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11.
In cerebellum, 13 different GABA(A) receptor subunits are expressed. The number of different receptor subtypes formed in this tissue, their subunit composition and their quantitative importance so far has not been determined. In the present study, immunodepletion by immunoaffinity chromatography, as well as immunoprecipitation and western blot analysis was performed using 13 different subunit-specific antibodies to provide an overview on the subunit composition and abundance of GABA(A) receptor subtypes in mouse and rat cerebellum. Results obtained indicate that alpha1betaxgamma2, alpha1alpha6betaxgamma2, alpha6betaxgamma2, alpha6betaxdelta and alpha1alpha6betaxdelta are the major GABA(A) receptor subtypes present in the cerebellum. In addition, small amounts of alpha1betaxdelta receptors and a series of minor receptor subtypes containing alpha2, alpha3, alpha4, alpha5, gamma1 or gamma3 subunits are also present in the cerebellum. Whereas the abundance of alpha1alpha6betaxgamma2, alpha6betaxdelta and alpha1alpha6betaxdelta receptors is different in mouse and rat cerebellum, that of other receptors is quite similar in these tissues. Data obtained for the first time provide an overview on the GABA(A) receptor subtypes present in the cerebellum and represent the basis for further studies investigating changes in receptor expression and composition under pathological conditions. 相似文献
12.
Exposure of isolated nerve terminals to hydrogen peroxide (25-500 microM) for 10 min produced a partially reversible decrease in the total and reduced glutathione level. No release and resynthesis of glutathione by the oxidant was involved in this effect. Loss of reduced glutathione was associated with elimination of H(2)O(2), which was very quick with >70% of the oxidant eliminated within 5 min. Recovery of both total and reduced glutathione was pronounced after 10 min when the majority of H(2)O(2) was eliminated. Previously we have reported that glutamate metabolism under oxidative stress contributes to the operation of the Krebs cycle, thus to the production of NAD(P)H [J. Neurosci. 20 (2000) 8972]. In the present study we addressed whether metabolism of endogenous glutamate plays a role in the maintenance of glutathione level in nerve terminals. Glutamine and beta-hydroxybutyrate (5mM), alternative metabolites in synaptosomes, were able to decrease the loss of total and reduced glutathione induced by hydrogen peroxide. Metabolic consumption of glutamate was reduced at the same time. In addition an increased demand on the glutathione system by the catalase inhibitor aminotriazole augmented the metabolic consumption of glutamate. It is concluded that under oxidative stress glutamate metabolism contributes to the maintenance of glutathione level, thus to the antioxidant capacity of nerve terminals. 相似文献
13.
Flavanone glucosides in callus and phloem of Prunus avium: Identification and stimulation of their synthesis 总被引:1,自引:1,他引:0
The flavanone glucosides dihydrowogonin-7-glucoside, eriodictyol-7-giucoside and prunin (naringenin-7-glucoside) were isolated, identified and quantitatively determined in callus cultures and phloem of Prunus avium L. cvs. Sam and Schneiders. These substances were isolated from callus tissue, where they were most abundant. The identification included TLC, HPLC and spectrophotometry in conjunction with hydroxylation and benzoylation. Elevation of sucrose concentrations in the media from 1 to 4% (w/w) resulted in a 3- to 4-fold increase in prunin. A similar response, although much less pronounced, was observed for eriodictyol-7-glucoside, while dihydrowogonin-7-glucoside was not enhanced under these conditions. Addition of benzyladenine to media of tissue cultures also caused an increase in prunin and eriodictyol-7-glucoside levels. Both of these flavanones also increased in phloem above and below a constriction of Prunus stems. Administration of benzyladenine into Prunus stems resulted in a 4-fold increase of prunin in the phloem. 相似文献
14.
L. Tretter Gy. Szabados A. Andó I. Horváth 《Journal of bioenergetics and biomembranes》1987,19(1):31-44
The damaging effects of ADP/Fe/NADPH-induced lipid peroxidation were studied on the enzymes and membranes of rat liver mitochondria. Succinate, an inhibitor of mitochondrial lipid peroxidation, prevented or delayed most of the damage caused by the peroxidation on different mitochondrial structures and functions. There were marked abnormalities on the electrophoretic pattern of mitochondrial proteins during the course of lipid peroxidation. The disappearance of particular polypeptide bands and the accumulation of high-molecular-weight aggregates could be observed. Succinate was found to delay these effects. As a consequence of lipid peroxidation the succinate oxidase activity of mitochondria was decreased. The succinate dehydrogenase enzyme and the component(s) of the respiratory chain were inactivated. Succinate prevented the inactivation of succinate dehydrogenase but did not protect the other components of terminal oxidation chain. From the matrix enzymes the glutamate dehydrogenase retained its full activity but the NADP-linked isocitrate dehydrogenase was inactivated. The mitochondrial membranes became permeable to large protein molecules. Succinate prevented the inactivation of isocitrate dehydrogenase and delayed the release of protein molecules from mitochondria. 相似文献
15.
Abstract: The effects of peroxides were investigated on the membrane potential, intracellular Na+ ([Na+ ]i ) and intracellular Ca2+ ([Ca2+ ]i ) concentrations, and basal glutamate release of synaptosomes. Both H2 O2 and the organic cumene hydroperoxide produced a slow and continuous depolarization, parallel to an increase of [Na+ ]i over an incubation period of 15 min. A steady rise of the [Ca2+ ]i due to peroxides was also observed that was external Ca2+ dependent and detected only at an inwardly directed Ca2+ gradient of the plasma membrane. These changes did not correlate with lipid peroxidation, which was elicited by cumene hydroperoxide but not by H2 O2 . Resting release of glutamate remained unchanged during the first 15 min of incubation in the presence of peroxides. These alterations may indicate early dysfunctions in the sequence of events occurring in the nerve terminals in response to oxidative stress. 相似文献
16.
In addition to complexes in the respiratory chain, few dehydrogenases playing key roles in the physiological metabolism in neurons, are able to generate reactive oxygen species (ROS) in mitochondria. One of them is the Krebs cycle enzyme, α-ketoglutarate dehydrogenase (α-KGDH), which is capable of producing superoxide and hydrogen peroxide by the E3 subunit of the enzyme regulated by changes in the NADH/NAD+ ratio. Mutations in the E3 subunit known to be related to diseases in humans were shown to have increased ROS-forming ability. α-Glycerophosphate dehydrogenase (α-GPDH) located on the outer surface of the inner membrane can also generate ROS, which is stimulated by Ca2+. ROS production by α-GPDH is unique as it does not require Ca2+ uptake and it is observed in respiring as well as damaged, bioenergetically incompetent mitochondria. The possible role of ROS generation by these dehydrogenases in brain pathology is discussed in this review. 相似文献
17.
E Bencsits V Ebert V Tretter W Sieghart 《The Journal of biological chemistry》1999,274(28):19613-19616
Using a novel antibody directed against the alpha4 subunit of gamma-aminobutyric acidA (GABAA) receptors, 5% of all [3H]muscimol but only about 2% of all [3H]Ro15-4513 binding sites present in brain membrane extracts could be precipitated. This indicated that part of the alpha4 receptors containing [3H]muscimol binding sites did not contain [3H]Ro15-4513 binding sites. Immunoaffinity purification and Western blot analysis of alpha4 receptors demonstrated that not only alpha1, alpha2, alpha3, beta1, beta2, and beta3 subunits but also gamma1, gamma2, gamma3, and delta subunits can be colocalized with alpha4 subunits in native GABAA receptors. Quantification experiments, however, indicated that only 7, 33, 4, or 7% of all alpha4 receptors contained gamma1, gamma2, gamma3, or delta subunits, respectively. These data not only explain the low percentage of [3H]Ro15-4513 binding sites precipitated by the anti-alpha4 antibody but also indicate that approximately 50% of the alpha4 receptors did not contain gamma1, gamma2, gamma3, or delta subunits. These receptors, thus, either are composed of alpha4 and beta1-3 subunits only, or additionally contain epsilon, pi, or so far unidentified GABAA receptor subunits. 相似文献
18.
Tretter V Hauer B Nusser Z Mihalek RM Höger H Homanics GE Somogyi P Sieghart W 《The Journal of biological chemistry》2001,276(13):10532-10538
GABA(A) receptors are chloride channels composed of five subunits. Cerebellar granule cells express abundantly six subunits belonging to four subunit classes. These are assembled into a number of distinct receptors, but the regulation of their relative proportions is yet unknown. Here, we studied the composition of cerebellar GABA(A) receptors after targeted disruption of the delta subunit gene. In membranes and extracts of delta-/- cerebellum, [(3)H]muscimol binding was not significantly changed, whereas [(3)H]Ro15-4513 binding was increased by 52% due to an increase in diazepam-insensitive binding. Immunocytochemical and Western blot analysis revealed no change in alpha(6) subunits but an increased expression of gamma(2) subunits in delta-/- cerebellum. Immunoaffinity chromatography of cerebellar extracts indicated there was an increased coassembly of alpha(6) and gamma(2) subunits and that 24% of all receptors in delta-/- cerebellum did not contain a gamma subunit. Because 97% of delta subunits are coassembled with alpha(6) subunits in the cerebellum of wild-type mice, these results indicated that, in delta-/- mice, alpha(6)betagamma(2) and alphabeta receptors replaced delta subunit-containing receptors. The availability of the delta subunit, thus, influences the level of expression or the extent of assembly of the gamma(2) subunit, although these two subunits do not occur in the same receptor. 相似文献
19.
Generation of reactive oxygen species (ROS) in synaptosomes was investigated in the presence of different substrates. When
pyruvate was used as a substrate an increased rate of hydrogen peroxide formation was detected by the Amplex Red fluorescent
assay, but aconitase, which is known to be a highly sensitive enzyme to ROS was not inhibited. In contrast, pyruvate exerted
a partial protection on aconitase against a time-dependent inactivation that occurred when synaptosomes were incubated in
the absence of substrates. Disruption of synaptosomal membranes with Triton X-100 prevented the protective effect of pyruvate.
It is suggested that citrate and/or isocitrate formed in the metabolism of pyruvate could be responsible for a partial protection
of aconitase. Therefore while pyruvate could have a prooxidant effect it could also exert a protective effect on the aconitase.
Special issue dedicated to Dr. Bernd Hamprecht. 相似文献
20.
Tretter L Adam-Vizi V 《Philosophical transactions of the Royal Society of London. Series B, Biological sciences》2005,360(1464):2335-2345
Alpha-ketoglutarate dehydrogenase (alpha-KGDH) is a highly regulated enzyme, which could determine the metabolic flux through the Krebs cycle. It catalyses the conversion of alpha-ketoglutarate to succinyl-CoA and produces NADH directly providing electrons for the respiratory chain. alpha-KGDH is sensitive to reactive oxygen species (ROS) and inhibition of this enzyme could be critical in the metabolic deficiency induced by oxidative stress. Aconitase in the Krebs cycle is more vulnerable than alpha-KGDH to ROS but as long as alpha-KGDH is functional NADH generation in the Krebs cycle is maintained. NADH supply to the respiratory chain is limited only when alpha-KGDH is also inhibited by ROS. In addition being a key target, alpha-KGDH is able to generate ROS during its catalytic function, which is regulated by the NADH/NAD+ ratio. The pathological relevance of these two features of alpha-KGDH is discussed in this review, particularly in relation to neurodegeneration, as an impaired function of this enzyme has been found to be characteristic for several neurodegenerative diseases. 相似文献