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1.
mGluR long‐term depression regulates GluA2 association with COPII vesicles and exit from the endoplasmic reticulum 下载免费PDF全文
mGluR long‐term depression (mGluR‐LTD) is a form of synaptic plasticity induced at excitatory synapses by metabotropic glutamate receptors (mGluRs). mGluR‐LTD reduces synaptic strength and is relevant to learning and memory, autism, and sensitization to cocaine; however, the mechanism is not known. Here we show that activation of Group I mGluRs in medium spiny neurons induces trafficking of GluA2 from the endoplasmic reticulum (ER) to the synapse by enhancing GluA2 binding to essential COPII vesicle proteins, Sec23 and Sec13. GluA2 exit from the ER further depends on IP3 and Ryanodine receptor‐controlled Ca2+ release as well as active translation. Synaptic insertion of GluA2 is coupled to removal of high‐conducting Ca2+‐permeable AMPA receptors from synapses, resulting in synaptic depression. This work demonstrates a novel mechanism in which mGluR signals release AMPA receptors rapidly from the ER and couple ER release to GluA2 synaptic insertion and GluA1 removal. 相似文献
2.
Ian F. Pryme 《Molecular and cellular biochemistry》1989,87(2):93-103
The rough endoplasmic reticulum isolated from several eukaryotic cell lines can be separated into subfractions. These subfractions possess different properties indicating that they represent separate domains of the endoplasmic reticulum system. 相似文献
3.
Ryanodine receptors (RyRs) play a key role in the generalization and spreading of calcium waves in excitable cells; however,
the question of the existence of functionally active RyRs in nonexcitable cells demonstrating the capacity for exocytosis
(e.g., salivary gland acini) remains open. We studied changes in the total amount of calcium stored in the endoplasmic reticulum
(ER) of acinar cells of the submandibular salivary gland of rats and changes in the concentration of ionized Ca2+ inside the ER ([Ca2+]ER) using, respectively, a metallochrome dye, arsenazo III, and a low-affinity fluorescent dye, mag-fura 2/AM. In permeabilized
cells, caffeine caused dose-dependent decreases in the total amount of calcium and concentration of ionized calcium. The effective
concentration of caffeine providing a 50% drop in the [Ca2+]ER (EC50) was, on average, 7.3 ± 1.1 mM. The caffeine-induced drop in the [Ca2+]ER was insensitive to heparin; in addition, it was blocked by high concentrations (100 μM) of ryanodine, potentiated by ryanodine
applied in mild concentrations (10 μM), and also demonstrated a bell-shaped dependence on the concentration of cytoplasmic
Ca2+. Such peculiarities are typical characteristics of the RyR-mediated reaction. Therefore, functional RyRs whose activation
results in a transient release of calcium from the ER are present in acinar cells of the submandibular salivary gland.
Neirofiziologiya/Neurophysiology, Vol. 39, No. 2, pp. 107–112, March–April, 2007. 相似文献
4.
Expression of the canine 180-kDa ribosome receptor p180 in yeast induces the synthesis of RER, and increases the mRNAs of secretory pathway proteins, and protein secretion. To assess whether p180 is a master regulator of cell secretion in mammalian cells, we stably expressed red fluorescent forms of the human p180 variants p180DeltaR (no tandem repeats), p180R (26 repeats), and full-length p180FR (54 repeats) containing different lengths of the tandem repeat ribosome-binding domain in rat pancreatic RINm5F islet beta-cells. All three fluorescent p180 variants localized exclusively to the RER. Cells transfected with p180R were filled with ribosome-studded karmellae, whereas p180DeltaR and p180FR transfectants contained only increased amounts of mostly smooth ER. Unlike in yeast, over-expression of p180R failed to increase the secretory pathway proteins calnexin, SEC61beta, and calreticulin, or ribosome biogenesis. The data suggest that alternative splicing of the p180 tandem repeat domain is a means of regulating the ribosome-binding activity of p180, and potentially the secretory activity of the cell. However, p180 is not a master regulator of mammalian cell secretion as it does not concomitantly trigger the synthesis of protein machinery required to enhance protein synthesis and cell secretion. 相似文献
5.
Prinz WA Grzyb L Veenhuis M Kahana JA Silver PA Rapoport TA 《The Journal of cell biology》2000,150(3):461-474
We find that the peripheral ER in Saccharomyces cerevisiae forms a dynamic network of interconnecting membrane tubules throughout the cell cycle, similar to the ER in higher eukaryotes. Maintenance of this network does not require microtubule or actin filaments, but its dynamic behavior is largely dependent on the actin cytoskeleton. We isolated three conditional mutants that disrupt peripheral ER structure. One has a mutation in a component of the COPI coat complex, which is required for vesicle budding. This mutant has a partial defect in ER segregation into daughter cells and disorganized ER in mother cells. A similar phenotype was found in other mutants with defects in vesicular trafficking between ER and Golgi complex, but not in mutants blocked at later steps in the secretory pathway. The other two mutants found in the screen have defects in the signal recognition particle (SRP) receptor. This receptor, along with SRP, targets ribosome-nascent chain complexes to the ER membrane for protein translocation. A conditional mutation in SRP also disrupts ER structure, but other mutants with translocation defects do not. We also demonstrate that, both in wild-type and mutant cells, the ER and mitochondria partially coalign, and that mutations that disrupt ER structure also affect mitochondrial structure. Our data suggest that both trafficking between the ER and Golgi complex and ribosome targeting are important for maintaining ER structure, and that proper ER structure may be required to maintain mitochondrial structure. 相似文献
6.
High capacity of the endoplasmic reticulum to prevent secretion and aggregation of amyloidogenic proteins 下载免费PDF全文
Lisa Vincenz‐Donnelly Hauke Holthusen Roman Körner Erik C Hansen Jenny Presto Jan Johansson Ritwick Sawarkar F Ulrich Hartl Mark S Hipp 《The EMBO journal》2018,37(3):337-350
Protein aggregation is associated with neurodegeneration and various other pathologies. How specific cellular environments modulate the aggregation of disease proteins is not well understood. Here, we investigated how the endoplasmic reticulum (ER) quality control system handles β‐sheet proteins that were designed de novo to form amyloid‐like fibrils. While these proteins undergo toxic aggregation in the cytosol, we find that targeting them to the ER (ER‐β) strongly reduces their toxicity. ER‐β is retained within the ER in a soluble, polymeric state, despite reaching very high concentrations exceeding those of ER‐resident molecular chaperones. ER‐β is not removed by ER‐associated degradation (ERAD) but interferes with ERAD of other proteins. These findings demonstrate a remarkable capacity of the ER to prevent the formation of insoluble β‐aggregates and the secretion of potentially toxic protein species. Our results also suggest a generic mechanism by which proteins with exposed β‐sheet structure in the ER interfere with proteostasis. 相似文献
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9.
Exiting the endoplasmic reticulum 总被引:6,自引:2,他引:4
Vesicular transport from the endoplasmic reticulum (ER) to the Golgi complex constitutes the initial step in protein secretion. COPII-coated vesicles mediate the export of newly synthesized proteins from the ER, and this transport step is coupled with COPI-mediated retrograde traffic to form a transport circuit that supports the compositional asymmetry of the ER-Golgi system. Biochemical and structural studies have advanced our understanding of the mechanisms that control vesicle formation and cargo-protein capture. Recent work has highlighted the function of transitional ER regions in specifying the location of COPII budding. 相似文献
10.
11.
A membrane preparation that contains proteins characteristic of the rough endoplasmic reticulum 总被引:1,自引:0,他引:1
A Amar-Costesec M Hortsch C Turu 《Biology of the cell / under the auspices of the European Cell Biology Organization》1988,62(3):281-288
We describe a procedure for disassembling rat liver rough microsomes, which allows the purification of the rough endoplasmic reticulum (ER) membrane. Membrane-bound ribosomes and adsorbed proteins are first detached by washing rough microsomes with 5 mM Na-pyrophosphate. In a second step, the vesicle membrane is opened by digitonin, with concomitant release of the luminal content. The purification is monitored at each step by electron microscopy, and by assaying chemical constituents (protein, phospholipid, RNA) and marker enzymes for the main subcellular organelles. The final membrane preparation is representative of the ER, since it contains 24.1% of the liver glucose 6-phosphatase with a relative specific activity of 14.2. Contaminants represent less than 5% of its protein content. SDS-polyacrylamide gel electrophoresis, followed by immunoblot analysis, reveals that the ribophorins I and II, two established markers of the rough (d) domain are still present in the final membrane preparation. It also contains the docking protein (or signal recognition particle receptor) and protein disulfide isomerase, and has conserved the functional capacity to remove co- and post-translationally the signal peptide of pre-secretory proteins. The membrane preparation is suitable for studies on the polypeptide composition of the d domain. 相似文献
12.
Kevin J. Eckelbarger 《Tissue & cell》1982,14(2):289-295
Peculiar undulating cisternae of endoplasmic reticulum have been observed in the spermatids of the opisthobranch mollusc Spurilla neapolitana. Analysis of sections suggests that these arrays of ER might be a multilamellar structure consisting of paired cytomembranes molded into parallel, conical elevations with hexagonal bases. The structure is associated most frequently with the Golgi complex of the spermatid but its function is unknown. Other reports of similar arrays of ER in both plant and animal cells are discussed and compared with those of Spurilla spermatids. 相似文献
13.
The process of mRNA localization typically utilizes cis-targeting elements and trans-recognition factors to direct the compartmental organization of translationally suppressed mRNAs. mRNA localization to the endoplasmic reticulum (ER), in contrast, occurs via a co-translational, signal sequence/signal recognition particle (SRP)-dependent mechanism. We have utilized cell fractionation/cDNA microarray analysis, shRNA-mediated suppression of SRP expression, and mRNA reporter construct studies to define the role of the SRP pathway in ER-directed mRNA localization. Cell fractionation studies of mRNA partitioning between the cytosol and ER demonstrated the expected enrichment of cytosolic/nucleoplasmic protein-encoding mRNAs and secretory/integral membrane protein-encoding mRNAs in the cytosol and ER fractions, respectively, and identified a subpopulation of cytosolic/nucleoplasmic protein-encoding mRNAs in the membrane-bound mRNA pool. The latter finding suggests a signal sequence-independent pathway of ER-directed mRNA localization. Extending from these findings, mRNA partitioning was examined in stable SRP54 shRNA knockdown HeLa cell lines. shRNA-directed reductions in SRP did not globally alter mRNA partitioning patterns, although defects in membrane protein processing were observed, further suggesting the existence of multiple pathways for mRNA localization to the ER. ER localization of GRP94-encoding mRNA was observed when translation was disabled by mutation of the start codon/insertion of a 5'UTR stem-loop structure or upon deletion of the encoded signal sequence. Combined, these data indicate that the mRNA localization to the ER can be conferred independent of the signal sequence/SRP pathway and suggest that mRNA localization to the ER may utilize cis-encoded targeting information. 相似文献
14.
TorsinA is a membrane-associated enzyme in the endoplasmic reticulum (ER) lumen that is mutated in DYT1 dystonia. How it remains in the ER has been unclear. We report that a hydrophobic N-terminal domain (NTD) directs static retention of torsinA within the ER by excluding it from ER exit sites, as has been previously reported for short transmembrane domains (TMDs). We show that despite the NTD's physicochemical similarity to TMDs, it does not traverse the membrane, defining torsinA as a lumenal monotopic membrane protein and requiring a new paradigm to explain retention. ER retention and membrane association are perturbed by a subset of nonconservative mutations to the NTD, suggesting that a helical structure with defined orientation in the membrane is required. TorsinA preferentially enriches in ER sheets, as might be expected for a lumenal monotopic membrane protein. We propose that the principle of membrane-based protein sorting extends to monotopic membrane proteins, and identify other proteins including the monotopic lumenal enzyme cyclooxygenase 1 (prostaglandin H synthase 1) that share this mechanism of retention with torsinA. 相似文献
15.
Anion channels in giant liposomes made of endoplasmic reticulum vesicles from rat exocrine pancreas 总被引:3,自引:0,他引:3
Andreas Schmid Heinz Gögelein Thomas P. Kemmer Irene Schulz 《The Journal of membrane biology》1988,104(3):275-282
Summary Using the method of dehydration and rehydration, rough endoplasmic reticulum (RER) vesicles, isolated by differential centrifugation, can be enlarged to giant liposomes with diameters ranging from 5 to 200 m. Patch-clamp studies on these giant RER liposomes revealed the existence of a channel with a mean conductance of 260±7 pS (n=23; 140 mmol/liter KCl on both sides). The channel is about four times more permeable for Cl– than for K+. Its activity is strongly voltage regulated. At low potentials (±20 mV) the channel is predominantly in its open state with an open probability near 1.0, whereas it closes permanently at high positive and negative voltages (±70 mV). The channel activity is not influenced by changing the free Ca2+ concentration from 1 mmol/liter to less than 10–9 mol/liter on either side, and is also not affected by typical Cl–-channel blockers like diphenylamine-2-carboxylate (DPC, 1 mmol/liter) or 4-acetamido-4-isothiocyanatostilbene-2,2-disulfonic acid (SITS, 1 mmol/liter). Another chloride channel with a singlechannel conductance of 79±6 pS (n=4) was less frequently observed. In the potential range of –80 to +40 mV this channel displayed no voltage-dependent gating. We assume that these anion channels are involved in the maintenance of electroneutrality during Ca2+ uptake in the RER. 相似文献
16.
Dogic D Dubois A de Chassey B Lefkir Y Letourneur F 《European journal of cell biology》2001,80(2):151-155
Studies on the ERGIC-53 KKAA signal have revealed a new mechanism for static retention of mammalian proteins in the endoplasmic reticulum (Andersson, H., Kappeler, F., Hauri, H. P. (1999): Protein targeting to endoplasmic reticulum by dilysine signals involves direct retention in addition to retrieval. J. Biol. Chem. 274,15080 - 15084). To test if this mechanism was conserved in yeast, the ERGIC-53 KKAA signal was transferred on two different yeast reporter proteins. Making use of a genetic assay, we demonstrate that this signal induces COPI-dependent ER retrieval. ER retention of KKAA-tagged proteins was impaired in yeast mutants affected in COPI subunits. Furthermore, biochemical analysis of post-ER carbohydrate modifications detected on reporter proteins indicated that KKAA-tagged proteins recycle continuously within early compartments of the secretory pathway. Therefore in yeast, the KKAA signal might only function as a classical dilysine ER retrieval signal. 相似文献
17.
Topology of molecular machines of the endoplasmic reticulum: a compilation of proteomics and cytological data 总被引:1,自引:0,他引:1
The endoplasmic reticulum (ER) is a key organelle of the secretion pathway involved in the synthesis of both proteins and
lipids destined for multiple sites within and without the cell. The ER functions to both co- and post-translationally modify
newly synthesized proteins and lipids and sort them for housekeeping within the ER and for transport to their sites of function
away from the ER. In addition, the ER is involved in the metabolism and degradation of specific xenobiotics and endogenous
biosynthetic products. A variety of proteomics studies have been reported on different subcompartments of the ER providing
an ER protein dictionary with new data being made available on many protein complexes of relevance to the biology of the ER
including the ribosome, the translocon, coatomer proteins, cytoskeletal proteins, folding proteins, the antigen-processing
machinery, signaling proteins and proteins involved in membrane traffic. This review examines proteomics and cytological data
in support of the presence of specific molecular machines at specific sites or subcompartments of the ER. 相似文献
18.
Shen WW Frieden M Demaurex N 《Biology of the cell / under the auspices of the European Cell Biology Organization》2011,103(8):365-380
SOCE (store-operated calcium entry) is a ubiquitous cellular mechanism linking the calcium depletion of the ER (endoplasmic reticulum) to the activation of PM (plasma membrane) Ca2+-permeable channels. The activation of SOCE channels favours the entry of extracellular Ca2+ into the cytosol, thereby promoting the refilling of the depleted ER Ca2+ stores as well as the generation of long-lasting calcium signals. The molecules that govern SOCE activation comprise ER Ca2+ sensors [STIM1 (stromal interaction molecule 1) and STIM2], PM Ca2+-permeable channels {Orai and TRPC [TRP (transient receptor potential) canonical]} and regulatory Ca2+-sensitive cytosolic proteins {CRACR2 [CRAC (Ca2+ release-activated Ca2+ current) regulator 2]}. Upon Ca2+ depletion of the ER, STIM molecules move towards the PM to bind and activate Orai or TRPC channels, initiating calcium entry and store refilling. This molecular rearrangement is accompanied by the formation of specialized compartments derived from the ER, the pre-cER (cortical ER) and cER. The pre-cER appears on the electron microscope as thin ER tubules enriched in STIM1 that extend along microtubules and that are devoid of contacts with the PM. The cER is located in immediate proximity to the PM and comprises thinner sections enriched in STIM1 and devoid of chaperones that might be dedicated to calcium signalling. Here, we review the molecular interactions and the morphological changes in ER structure that occur during the SOCE process. 相似文献
19.
Filamentous fungi are composed of hyphal compartments divided by septa, which communicate via septal pores. Apical compartments can elongate to over 100 microm without septum formation and possess a polarized distribution of organelles. In Aspergillus, subapical compartments are arrested in interphase but can reinitiate mitosis and growth by branching. Recent reports using green fluorescent protein (GFP) technology have demonstrated the highly differentiated localization of the endoplasmic reticulum (ER) network in various regions of the hyphae: the gradient distribution from the apical region, the localization along the septum, differential distributions in adjacent compartments, and the dynamic morphological change during septum formation. In this review the spatial regulation of the ER network in multicellular filamentous fungi is discussed. 相似文献
20.
Peter Verani
Nada Pipan 《Biology of the cell / under the auspices of the European Cell Biology Organization》1995,83(1):69-76
Summary— Zebrafish hepatocytes respond to stimulation with estradiol 17β (E2) with an extreme enlargement of the endomembrane system, especially the endoplasmic reticulum (ER), and when stimulation is stopped with a rapid degradation of enlarged endomembranes. Two pathways for degradation of ER were studied: a) the autophagy which was evaluated by stereological measurement; and b) the activity of cytosolic phospholipase B (PL-B) measured by a titration method. After a 30-day treatment with E2 a six-fold increase of the surface density of ER was accompanied by an increase of both autophagy and PL-B activity. 2 days after stopping the stimulation with E2 the ER vesiculated and its surface density decreased to the half value. Interestingly, at the same time autophagic vacuoles (AV) almost disappeared from hepatocytes, while the activity of PL-B reached its maximum at which it persisted for a further 4 days. After 4–6 days without E2 the cistern of ER became flattened again and new AVs reappeared. The data suggest that the regulation mechanisms of endomembrane degradation by PL-B and autophagy do not depend on each other and also that the appearance of AV is strongly related to the shape of ER. 相似文献