplex virus (HSV), we expressed the EGS in neurons and showed the potency of the EGS to reduce NR1 protein within neurons. In an excitotoxicity assay, we showed that expression of the EGS in cortical neurons is neuroprotective. Our results demonstrate the utility of EGSs to reduce the expression of any gene (and potentially any splice variant) in neurons.  相似文献   

13.
Synapses are specialized contact sites mediating communication between neurons. Synaptogenesis requires the specific assembly of protein clusters at both sides of the synaptic contact by mechanisms that are barely understood. We studied the synaptic targeting of multi-domain proteins of the ProSAP/Shank family thought to serve as master scaffolding molecules of the postsynaptic density. In contrast to Shank1, expression of green-fluorescent protein (GFP)-tagged ProSAP1/Shank2 and ProSAP2/Shank3 deletion constructs in hippocampal neurons revealed that their postsynaptic localization relies on the integrity of the C-termini. The shortest construct that was perfectly targeted to synaptic sites included the last 417 amino acids of ProSAP1/Shank2 and included the C-terminal sterile alpha motif (SAM) domain. Removal of 54 residues from the N-terminus of this construct resulted in a diffuse distribution in the cytoplasm. Altogether, our data delineate a hitherto unknown targeting signal in both ProSAP1/Shank2 and ProSAP2/Shank3 and provide evidence for an implication of these proteins and their close homologue, Shank1, in distinct molecular pathways.  相似文献   

14.
The postsynaptic density (PSD) is a specialized electron-dense structure underneath the postsynaptic plasmamembrane of excitatory synapses. It is thought to anchor and cluster glutamate receptors exactly opposite to the presynaptic neurotransmitter release site. Various efforts to study the molecular structure of the PSD identified several new proteins including membrane receptors, cell adhesion molecules, components of signalling cascades, cytoskeletal elements and adaptor proteins with scaffolding functions to interconnect these PSD components. The characterization of a novel adaptor protein family, the ProSAPs or Shanks, sheds new light on the basic structural organization of the PSD. ProSAPs/Shanks are multidomain proteins that interact directly or indirectly with receptors of the postsynaptic membrane including NMDA-type and metabotropic glutamate receptors, and the actin-based cytoskeleton. These interactions suggest that ProSAP/Shanks may be important scaffolding molecules of the PSD with a crucial role in the assembly of the PSD during synaptogenesis, in synaptic plasticity and in the regulation of dendritic spine morphology. Moreover the analysis of a patient with 22q13.3 distal deletion syndrome revealed a balanced translocation with a breakpoint in the human ProSAP2/Shank3 gene. This ProSAP2/Shank3 haploinsufficiency may cause a syndrome that is characterized by severe expressive language delay, mild mental retardation and minor facial dysmorphisms.  相似文献   

15.
Autophosphorylation of Ca(2+)-calmodulin stimulated protein kinase II (CaMKII) at two sites (Thr286 and Thr305/306) is known to regulate the subcellular location and activity of this enzyme in vivo. CaMKII is also known to be autophosphorylated at Thr253 in vitro but the functional effect of phosphorylation at this site and whether it occurs in vivo, is not known. Using antibodies that specifically recognize CaMKII phosphorylated at Thr253 together with FLAG-tagged wild type and phospho- and dephospho-mimic mutants of alpha-CaMKII, we have shown that Thr253 phosphorylation has no effect on either the Ca(2+)-calmodulin dependent or autonomous kinase activity of recombinant alpha-CaMKII in vitro. However, the Thr253Asp phosphomimic mutation increased alpha-CaMKII binding to subcellular fractions enriched in post-synaptic densities (PSDs). The increase in binding was similar in extent, and additive, to that produced by phosphorylation of Thr286. Thr253 phosphorylation was dynamically regulated in intact hippocampal slices. KCl induced depolarisation increased Thr253 phosphorylation and the phospho-Thr253-CaMKII was specifically recovered in the subcellular fraction enriched in PSDs. These results identify Thr253 as an additional site at which CaMKII is phosphorylated in vivo and suggest that this dynamic phosphorylation may regulate CaMKII function by altering its distribution within the cell.  相似文献   

16.
17.
Molecular models of the ligand-binding domain of N-methyl-d-aspartate subunit R1 (NR1) were made using the published crystal structures of rat glutamate receptor B (GluRB), the bacterial glutamate receptor (GluR0), and the glutamine-binding protein (QBP) of Escherichia coli. Separate models of NR1 were built to represent the ligand-binding conformation for agonist (glycine, d- and l-isomers of serine and alanine, and the partial agonist ligand d-cycloserine) and antagonist (5,7-dichloro-4-oxo-1,4-dihydroquinoline-2-carboxylic acid (DCKA) and E-3-(2-phenyl-2-carboxyethenyl)-4,6-dichloro-1-H-indole-2-carboxylic acid (MDL 105,519)) ligands. Side-chain conformations of residues within the NR1 ligand-binding site were selected that optimized the hydrophobic packing and hydrogen bonding among residues, while taking into account published data comparing receptor mutants with wild-type NR1. Ligands docked to the model structures provide a rational explanation for the observed differences in binding affinity and receptor activation among agonist and antagonist ligands. NR1 prefers smaller ligands (glycine, serine, and alanine) in comparison with GluRB and GluR0 that bind l-glutamate: the bulky side chain of W731 in NR1 dramatically reduces the size of the ligand-binding site, functioning to selectively restrict recognition to glycine and the d-isomers of serine and alanine. Nevertheless, many of the interactions seen for ligands bound to GluRB, GluR0, and periplasmic-binding proteins are present for the ligands docked to the model structures of NR1.  相似文献   

18.
Protein kinase CK2 (CK2) is highly expressed in rat forebrain where its function is not well understood. Subcellular distribution studies showed that the catalytic subunit of CK2 (CK2alpha) was enriched in postsynaptic densities (PSDs) by 68%. We studied the putative role of CK2 activity on N-methyl-D-aspartate receptor (NMDAR) function using isolated, patch-clamped PSDs in the presence of 2 mM extracellular Mg(2+). The usual activation by phosphorylation of the NMDARs in the presence of ATP was inhibited by the selective CK2 inhibitor 5,6-dichloro-1-beta-ribofuranosyl benzimidazole (DRB). This inhibition was voltage-dependent, i.e., 100% at positive membrane potentials, while at negative potentials, inhibition was incomplete. Endogenous CK2 substrates were characterized by their ability to use GTP as a phosphoryl donor and susceptibility to inhibition by DRB. Immunoprecipitation assays and 2D gels indicated that PSD-95/SAP90, the NMDAR scaffolding protein, was a CK2 substrate, while the NR2A/B and NR1 NMDAR subunits were not. These results suggest that postsynaptic NMDAR regulation by CK2 is mediated by indirect mechanisms possibly involving PSD-95/SAP90.  相似文献   

19.
We have cloned two novel Caenorhabditis elegans dopamine receptors, DOP-3 and DOP-4. DOP-3 shows high sequence homology with other D2-like dopamine receptors. As a result of alternative splicing, a truncated splice variant of DOP-3, DOP-3nf, was produced. Because of the in-frame insertion of a stop codon in the third intracellular loop, DOP-3nf lacks the sixth and seventh transmembrane domains that are found in the full-length DOP-3 receptor. Reporter gene assay showed that DOP-3 attenuates forskolin-stimulated cAMP formation in response to dopamine stimulation, whereas DOP-3nf does not. When DOP-3 was coexpressed with DOP-3nf, the ability to inhibit forskolin-stimulated cAMP formation was reduced. DOP-4 shows high sequence homology with D1-like dopamine receptors unique to invertebrates, which are distinct from mammalian D1-like dopamine receptors. Reporter gene assay showed that DOP-4 stimulates cAMP accumulation in response to dopamine stimulation. These two receptors provide new opportunities to understand dopaminergic signaling at the molecular level.  相似文献   

20.
Distribution of PINK1 and LRRK2 in rat and mouse brain   总被引:1,自引:0,他引:1  
Mutations in two kinases, PTEN induced kinase 1 (PINK1) and leucine-rich repeat kinase 2 (LRRK2), have been shown to segregate with familial forms of Parkinson's disease. Although these two genes are expected to be involved in molecular mechanisms relevant to Parkinson's disease, their precise anatomical localization in mammalian brain is unknown. We have mapped the expression of PINK1 and LRRK2 mRNA in the rat and mouse brain via in situ hybridization histochemistry using riboprobes. We found that both genes are broadly expressed throughout the brain with similar neuroanatomical distribution in mouse compared to rat. PINK1 mRNA abundance was rather uniform throughout the different brain regions with expression in cortex, striatum, thalamus, brainstem and cerebellum. LRRK2, on the other hand, showed strong regional differences in expression levels with highest levels seen in the striatum, cortex and hippocampus. Weak LRRK2 expression was seen in the hypothalamus, olfactory bulb and substantia nigra. We confirmed these distributions for both genes using quantitative RT-PCR and for LRRK2 by western immunoblot. As their broad expression patterns contrast with localized neuropathology in Parkinson's disease, the pathogenicity of clinical mutant forms of PINK1 and LRRK2 may be mediated by nigrostriatal-specific mechanisms.  相似文献   

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