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The vesicular acetylcholine transporter (VAChT) and the vesicular monoamine transporter (VMAT) belong to the same transporter family that packages acetylcholine into synaptic vesicles (SVs) and biogenic amines into large dense core vesicles (LDCVs) and/or SVs, respectively. These transporters share similarities in sequence and structure with their N- and C-terminal domains located in the cytoplasm. When expressed in PC12 cells, VMAT2 localizes to LDCV, whereas VAChT is found mainly on synaptic-like microvesicles. Previous studies have shown that the cytoplasmic C-terminal domain of VAChT contains signals targeting this transporter to SVs. However, the targeting signals for VMAT have not been completely elucidated. To identify signals targeting VMAT2 to LDCV, the subcellular localization of VMAT2-VAChT chimeras was analyzed in PC12 cells. Chimeras having either the N-terminal region through transmembrane domain 2 of VMAT2 or the C-terminal domain of VMAT2 do not traffic to LDCV efficiently. In contrast, chimeras having both of these regions, or the luminal glycosylated loop in conjunction with transmembrane domains 1 and 2 and the C-terminal domain of VMAT2, traffic to LDCV. Treatment of PC12 cells with 1-deoxymannojirimycin, a specific alpha-mannosidase I inhibitor, causes VMAT2 to localize to synaptic-like microvesicles. The results indicate that both mature N-linked glycosylation and the C-terminus are important for proper trafficking of VMAT2 and that the locations of trafficking signals in VMAT2 and VAChT are surprisingly different.  相似文献   

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Methamphetamine (METH) produces long-term decreases in markers of dopamine (DA) terminals in animals and humans. A decrease in the function of the vesicular monoamine transporter 2 (VMAT2) has been associated with damage to striatal DA terminals caused by METH; however, a possible mechanism for this decrease in VMAT2 function has not been defined. The current study showed that METH caused a rapid decrease to 68% of controls in VMAT2 protein immunoreactivity of the vesicular fraction from striatal synaptosomes within 1 h after a repeated high-dose administration regimen of METH. This decrease was associated with a 75% increase in nitrosylation of VMAT2 protein in the synaptosomal fraction as measured by nitrosocysteine immunoreactivity of VMAT2 protein. The rapid decreases in VMAT2 persisted when evaluated 7 days later and were illustrated by decreases in VMAT2 immunoreactivity and DA content of the vesicular fraction to 34% and 51% of control values, respectively. The decreases were blocked or attenuated by prior injections of the neuronal nitric oxide synthase inhibitor, S-methyl-l-thiocitrulline. These studies demonstrate that METH causes a rapid neuronal nitric oxide synthase-dependent oxidation of VMAT2 and long-term decreases in VMAT2 protein and function. The results also suggest that surviving DA terminals after METH exposure may have a compromised capacity to buffer cytosolic DA concentrations and DA-derived oxidative stress.  相似文献   

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Vesicular monoamine transporter 2 (VMAT2) is expressed in pancreatic beta cells and has recently been proposed as a target for measurement of beta cell mass in vivo. We questioned, (1) What proportion of beta cells express VMAT2? (2) Is VMAT2 expressed by other pancreatic endocrine or non-endocrine cells? (3) Is the relationship between VMAT2 and insulin expression disturbed in type 1 (T1DM) or type 2 diabetes (T2DM)? Human pancreas (7 non-diabetics, 5 T2DM, 10 T1DM) was immunostained for insulin, VMAT2 and other pancreatic hormones. Most beta cells expressed VMAT2. VMAT2 expression was not changed by the presence of diabetes. In tail of pancreas VMAT2 immunostaining closely correlated with insulin staining. However, VMAT2 was also expressed in some pancreatic polypeptide (PP) cells. Although VMAT2 was not excluded as a target for beta cell mass measurement, expression of VMAT2 in PP cells predicts residual VMAT2 expression in human pancreas even in the absence of beta cells.  相似文献   

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p-Methoxyamphetamine (PMA) has been implicated in fatalities as a result of 'ecstasy' (MDMA) overdose worldwide. Like MDMA, acute effects are associated with marked changes in serotonergic neurotransmission, but the long-term effects of PMA are poorly understood. The aim of this study was to determine the effect of repeated PMA administration on in vitro measures of neurodegeneration: serotonin (5-HT) uptake, 5-HT transporter (SERT) density and 5-HT content in the hippocampus, and compare with effects on in vivo 5-HT clearance. Male rats received PMA, MDMA (4 or 15 mg/kg s.c., twice daily) or vehicle for 4 days and 2 weeks later indices of SERT function were measured. [(3)H]5-HT uptake into synaptosomes and [(3)H]cyanoimipramine binding to the SERT were significantly reduced by both PMA and MDMA treatments. 5-HT content was reduced in MDMA-, but not PMA-treatment. In contrast, clearance of locally applied 5-HT measured in vivo by chronoamperometry was only reduced in rats treated with 15 mg/kg PMA. The finding that 5-HT clearance in vivo was unaltered by MDMA treatment suggests that in vitro measures of 5-HT axonal degeneration do not necessarily predict potential compensatory mechanisms that maintain SERT function under basal conditions.  相似文献   

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The proton-coupled oligopeptide transporter PEPT2 (or SLC15A2 ) is the major protein involved in the reclamation of peptide-bound amino acids and peptide-like drugs in kidney. PEPT2 is also important in effluxing peptides and peptidomimetics from CSF at the choroid plexus, thereby limiting their exposure in brain. In this study, we report a neuroprotective role for PEPT2 in modulating the toxicity of a heme precursor, 5-aminolevulinic acid (5-ALA). Our findings demonstrate that in PEPT2-deficient mice, 5-ALA administration results in reduced survivability, a worsening of neuromuscular dysfunction, and CSF concentrations of substrate that are 8–30 times higher than that in wild-type control animals. The ability of PEPT2 to limit 5-ALA exposure in CSF suggests that it may also have relevance as a secondary genetic modifier of conditions (such as acute hepatic porphyrias and lead poisoning) in which 5-ALA metabolism is altered and in which 5-ALA toxicity is important.  相似文献   

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Huntington's disease (HD) is a fatal neurodegenerative disorder causing selective neuronal death in the brain. Dysfunction of the ubiquitin–proteasome system may contribute to the disease; however, the exact mechanisms are still unknown. We report here a new pathological mechanism by which mutant huntingtin specifically interferes with the degradation of β‐catenin. Huntingtin associates with the β‐catenin destruction complex that ensures its equilibrated degradation. The binding of β‐catenin to the destruction complex is altered in HD, leading to the toxic stabilization of β‐catenin. As a consequence, the β‐transducin repeat‐containing protein (β‐TrCP) rescues polyglutamine (polyQ)‐huntingtin‐induced toxicity in striatal neurons and in a Drosophila model of HD, through the specific degradation of β‐catenin. Finally, the non‐steroidal anti‐inflammatory drug indomethacin that decreases β‐catenin levels has a neuroprotective effect in a neuronal model of HD and in Drosophila and increases the lifespan of HD flies. We thus suggest that restoring β‐catenin homeostasis in HD is of therapeutic interest.  相似文献   

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A vesicular glutamate transporter (VGLUT) is responsible for the accumulation of l-glutamate in synaptic vesicles in glutamatergic neurons. Two isoforms, VGLUT1 and VGLUT2, have been identified, which are complementarily expressed in these neurons. Mammalian pinealocytes, endocrine cells for melatonin, are also glutamatergic in nature, accumulate l-glutamate in synaptic-like microvesicles (SLMVs), and secrete it through exocytosis. Although the storage of l-glutamate in SLMVs is mediated through a VGLUT, the molecular nature of the transporter is less understood. We recently observed that VGLUT2 is expressed in pinealocytes. In the present study, we show that pinealocytes also express VGLUT1. RT-PCR and northern blot analyses indicated expression of the VGLUT1 gene in pineal gland. Western blotting with specific antibodies against VGLUT1 indicated the presence of VGLUT1 in pineal gland. Indirect immunofluorescence microscopy with a section of pineal gland and cultured cells indicated that VGLUT1 and VGLUT2 are co-localized with process terminal regions of pinealocytes. Furthermore, immunoelectronmicroscopy as well as subcellular fractionation studies revealed that both VGLUT1 and VGLUT2 are specifically associated with SLMVs. These results indicate that both VGLUTs are responsible for storage of l-glutamate in SLMVs in pinealocytes. Pinealocytes are the first exception as to complementary expression of VGLUT1 and VGLUT2.  相似文献   

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《Free radical research》2013,47(12):1416-1424
Abstract

Long-term exposure to cypermethrin induces the nigrostriatal dopaminergic neurodegeneration in adult rats and its pre-exposure in the critical periods of brain development enhances the susceptibility during adulthood. Monoamine transporters, xenobiotic metabolizing enzymes and oxidative stress play critical roles in the nigrostriatal dopaminergic neurodegeneration. The study was undertaken to investigate the effects of cypermethrin on DAT, VMAT 2, CYP2E1, GST Ya, GST Yc and GSTA4-4 expressions, CYP2E1 and GST activities and lipid peroxidation in the nigrostriatal system of adult rats with/without post-natal exposure to cypermethrin. Cypermethrin reduced VMAT 2 and increased CYP2E1 expressions without causing significant change in DAT. Although GSTA4-4 mRNA expression and lipid peroxidation were increased, no significant changes were observed in GST Ya and GST Yc expressions and total GST activity. The results obtained demonstrate that long-term exposure to cypermethrin modulates VMAT 2, CYP2E1, GSTA4-4 expressions and lipid peroxidation, which could contribute to the nigrostriatal dopaminergic neurodegeneration.  相似文献   

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The antidepressant desipramine (DMI) is a selective inhibitor of norepinephrine (NE) transport that down-regulates the norepinephrine transporter (NET) protein in a concentration- and time-dependent manner in vitro. In this study, possible regulatory effects of DMI on NET mRNA and protein levels were investigated with the NET-expressing SK-N-BE(2)M17 cell line and rat brain tissue. Northern blot analysis showed that incubation of the cultured cells with DMI (5-500 nm) for 3 days reduced levels of NET mRNA in both its 5.8-kb (by up to 58%) and 3.6-kb forms (to 68%), whereas incubation for 14 days increased both levels (to 40% and 100%) in a concentration-dependent manner. In contrast, NET protein levels decreased after 3-14 days of exposure of the cells to DMI, as determined by western blotting. The in vitro findings were supported by in vivo treatment of rats with DMI. Thus, in situ hybridization demonstrated initially decreased, and later increased, NET mRNA levels in locus coeruleus (LC) tissue of rats treated with DMI; whereas NET protein levels in the LC were reduced after 14 days, but unchanged after three daily DMI treatments. Thus, DMI had similar effects on NET expression in vitro and in vivo, with opposite changes in NET mRNA and protein levels, suggesting that the regulatory mechanisms involved are complex and non-congruent.  相似文献   

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Central heterocyclic ring size reduction from piperidinyl to pyrrolidinyl in the vesicular monoamine transporter-2 (VMAT2) inhibitor GZ-793A and its analogs resulted in novel N-propane-1,2(R)-diol analogs 11a–i. These compounds were evaluated for their affinity for the dihydrotetrabenazine (DTBZ) binding site on VMAT2 and for their ability to inhibit vesicular dopamine (DA) uptake. The 4-difluoromethoxyphenethyl analog 11f was the most potent inhibitor of [3H]-DTBZ binding (Ki = 560 nM), with 15-fold greater affinity for this site than GZ-793A (Ki = 8.29 μM). Analog 11f also showed similar potency of inhibition of [3H]-DA uptake into vesicles (Ki = 45 nM) compared to that for GZ-793A (Ki = 29 nM). Thus, 11f represents a new water-soluble inhibitor of VMAT function.  相似文献   

16.
In this study, the efficiency of inducible promoters to switch on gene expression in the presence of inducer or to switch it off in its absence was evaluated in tobacco cell suspensions transformed with the gus gene coding sequence. Either plant (pats1A, pSalT, pIn2‐2) or microbial (pMre, pTet) inducible promoters were used to drive gus expression. The inducers were light, abscisic acid, 2‐CBSU, CuSO4, tetracycline, respectively. For each construct (inducible promoter‐gus coding sequence), the optimal induction conditions were determined (inducer concentration, induction time, and age of cells in culture cycle before induction). The efficiency of the inducible promoter was then evaluated under optimal induction conditions. GUS‐expression levels obtained under non‐inducing and inducing conditons were systematically compared. Thirty or forty percent of the clones transformed with the pSalT‐gus or pTet‐gus construct, respectively, showed high induction rates (>1000) and GUS activities of the same order as those obtained with a constitutive system. However, basal GUS levels were always high for the pTet‐gus cell lines. Seventy or eighty‐five percent of the cell lines transformed with the pMre‐gus or pln2‐2‐gus construct, respectively, had induction rates of 1.5 to 1000. The pats1A‐gus construct gave very low induction rates—55% of cell lines had induction rates less than 1.5. Only the pSalt‐gus construct gave both the highest induction rates and basal GUS‐levels equivalent to the endogenous GUS background. © 1999 John Wiley & Sons, Inc. Biotechnol Bioeng 64: 1–13, 1999.  相似文献   

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Pharmacological activation of group II metabotropic glutamate receptors (mGluR2/3) inhibits cocaine self‐administration and reinstatement of drug‐seeking behavior, suggesting a possible use of mGluR2/3 agonists in the treatment of cocaine dependence. In this study, we investigated whether elevation of the endogenous mGluR2/3 ligand N‐acetyl‐aspartatylglutamate (NAAG) levels by the N‐acetylated‐alpha‐linked‐acidic dipeptidase inhibitor 2‐(phosphonomethyl)pentanedioic acid (2‐PMPA) attenuates cocaine self‐administration and cocaine‐induced reinstatement of drug seeking. N‐acetylated‐alpha‐linked‐acidic dipeptidase is a NAAG degradation enzyme that hydrolyzes NAAG to N‐acetylaspartate and glutamate. Systemic administration of 2‐PMPA (10‐100 mg/kg, i.p.) inhibited intravenous self‐administration maintained by low unit doses of cocaine and cocaine (but not sucrose)‐induced reinstatement of drug‐seeking behavior. Microinjections of 2‐PMPA (3–5 μg/side) or NAAG (3–5 μg/side) into the nucleus accumbens (NAc), but not into the dorsal striatum, also inhibited cocaine‐induced reinstatement, an effect that was blocked by intra‐NAc injection of LY341495, a selective mGluR2/3 antagonist. In vivo microdialysis demonstrated that 2‐PMPA (10‐100 mg/kg, i.p.) produced a dose‐dependent reduction in both extracellular dopamine (DA) and glutamate, an effect that was also blocked by LY341495. Finally, pre‐treatment with 2‐PMPA partially attenuated cocaine‐enhanced extracellular NAc DA, while completely blocking cocaine‐enhanced extracellular NAc glutamate in rats during reinstatement testing. Intra‐NAc perfusion of LY341495 blocked 2‐PMPA‐induced reductions in cocaine‐enhanced extracellular NAc glutamate, but not DA. These findings suggest that 2‐PMPA is effective in attenuating cocaine‐induced reinstatement of drug‐seeking behavior, likely by attenuating cocaine‐induced increases in NAc DA and glutamate via pre‐synaptic mGluR2/3s.  相似文献   

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