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Receptor mRNA Levels (receptor + mrna_level)
Selected AbstractsSerotonin transporter, 5-HT1A receptor, and behavior in DBA/2J mice in comparison with four inbred mouse strainsJOURNAL OF NEUROSCIENCE RESEARCH, Issue 16 2009Nina K. Popova Abstract Prepulse inhibition (PPI), the reduction in acoustic startle produced when it is preceded by a weak prepulse stimulus, is impaired in schizophrenic patients. The DBA/2J mouse strain displayed deficient PPI and is therefore suggested as an experimental animal model for the loss of sensorimotor gating in schizophrenia. Brain serotonin (5-HT) has been implicated in the pathophysiology of several psychiatric disorders, including major depressive disorder and schizophrenia. In the present study, behavior, 5-HT transporter (5-HTT) mRNA level, 5-HT1A receptor mRNA level, and 5-HT1A receptor density in the brain regions were studied in DBA/2J mice in comparison with four inbred mouse strains (CBA/Lac, C57BL/6, BALB/c, and ICR). A decrease in 5-HTT mRNA level in the midbrain and a reduced density of 5-HT1A receptors in the frontal cortex without significant changes in 5-HT1A receptor mRNA level in DBA/2J mice were found. It was shown that, along with decreased PPI, DBA/2J mice demonstrated considerably reduced immobility in the tail suspension test and in the forced swim test. No significant interstrain differences in intermale aggression, or in light-dark box and elevated plus-maze tests, were found. The results suggested the involvement of decreased 5-HTT gene expression and 5-HT1A receptor density in genetically defined PPI deficiency and showed a lack of any association between PPI deficiency and predisposition to aggressive, anxiety, and depressive-like behaviors. © 2009 Wiley-Liss, Inc. [source] The antidepressant effects of running and escitalopram are associated with levels of hippocampal NPY and Y1 receptor but not cell proliferation in a rat model of depressionHIPPOCAMPUS, Issue 7 2010Astrid Bjřrnebekk Abstract One hypothesis of depression is that it is caused by reduced neuronal plasticity including hippocampal neurogenesis. In this study, we compared the effects of three long-term antidepressant treatments: escitalopram, voluntary running, and their combination on hippocampal cell proliferation, NPY and the NPY-Y1 receptor mRNAs, targets assumed to be important for hippocampal plasticity and mood disorders. An animal model of depression, the Flinders Sensitive Line (FSL) rat, was used and female rats were chosen because the majority of the depressed population is females. We investigated if these treatments were correlated to immobility, swimming, and climbing behaviors, which are associated with an overall, serotonergic-like and noradrenergic-like antidepressant response, in the Porsolt swim test (PST). Interestingly, while escitalopram, running and their combination increased the number of hippocampal BrdU immunoreactive cells, the antidepressant-like effect was only detected in the running group and the group with access both to running wheel and escitalopram. Hippocampal NPY mRNA and the NPY-Y1 receptor mRNA were elevated by running and the combined treatment. Moreover, correlations were detected between NPY mRNA levels and climbing and cell proliferation and NPY-Y1 receptor mRNA levels and swimming. Our results suggest that increased cell proliferation is not necessarily associated with an antidepressant effect. However, treatments that were associated with an antidepressant-like effect did regulate hippocampal levels of mRNAs encoding NPY and/or the NPY-Y1 receptor and support the notion that NPY can stimulate cell proliferation and induce an antidepressant-like response. © 2009 Wiley-Liss, Inc. [source] Up-Regulation of Cell Surface Insulin Receptor by Protein Kinase C-, in Adrenal Chromaffin CellsJOURNAL OF NEUROCHEMISTRY, Issue 2 2000Involvement of Transcriptional, Translational Events Our previous study showed that treatment of cultured bovine adrenal chromaffin cells with phorbol 12, 13-dibutyrate (PDBu) or 12- O -tetradecanoylphorbol 13-acetate (TPA) caused a rapid (<15 min) and persistent (>15 h) translocation of both conventional (c) protein kinase C-, (PKC-,) and novel PKC-, (but not atypical PKC-,) from cytosol to membranes, whereas thymeleatoxin (TMX) increased the similar but selective membrane association of only cPKC-,. In the present study, chronic (,12 h) treatment of chromaffin cells with PDBu raised cell surface 125I-insulin binding without altering the KD value ; it developed in a concentration (EC50 = 1.9 nM)-and time (t1/2 = 14.6 h)-dependent manner, reaching its maximum 115% increase at 48 h. Either TPA (30 nM) or TMX (EC50 = 6.4 nM) also increased 125I-insulin binding by 97 or 88%, whereas the biologically inactive 4,-TPA had no effect. The increasing effect of PDBu (30 nM for 24 h) on 125I-insulin binding was significantly blocked, even when H7, an inhibitor of PKC, was added at 8 h after the initiation of PDBu treatment. Concurrent treatment with brefeldin A, an inhibitor of vesicular transport from the trans -Golgi network, cycloheximide, an inhibitor of protein synthesis, or 5,6-dichlorobenzimidazole riboside, an inhibitor of RNA synthesis, abolished the PDBu-induced increment of 125I-insulin binding. Western blot analysis, using antibody against the ,-subunit of the insulin receptor, showed that treatment with PDBu (30 nM) or TMX (EC50 = 2.3 nM) increased levels of insulin receptor precursor (~190 kDa ; t1/2 = 7.1 h) and insulin receptor ,-subunit (t1/2 = 15.4 h), causing their almost maximum 52 and 59% rises, respectively, at 24 h. Northern blot analysis revealed that PDBu or TMX increased levels of insulin receptor mRNAs by ~35% as soon as 3 h, producing its monophasic peak ~76% increases at 24 h. All of these increasing effects of PDBu and TMX on 125I-insulin binding and insulin receptor ,-subunit and insulin receptor mRNA levels were entirely prevented by simultaneous treatment with Gö6976, a selective inhibitor of cPKC. These results suggest that long-term activation of cPKC-, up-regulates the density of the cell surface insulin receptor via transcriptional/translational events. [source] Pituitary mRNA Expression of the Growth Hormone Axis in the 1-Year-Old Intrauterine Growth Restricted RatJOURNAL OF NEUROENDOCRINOLOGY, Issue 8 2006T. Prins Intrauterine growth restriction (IUGR) is one of the major causes of short stature in childhood. Abnormalities in the growth hormone (GH) axis have frequently been observed in children who are born intrauterine growth restricted and GH treatment is effective to improve final height. However, the way that the GH axis is involved is not fully understood. Previously, when investigating the effect of IUGR on the central somatotrophic axis, a hypothalamic effect was discovered with elevated somatostatin and decreased neuropeptide Y mRNA expression levels, whereas serum GH and insulin-like growth factor I (IGFI) were unaltered. These findings were thought to indicate a hypothalamic alteration of the GH axis due to IUGR, probably to compensate pituitary output, thereby normalising peripheral values of GH and IGFI. Therefore, the present study aimed to evaluate the effect of IUGR on the pituitary GH axis in this rat model. Pups from rats that underwent bilateral uterine artery ligation at day 17 of pregnancy were studied. Pituitary glands were collected from 1-year-old offspring for quantitative measurements of GH, GH-receptor (GH-R), GH-releasing hormone receptor (GHRH-R), somatostatin receptor subtype 2 and 5, IGFI and IGFI receptor mRNA levels using a real-time reverse transcriptase-polymerase chain reaction. In addition, liver GH-R and IGFI mRNA expression levels were measured and a radioimmunoassay was performed to determine serum IGFI levels. In the IUGR rat, levels of pituitary GH, GH-R and GHRH-R relative gene expression (RGE) were increased. No differences were found in the RGE level of all other pituitary growth factors, liver GH-R and IGFI, and serum IGFI concentration between IUGR and control rats. The present data show that intrauterine growth failure leads to changes in the pituitary that might counterbalance the effects found previously in the hypothalamus. [source] Gene Expression in the Neuropeptide Y System During Ethanol Withdrawal Kindling in RatsALCOHOLISM, Issue 3 2010Janne D. Olling Background:, Multiple episodes of ethanol intoxication and withdrawal result in progressive, irreversible intensification of the withdrawal reaction, a process termed "ethanol withdrawal kindling." Previous studies show that a single episode of chronic ethanol intoxication and withdrawal causes prominent changes in neuropeptide Y (NPY) and its receptors that have been implicated in regulating withdrawal hyperexcitability. This study for the first time examined the NPY system during ethanol withdrawal kindling. Methods:, Ethanol withdrawal kindling was studied in rats receiving 16 episodes of 2 days of chronic ethanol intoxication by intragastric intubations followed by 5 days withdrawal. The study included 6 groups: 4 multiple withdrawal episode (MW) groups [peak withdrawal plus (MW+)/minus (MW,) seizures, 3-day (MW3d), and 1-month (MW1mth) withdrawal], a single withdrawal episode group (SW), and an isocalorically fed control group. Gene expression of NPY and its receptors Y1, Y2, and Y5 was studied in the hippocampal dentate gyrus (DG) and CA3/CA1, as well as piriform cortex (PirCx), and neocortex (NeoCx). Results:, MW+/, as well as SW groups showed decreased NPY gene expression in all hippocampal areas compared with controls, but, in the DG and CA3, decreases were significantly smaller in the MW, group compared with the SW group. In the MW+/, and SW groups, Y1, Y2, and Y5 mRNA levels were decreased in most brain areas compared with controls; however, decreases in Y1 and Y5 mRNA were augmented in the MW+/, groups compared with the SW group. The MW+ group differed from the MW, group in the PirCx, where Y2 gene expression was significantly higher. Conclusion:, Multiple withdrawal episodes reversibly decreased NPY and NPY receptor mRNA levels at peak withdrawal, with smaller decreases in NPY mRNA levels and augmented decreases in Y1/Y5 mRNA levels compared with a SW episode. Multiple withdrawal-induced seizures increased the Y2 mRNA levels in PirCx. These complex changes in NPY system gene expression could play a role in the ethanol withdrawal kindling process. [source] Chronic Ethanol-Induced Subtype- and Subregion-Specific Decrease in the mRNA Expression of Metabotropic Glutamate Receptors in Rat HippocampusALCOHOLISM, Issue 9 2004Agnes Simonyi Background: Chronic ethanol consumption is known to induce adaptive changes in the hippocampal glutamatergic transmission and alter NMDA receptor binding and subunit expression. Metabotropic glutamate (mGlu) receptors have been shown to function as modulators of neuronal excitability and can fine tune glutamatergic transmission. This study was aimed to determine whether chronic ethanol treatment could change the messenger RNA (mRNA) expression of mGlu receptors in the hippocampus. Methods: Male Sprague Dawley® rats were fed a Lieber-DeCarli liquid diet with 5% (w/v) ethanol or isocaloric amount of maltose for 2 months. Quantitative in situ hybridization was carried out using coronal brain sections through the hippocampus. Results: The results revealed decreases in mRNA expression of several mGlu receptors in different subregions of the hippocampus. In the dentate gyrus, mGlu3 and mGlu5 receptor mRNA levels were significantly lower in the ethanol-treated rats than in the control rats. In the CA3 region, the mRNA expression of mGlu1, mGlu5, and mGlu7 receptors showed substantial decreases after ethanol exposure. The mGlu7 receptor mRNA levels were also declined in the CA1 region and the polymorph layer of the dentate gyrus. No changes were found in mRNA expression of mGlu2, mGlu4, and mGlu8 receptors. Conclusions: Considering the involvement of hippocampal mGlu receptors in learning and memory processes as well as in neurotoxicity and seizure production, the reduced expression of these receptors might contribute to ethanol withdrawal-induced seizures and also may play a role in cognitive deficits and brain damage caused by long-term ethanol consumption. [source] Different vascular endothelial growth factor (VEGF), VEGF-receptor 1 and -2 mRNA expression profiles between clear cell and papillary renal cell carcinomaBJU INTERNATIONAL, Issue 3 2006BÖRJE J. LJUNGBERG OBJECTIVES To examine vascular endothelial growth factor (VEGF), VEGF-receptor-(R)1, and R2 mRNA levels in renal cell carcinoma (RCC), a tumour generally refractory to most medical therapy, but for which a potentially useful therapeutic alternative is inhibition of angiogenesis. PATIENTS AND METHODS VEGF, VEGF-R1 and -R2 mRNA levels were analysed using the quantitative reverse transcription-polymerase chain reaction. RNA was extracted from 84 conventional (clear cell) RCCs (cRCC), 20 papillary (pRCC), six chromophobe (chRCC), and 27 corresponding kidney cortex tissues, obtained from 110 patients in whom high-quality RNA was available from the tumours (53 women and 57 men, mean age 64.7 years, range 25,85). RESULTS The VEGF, VEGF-R1, and -R2 mRNA levels were higher in tumour than in kidney cortex tissues. Among the RCC types, cRCC had higher VEGF levels than pRCC. In cRCC, VEGF-R2 levels were higher in stage I,II than in more advanced stages. In pRCC, VEGF and VEGF-R2 levels were higher in stage III than in stage I,II tumours. In cRCC, patients with VEGF levels below the median had a significantly shorter survival time than those with higher levels. By contrast, in pRCC, VEGF, VEGF-R1 and -R2 RNA levels above the median were related to adverse survival. Using multivariate analysis in cRCCs, VEGF-R1 mRNA level was the last factor to be omitted after stepwise elimination analysis. CONCLUSION VEGF and its receptors were associated with tumour stage and survival, but were not independent prognostic factors. Different RCC types had different expression patterns of VEGF and receptor mRNA levels. We conclude that different pathways might be involved in regulating angiogenesis in the specific RCC types. Detailed knowledge of angiogenesis in RCC is essential when designing new treatment trials where angiogenesis inhibition is used. [source] Cell growth and cholesterol metabolism in human glucose- 6-phosphate dehydrogenase deficient lymphomononuclear cellsCELL PROLIFERATION, Issue 3 2002Batetta B. Atherosclerosis is an inflammatory-fibroproliferative response of the arterial wall involving a complex set of interconnected events where cell proliferation (lymphomonocytes, and endothelial and smooth-muscle cells) and substantial perturbations of intracellular cholesterol metabolism are considered to be among the main features. Glucose-6-phosphate dehydrogenase (G6PD), the key enzyme of the hexose-monophosphate shunt pathway, is an essential enzyme involved in both cell growth and cholesterol metabolism, raising the question as to whether G6PD deficiency may have metabolic and growth implications in a deficient population. In the present study, we investigated cell growth and cholesterol metabolism in peripheral blood lymphomononuclear cells (PBMC) from G6PD-normal (n = 5) and -deficient (n = 5) subjects stimulated with lectins (phytohaemoagglutinin and Concanavalin A). G6PD activity, DNA ([3H]-thymidine incorporation) cholesterol synthesis and esterification ([14C]-acetate and [14C]-oleate incorporation), and G6PD, HMGCoA reductase and low density lipoprotein (LDL) receptor mRNA levels (RT-PCR) all increased following lectin stimulation in both normal and G6PD-deficient cells. However, these parameters were significantly lower in G6PD-deficient cells (P < 0.05). It is of interest that G6PD-deficient PBMC, which showed lower expression of G6PD and higher expression of the LDL receptor gene than normal PBMC under basal conditions, exhibited an opposite pattern after stimulation: G6PD and HMGCoA reductase being expressed at significantly higher levels in deficient than in normal cells (P < 0.05). We conclude that the reduced capability of G6PD-deficient cells to respond to mitogenic stimuli and to synthesize cholesterol esters may represent favourable conditions for reducing the risk of cardiovascular diseases. [source] Role of 5-HT2A, 5-HT4 and 5-HT7 receptors in the antigen-induced airway hyperresponsiveness in guinea-pigsCLINICAL & EXPERIMENTAL ALLERGY, Issue 2 2010P. Segura Summary Background A possible role of 5-hydroxytryptamine (5-HT) in the origin of antigen-induced airway hyperresponsiveness (AI-AHR) has been scarcely investigated. Objective To explore the participation of different 5-HT receptors in the development of AI-AHR in guinea-pigs. Methods Lung resistance was measured in anaesthetized guinea-pigs sensitized to ovalbumin (OVA). Dose,response curves to intravenous (i.v.) acetylcholine (ACh) were performed before and 1 h after antigenic challenge and expressed as the 200% provocative dose (PD200). Organ bath experiments, confocal microscopy and RT-PCR were additionally used. The 5-HT content in lung homogenates was measured by HPLC. Results Antigenic challenge significantly decreased PD200, indicating the development of AI-AHR. This hyperresponsiveness was abolished by a combination of methiothepin (5-HT1/5-HT2/5-HT5/5-HT6/5-HT7 receptors antagonist) and tropisetron (5-HT3/5-HT4 antagonist). Other 5-HT receptor antagonists showed three different patterns of response. Firstly, WAY100135 (5-HT1A antagonist) and ondansetron (5-HT3 antagonist) did not modify the AI-AHR. Secondly, SB269970 (5-HT7 antagonist), GR113808 (5-HT4 antagonist), tropisetron or methiothepin abolished the AI-AHR. Thirdly, ketanserin (5-HT2A antagonist) produced airway hyporresponsiveness. Animals with bilateral vagotomy did not develop AI-AHR. Experiments in tracheal rings showed that pre-incubation with LP44 or cisapride (agonists of 5-HT7 and 5-HT4 receptors, respectively) induced a significant increase of the cholinergic contractile response to the electrical field stimulation. In sensitized lung parenchyma strips, ketanserin diminished the contractile responses to ACh. Sensitization was associated with a ninefold increase in the 5-HT content of lung homogenates. Confocal microscopy showed that sensitization enhanced the immunolabelling and co-localization of nicotinic receptor and 5-HT in airway epithelium, probably located in pulmonary neuroendocrine cells (PNECs). RT-PCR demonstrated that neither sensitization nor antigen challenge modified the 5-HT2A receptor mRNA levels. Conclusions Our results suggested that 5-HT was involved in the development of AI-AHR to ACh in guinea-pigs. Specifically, 5-HT2A, 5-HT4 and 5-HT7 receptors seem to be particularly involved in this phenomenon. Participation of 5-HT might probably be favoured by the enhancement of the PNECs 5-HT content observed after sensitization. Cite this as: P. Segura, M. H. Vargas, G. Córdoba-Rodríguez, J. Chávez, J. L. Arreola, P. Campos-Bedolla, V. Ruiz, L. M. García-Hernández, C. Méndez and L. M. Montańo, Clinical & Experimental Allergy, 2010 (40) 327, 338. [source] Individual vulnerability to escalated aggressive behavior by a low dose of alcohol: decreased serotonin receptor mRNA in the prefrontal cortex of male miceGENES, BRAIN AND BEHAVIOR, Issue 1 2010S. Chiavegatto Low to moderate doses of alcohol consumption induce heightened aggressive behavior in some, but not all individuals. Individual vulnerability for this nonadaptive behavior may be determined by an interaction of genetic and environmental factors with the sensitivity of alcohol's effects on brain and behavior. We used a previously established protocol for alcohol oral self-administration and characterized alcohol-heightened aggressive (AHA) mice as compared with alcohol non-heightened (ANA) counterparts. A week later, we quantified mRNA steady state levels of several candidate genes in the serotonin [5-hydroxytryptamine (5-HT)] system in different brain areas. We report a regionally selective and significant reduction of all 5-HT receptor subtype transcripts, except for 5-HT3, in the prefrontal cortex of AHA mice. Comparable gene expression profile was previously observed in aggressive mice induced by social isolation or by an anabolic androgenic steroid. Additional change in the 5-HT1B receptor transcripts was seen in the amygdala and hypothalamus of AHA mice. In both these areas, 5-HT1B mRNA was elevated when compared with ANA mice. In the hypothalamus, AHA mice also showed increased transcripts for 5-HT2A receptor. In the midbrain, 5-HT synthetic enzyme, 5-HT transporter and 5-HT receptors mRNA levels were similar between groups. Our results emphasize a role for postsynaptic over presynaptic 5-HT receptors in mice which showed escalated aggression after the consumption of a moderate dose of alcohol. This gene expression profile of 5-HT neurotransmission components in the brain of mice may suggest a vulnerability trait for alcohol-heightened aggression. [source] | |||||||||||||