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991.
Maria Sol Collado Omar Khabour Diasinou Fioravante† John H. Byrne† Arnold Eskin 《Journal of neurochemistry》2009,108(1):176-189
Regulation of glutamate transporters accompanies plasticity of some glutamatergic synapses. The regulation of glutamate uptake at the Aplysia sensorimotor synapse during long-term facilitation (LTF) was investigated. Previously, increases in levels of ApGT1 ( Aplysia glutamate transporter 1) in synaptic membranes were found to be related to long-term increases in glutamate uptake. In this study, we found that regulation of ApGT1 during LTF appears to occur post-translationally. Serotonin (5-HT) a transmitter that induces LTF did not increase synthesis of ApGT1. A pool of ApGT1 appears to exist in sensory neuron somata, which is transported to the terminals by axonal transport. Blocking the rough endoplasmic reticulum-Golgi-trans-Golgi network (TGN) pathway with Brefeldin A prevented the 5-HT-induced increase of ApGT1 in terminals. Also, 5-HT produced changes in post-translational modifications of ApGT1 as well as changes in the levels of an ApGT1-co-precipitating protein. These results suggest that regulation of trafficking of ApGT1 from the vesicular trafficking system (rough endoplasmic reticulum-Golgi-TGN) in the sensory neuron somata to the terminals by post-translational modifications and protein interactions appears to be the mechanism underlying the increase in ApGT1, and thus, glutamate uptake during memory formation. 相似文献
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Regulated trafficking of neurotransmitter receptors is critical to normal neurodevelopment and neuronal signaling. Group I mGluRs (mGluR1/5 and their splice variants) are G protein-coupled receptors enriched at excitatory synapses, where they serve to modulate glutamatergic transmission. The mGluR1 splice variants mGluR1a and mGluR1b are broadly expressed in the central nervous system and differ in their signaling and trafficking properties. Several proteins have been identified that selectively interact with mGluR1a and participate in receptor trafficking but no proteins interacting with mGluR1b have thus far been reported. We have used a proteomic strategy to isolate and identify proteins that co-purify with mGluR1b in Madin-Darby Canine Kidney (MDCK) cells, an established model system for trafficking studies. Here, we report the identification of 10 novel candidate mGluR1b-interacting proteins. Several of the identified proteins are structural components of the cell cytoskeleton, while others serve as cytoskeleton-associated adaptors and motors or endoplasmic reticulum-associated chaperones. Findings from this work will help unravel the complex cellular mechanisms underlying mGluR trafficking under physiological and pathological conditions. 相似文献
993.
Peter McHenry Wei‐Lin Winnie Wang Edward Devitt Nicholas Kluesner Vincent Jo Davisson Edward McKee Dirk Schweitzer Paul Helquist Martin Tenniswood 《Journal of cellular biochemistry》2010,109(4):634-642
Iejimalides are novel macrolides that are cytostatic or cytotoxic against a wide range of cancer cells at low nanomolar concentrations. A recent study by our laboratory characterized the expression of genes and proteins that determine the downstream effects of iejimalide B. However, little is known about the cellular target(s) of iejimalide or downstream signaling that lead to cell‐cycle arrest and/or apoptosis. Iejimalides have been shown to inhibit the activity of vacuolar H+‐ATPase (V‐ATPase) in osteoclasts, but how this inhibition may lead to cell‐cycle arrest and/or apoptosis in epithelial cells is not known. In this study, MCF‐7 breast cancer cells were treated with iejimalide A or B and analyzed for changes in cell‐cycle dynamics, apoptosis, lysosomal pH, cytoplasmic pH, mitochondrial membrane potential, and generation of reactive oxygen species. Both iejimalides A and B sequentially neutralize the pH of lysosomes, induce S‐phase cell‐cycle arrest, and trigger apoptosis in MCF‐7 cells. Apoptosis occurs through a mechanism that involves oxidative stress and mitochondrial depolarization but not cytoplasmic acidification. These data confirm that iejimalides inhibit V‐ATPase activity in the context of epithelial tumor cells, and that this inhibition may lead to a lysosome‐initiated cell death process. J. Cell. Biochem. 109: 634–642, 2010. © 2009 Wiley‐Liss, Inc. 相似文献
994.
Sorabh Agarwal Deli Hong Nirav K. Desai Matthew H. Sazinsky José M. Argüello Amy C. Rosenzweig 《Proteins》2010,78(11):2450-2458
The Cu+‐ATPase CopA from Archaeoglobus fulgidus belongs to the P1B family of the P‐type ATPases. These integral membrane proteins couple the energy of ATP hydrolysis to heavy metal ion translocation across membranes. A defining feature of P1B‐1‐type ATPases is the presence of soluble metal binding domains at the N‐terminus (N‐MBDs). The N‐MBDs exhibit a conserved ferredoxin‐like fold, similar to that of soluble copper chaperones, and bind metal ions via a conserved CXXC motif. The N‐MBDs enable Cu+ regulation of turnover rates apparently through Cu‐sensitive interactions with catalytic domains. A. fulgidus CopA is unusual in that it contains both an N‐terminal MBD and a C‐terminal MBD (C‐MBD). The functional role of the unique C‐MBD has not been established. Here, we report the crystal structure of the apo, oxidized C‐MBD to 2.0 Å resolution. In the structure, two C‐MBD monomers form a domain‐swapped dimer, which has not been observed previously for similar domains. In addition, the interaction of the C‐MBD with the other cytoplasmic domains of CopA, the ATP binding domain (ATPBD) and actuator domain (A‐domain), has been investigated. Interestingly, the C‐MBD interacts specifically with both of these domains, independent of the presence of Cu+ or nucleotides. These data reinforce the uniqueness of the C‐MBD and suggest a distinct structural role for the C‐MBD in CopA transport. Proteins 2010. © 2010 Wiley‐Liss, Inc. 相似文献
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Yi Ma Eriko Miura Byung‐Kook Ham Hao‐Wen Cheng Young‐Jin Lee William J. Lucas 《The Plant journal : for cell and molecular biology》2010,64(3):536-550
In yeast, eIF5A, in combination with eEF2, functions at the translation step, during the protein elongation cycle. This result is of significance with respect to functioning of the enucleate sieve tube system, as eIF5A was recently detected in Cucurbita maxima (pumpkin) phloem sap. In the present study, we further characterized four CmeIF5A isoforms, encoding three proteins, all of which were present in the phloem sap. Although hypusination of CmeIF5A was not necessary for entry into the sieve elements, this unique post‐translational modification was necessary for RNA binding. The two enzymes required for hypusination were detected in pumpkin phloem sap, where presumably this modification takes place. A combination of gel‐filtration chromatography and protein overlay assays demonstrated that, as in yeast, CmeIF5A interacts with phloem proteins, like eEF2, known to be involved in protein synthesis. These findings are discussed in terms of a potential role for eIF5A in regulating protein synthesis within the enucleate sieve tube system of the angiosperms. 相似文献