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1.
László?K?lesEmail author Erzsébet?Kató Adrienn?Hanuska Zoltán?S.?Zádori Mahmoud?Al-Khrasani Tibor?Zelles Patrizia?Rubini Peter?IllesEmail author 《Purinergic signalling》2016,12(1):1-24
Glutamate is the main excitatory neurotransmitter of the central nervous system (CNS), released both from neurons and glial cells. Acting via ionotropic (NMDA, AMPA, kainate) and metabotropic glutamate receptors, it is critically involved in essential regulatory functions. Disturbances of glutamatergic neurotransmission can be detected in cognitive and neurodegenerative disorders. This paper summarizes the present knowledge on the modulation of glutamate-mediated responses in the CNS. Emphasis will be put on NMDA receptor channels, which are essential executive and integrative elements of the glutamatergic system. This receptor is crucial for proper functioning of neuronal circuits; its hypofunction or overactivation can result in neuronal disturbances and neurotoxicity. Somewhat surprisingly, NMDA receptors are not widely targeted by pharmacotherapy in clinics; their robust activation or inhibition seems to be desirable only in exceptional cases. However, their fine-tuning might provide a promising manipulation to optimize the activity of the glutamatergic system and to restore proper CNS function. This orchestration utilizes several neuromodulators. Besides the classical ones such as dopamine, novel candidates emerged in the last two decades. The purinergic system is a promising possibility to optimize the activity of the glutamatergic system. It exerts not only direct and indirect influences on NMDA receptors but, by modulating glutamatergic transmission, also plays an important role in glia-neuron communication. These purinergic functions will be illustrated mostly by depicting the modulatory role of the purinergic system on glutamatergic transmission in the prefrontal cortex, a CNS area important for attention, memory and learning. 相似文献
2.
Varga L Bíró A Széplaki G Tóth L Horváth A Füst G Farkas H 《Journal of cellular and molecular medicine》2007,11(6):1377-1383
Hereditary angioedema (HAE) is a rare disorder caused by the deficiency of the C1-inhibitor gene (C1INH) and characterized by recurrent bouts of angioedema. Autoimmune disorders frequently occur in HAE. Previously we found, that danazol has an adverse effect on serum lipid profile: reduced high-density lipoprotein (HDL) and elevated low-density lipoprotein (LDL) cholesterol levels are associated with long-term prophylactic use, whereas total cholesterol levels are unchanged. Our aim was to study the anti-cholesterol antibody (ACHA) production in HAE patients and compare it with those of healthy blood donors, and to investigate the possible associations between ACHA levels and serum lipid profile alterations caused by danazol. Anti-cholesterol IgG levels were measured by ELISA and their correlation with serum concentrations of total cholesterol, HDL, LDL, triglycerides was determined in HAE patients receiving/not receiving danazol. Serum ACHA levels were significantly higher in HAE patients, compared to healthy blood donors (P<0.0001). Longterm danazol prophylaxis had no effect on serum ACHA levels in HAE patients. However, we found a significant, negative correlation between ACHA levels and serum total cholesterol (r=-0.4033, P=0.0200), LDL (r=-0.4565, P=0.0076) and triglyceride (r=-0.4230, P=0.0121) levels only in danazol-treated patients, but not in HAE patients who did not receive long-term prophylaxis. Patients with HAE have higher baseline ACHA levels compared to healthy subjects, and this might reflect polyclonal B-cell activation. The latter would be a potential explanation for the lack of an increased incidence of infectious diseases in HAE patients, but might lead to increased autoimmunity. 相似文献
3.
Gene expression dynamics in deer antler: mesenchymal differentiation toward chondrogenesis 总被引:6,自引:0,他引:6
Gyurján I Molnár A Borsy A Stéger V Hackler L Zomborszky Z Papp P Duda E Deák F Lakatos P Puskás LG Orosz L 《Molecular genetics and genomics : MGG》2007,277(3):221-235
Annual re-growth of deer antler represents a unique example of complete organ regeneration. Because antler mesenchymal cells
retain their embryonic capacity to develop into cartilage or bone, studying antler development provides a natural system to
follow gene expression changes during mesenchymal differentiation toward chondrogenic/osteogenic lineage. To identify novel
genes involved either in early events of mesenchymal cell specialization or in robust bone development, we have introduced
a 3 K heterologous microarray set-up (deer cDNA versus mouse template). Fifteen genes were differentially expressed; genes
for housekeeping, regulatory functions (components of different signaling pathways, including FGF, TGFβ, Wnt), and genes encoding
members of the Polycomb group were represented. Expression dynamics for genes are visualized by an expression logo. The expression
profile of the gene C21orf70 of unknown function is described along with the effects when over-expressed; furthermore the nuclear localization of the
cognate protein is shown. In this report, we demonstrate the particular advantage of the velvet antler model in bone research
for: (1) identification of mesenchymal and precartilaginous genes and (2) targeting genes upregulated in robust cartilage
development.
Electronic supplementary material Supplementary material is available in the online version of this article at and is accessible for authorized users. 相似文献
4.
Differential modulation of the human liver conjugate transporters MRP2 and MRP3 by bile acids and organic anions 总被引:9,自引:0,他引:9
Bodo A Bakos E Szeri F Varadi A Sarkadi B 《The Journal of biological chemistry》2003,278(26):23529-23537
The multidrug resistance proteins MRP2 (ABCC2) and MRP3 (ABCC3) are key primary active transporters involved in anionic conjugate and drug extrusion from the human liver. The major physiological role of MRP2 is to transport conjugated metabolites into the bile canaliculus, whereas MRP3 is localized in the basolateral membrane of the hepatocytes and transports similar metabolites back to the bloodstream. Both proteins were shown to interact with a large variety of transported substrates, and earlier studies suggested that MRPs may work as co-transporters for different molecules. In the present study we expressed the human MRP2 and MRP3 proteins in insect cells and examined their transport and ATPase characteristics in isolated, inside-out membrane vesicles. We found that the primary active transport of estradiol-17-beta-d-glucuronide (E217betaG), a major product of human steroid metabolism, was differently modulated by bile acids and organic anions in the case of human MRP2 and MRP3. Active E217betaG transport by MRP2 was significantly stimulated by the organic anions indomethacin, furosemide, and probenecid and by several conjugated bile acids. In contrast, all of these agents inhibited E217betaG transport by MRP3. We found that in the case of MRP2, ATP-dependent vesicular bile acid transport was increased by E217betaG, and the results indicated an allosteric cross-stimulation, probably a co-transport of bile acids and glucuronate conjugates through this protein. There was no such stimulation of bile acid transport by MRP3. In conclusion, the different transport modulation of MRPs by bile acids and anionic drugs could play a major role in regulating physiological and pathological metabolite fluxes in the human liver. 相似文献
5.
Adrienn Guóth Dániel Benyó Jolán Csiszár Ágnes Gallé Ferenc Horváth László Cseuz László Erdei Irma Tari 《Acta Physiologiae Plantarum》2010,32(4):719-727
The effects of increasing osmotic stress induced by 100–400 mOsm (−0.976 MPa) polyethylene glycol (PEG 6000) were investigated
in a drought-tolerant (Triticum aestivum L. cv. Mv Emese) and drought-sensitive (cv. GK élet) wheat cultivar at the three-leaf stage. During osmotic stress, the decline
of the water potential (ψ
w) was more significant in the leaves, while the abscisic acid (ABA) levels of the roots increased earlier and remained higher
in the sensitive than in the tolerant variety. There was an increasing gradient of ABA content toward the youngest leaves
in the drought-sensitive GK élet, while more ABA accumulated in the fully developed, older leaves of the tolerant cultivar
Mv Emese. In accordance with the rapid and significant accumulation of ABA, the stomatal conductance decreased earlier in
the tolerant cultivar. The effect of water stress on the PSII photochemistry was pronounced only 1 week after the exposure
to PEG, as indicated by the earlier decrease of the net CO2 fixation, the effective quantum yield (ΦPSII) and the photochemical quenching (q
P) in light-adapted samples of the tolerant variety in 400 mOsm PEG 6000. The stress treatment caused more significant reductions
in these parameters toward the end of the experiment in the sensitive cultivar. In spite of small differences in the photosynthetic
characteristics, the net biomass production was not significantly altered by this osmotic stress. The accumulation of ABA
controlled the distribution of the biomass between the shoot and root systems under osmotic stress, and contributed to the
development of stronger and deeper roots in the drought-sensitive cultivar GK élet. However, the root elongation did not correlate
with the drought sensitivity of these cultivars on the basis of crop yield. 相似文献
6.
Different roles of alpha2-adrenoceptor subtypes in non-pregnant and late-pregnant uterine contractility in vitro in the rat 总被引:1,自引:0,他引:1
Gáspár R Gál A Gálik M Ducza E Minorics R Kolarovszki-Sipiczki Z Klukovits A Falkay G 《Neurochemistry international》2007,51(5):311-318
The roles of the alpha2-adrenoceptor (alpha2-AR) subtypes (alpha2A-, alpha2B- and alpha2C-AR) in uterine contractility have not been investigated. The aims of this study were to identify these receptors in the non-pregnant and the late-pregnant rat myometrium and to determine their roles in contractions. We found that the myometrial alpha2-AR subtypes are involved differently in the control of late-pregnant contractions, while they have no influence on the contractions of the non-pregnant myometrium. The myometrial expressions of the alpha2-AR subtypes were determined by RT-PCR and Western blotting techniques. In vitro contractions were stimulated with noradrenaline, and its effect was modified with the selective antagonists BRL 44408 (alpha2A), ARC 239 (alpha2B/C) and spiroxatrine (alpha2C). cAMP production was followed by noradrenaline stimulation in the presence of isobutylmethylxanthine and forskolin, and alterations induced in it by the antagonists were determined with an Enzyme Immunoassay Kit. The most effective antagonist was tested on labour-induced uteri in vitro. All the alpha2-AR subtypes were identified in both non-pregnant and pregnant uteri. Noradrenaline was not able to contract the non-pregnant tissue in the presence of propranolol and doxazosin, while its contracting effect in the pregnant uteri was enhanced by BRL 44408, spiroxatrine and the combination BRL 44408+spiroxatrine. ARC 239 exerted a strong inhibitory effect on noradrenaline-stimulated contractions. The increasing and the decreasing effects of the compounds were confirmed by the changes in the intracellular cAMP levels. The effect of ARC 239 on the labour-induced myometrium was similar to that on the 22-day-pregnant myometrium. The stimulation of alpha2-ARs does not evoke contractions in the non-pregnant uterus. The alpha2A- and alpha2C-ARs mediate decreases, while the alpha2B-AR mediates an increase in the contractions in the 22-day-pregnant myometrium. These differences may offer new targets for drugs against premature contractions in pregnancy. 相似文献
7.
8.
Ablation of PGC-1beta results in defective mitochondrial activity, thermogenesis, hepatic function, and cardiac performance 下载免费PDF全文
Lelliott CJ Medina-Gomez G Petrovic N Kis A Feldmann HM Bjursell M Parker N Curtis K Campbell M Hu P Zhang D Litwin SE Zaha VG Fountain KT Boudina S Jimenez-Linan M Blount M Lopez M Meirhaeghe A Bohlooly-Y M Storlien L Strömstedt M Snaith M Oresic M Abel ED Cannon B Vidal-Puig A 《PLoS biology》2006,4(11):e369
9.
Zoltán Beck Andrea Balogh Andrea Kis Emese Izsépi László Cervenak Glória László Adrienn Bíró Károly Liliom Gábor Mocsár Gy?rgy Vámosi George Füst Janos Matko 《Journal of lipid research》2010,51(2):286-296
The importance of membrane rafts in HIV-1 infection is still in the focus of interest. Here, we report that new monoclonal anticholesterol IgG antibodies (ACHAs), recognizing clustered membrane cholesterol (e.g., in lipid rafts), rearrange the lateral molecular organization of HIV-1 receptors and coreceptors in the plasma membrane of HIV-1 permissive human T-cells and macrophages. This remodeling is accompanied with a substantial inhibition of their infection and HIV-1 production in vitro. ACHAs promote the association of CXCR4 with both CD4 and lipid rafts, consistent with the decreased lateral mobility of CXCR4, while Fab fragments of ACHAs do not show these effects. ACHAs do not directly mask the extracellular domains of either CD4 or CXCR4 nor do they affect CXCR4 internalization. No significant inhibition of HIV production is seen when the virus is preincubated with the antibodies prior to infection. Thus, we propose that the observed inhibition is mainly due to the membrane remodeling induced by cholesterol-specific antibodies on the target cells. This, in turn, may prevent the proper spatio-temporal juxtaposition of HIV-1 glycoproteins with CD4 and chemokine receptors, thus negatively interfering with virus attachment/entry. 相似文献
10.
Veronika Deák Rita Lukács Zsuzsanna Buzás Adrienn Pálv?lgyi Péter P. Papp László Orosz Péter Putnoky 《Journal of bacteriology》2010,192(6):1617-1623
Genes encoding the tail proteins of the temperate phage 16-3 of the symbiotic nitrogen-fixing bacterium Sinorhizobium meliloti 41 have been identified. First, a new host range gene, designated hII, was localized by using missense mutations. The corresponding protein was shown to be identical to the 85-kDa tail protein by determining its N-terminal sequence. Electron microscopic analysis showed that phage 16-3 possesses an icosahedral head and a long, noncontractile tail characteristic of the Siphoviridae. By using a lysogenic S. meliloti 41 strain, mutants with insertions in the putative tail region of the genome were constructed and virion morphology was examined after induction of the lytic cycle. Insertions in ORF017, ORF018a, ORF020, ORF021, the previously described h gene, and hII resulted in uninfectious head particles lacking tail structures, suggesting that the majority of the genes in this region are essential for tail formation. By using different bacterial mutants, it was also shown that not only the RkpM and RkpY proteins but also the RkpZ protein of the host takes part in the formation of the phage receptor. Results for the host range phage mutants and the receptor mutant bacteria suggest that the HII tail protein interacts with the capsular polysaccharide of the host and that the tail protein encoded by the original h gene recognizes a proteinaceous receptor.The Sinorhizobium meliloti-Medicago symbiosis is an important model for endosymbiotic nitrogen fixation. The genome sequence of S. meliloti (strain 1021) has been established (14), and the Medicago truncatula genome is under intensive investigation (3). Phage 16-3 is a temperate, double-stranded DNA phage of S. meliloti strain 41. It is by far the best-studied rhizobiophage and serves as a tool in analyses of rhizobium genetics, in the isolation of some symbiotic mutants, and in the construction of special vectors. Genetic determinants and molecular mechanisms of many aspects of the 16-3 life cycle, such as phage integration and excision (8, 26, 38), regulation of the lytic/lysogenic switch (5, 6, 9, 24, 28), immunity to superinfection (4), phage DNA packaging (15), and the role of gene h in the host range (32), have been examined in detail. Moreover, the complete 60-kb phage genome sequence (accession no. ) has been determined recently (P. P. Papp et al., unpublished results). However, little is known about the genes and structural elements involved in the interaction between the phage and its host, and furthermore, only one study of the 16-3 virion proteins has been reported ( DQ50011811).The initial interaction between a tailed phage and its bacterial host cell is mediated by the distal part of the phage tail, which specifically binds to the phage receptor located on the host surface. Earlier results demonstrated that phage 16-3 adsorption is connected to the strain-specific capsular polysaccharide of S. meliloti 41, the KR5 antigen. So far, three bacterial gene clusters involved in KR5 antigen production, including the rkp-1, rkp-2, and rkp-3 regions, have been described. rkp mutants are defective in the invasion of the host plant for symbiosis. In addition, they cannot adsorb phage 16-3, suggesting that the KR5 antigen is required for both functions (19, 20, 30).In order to elucidate the molecular mechanism of phage 16-3 and S. meliloti 41 recognition, bacterial mutants carrying an altered phage receptor and host range phage mutants able to overcome the adsorption block have been characterized previously (32). It was shown that the RkpM protein, together with other yet uncharacterized elements, is a component of the phage receptor. With the use of rkpM mutants, host range mutations in phage gene h, which probably encodes the tail fiber protein, were identified. Interestingly, some mutations influencing phage-host recognition could not be localized in the rkpM and h genes, indicating that on both sides, additional components are important for bacteriophage-host recognition.The aim of this study was to identify additional genetic determinants involved in S. meliloti 41 and phage 16-3 recognition by characterizing new host range and receptor mutants. Furthermore, by using insertional mutagenesis, we examined a region of the phage chromosome supposed to be responsible for tail formation and identified six new genes essential for phage assembly. 相似文献