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排序方式: 共有215条查询结果,搜索用时 15 毫秒
1.
Abstract: Prostaglandin H-E isomerase (EC 5.3.99.3) was purified from human brain cytosol. Purification was by ammonium sulfate fractionation, diethylaminoethyl-Sephar-ose chromatography, gel filtration on a BioGel P-100 column, GSH-agarose chromatography, and MonoQ chromatography. The activity was eluted in two peaks from the MonoQ column, which were designated peaks 1 and 2. The molecular weights of peaks 1 and 2, determined by gel filtration, were 42,000 and 44,000, respectively. On sodium dodecyl sulfate-polyacrylamide gel electrophoresis, peak 1 showed two bands at the molecular weights of 24,500 and 25,000, and peak 2 showed a single band at the molecular weight of 25,000, results suggesting that both were dimeric proteins. The pI values of both enzymes were ∼5.4. The enzymes catalyzed selective conversion of prostaglandin H2 to prostaglandin E2 . The K m values for prostaglandin H2 of peaks 1 and 2 were 147 and 308 μ M , respectively, and the V max values were 380 and 720 nmol/min/mg of protein, respectively. GSH was required for the catalysis of both enzymes, and no other sulfhydryl compounds could support the reaction. A part of glutathione S -transferase (EC 2.5.1.18) was copurified with peaks 1 and 2 of prostaglandin H-E isomerase. Prostaglandin H-E isomerase activity of peak 2 enzyme was competitively inhibited by 1-chloro-2,4-dinitrobenzene, a substrate of glutathione S -transferase. These results suggested that prostaglandin H-E isomerases in human brain cytosol were identical with anionic forms of glutathione S -transferase. 相似文献
2.
When crude membrane fraction from bovine adrenal gland was incubated with type D botulinum toxin in the presence of NAD, a membrane protein with a molecular weight of 21,000 was specifically ADP-ribosylated. This ADP-ribosylation occurred dependent on the dose of the toxin and was abolished by prior boiling ADP-ribose transfer to the membrane protein was significantly suppressed when agmatine and L-arginine methyl ester were included in the reaction mixture. Dithiothreitol stimulated this ADP-ribosylation about 3-fold. Incubation of membrane fractions from mouse brain and pancreas with this toxin also resulted in ADP-ribosylation of a protein of the same molecular weight. These results suggested that type D botulinum toxin catalyzed transfer of an ADP-ribose moiety of NAD to the specific membrane protein common to secretory cells. 相似文献
3.
ADP-ribosylation by type C1 and D botulinum neurotoxins: stimulation by guanine nucleotides and inhibition by guanidino-containing compounds 总被引:2,自引:0,他引:2
Y Ohashi T Kamiya M Fujiwara S Narumiya 《Biochemical and biophysical research communications》1987,142(3):1032-1038
We recently reported that type D botulinum neurotoxin ADP-ribosylates a specific protein of Mr 21,000 in membrane fractions of various tissues (Ohashi, Y. and Narumiya, S. (1987) J. Biol. Chem. in press). We examined similar enzyme activities in other types (types A, B, C1 and E) of botulinum neurotoxins. Of these, only type C1 toxin showed the activity similar to type D toxin and ADP-ribosylated the same Mr 21,000 protein in membranes of mouse brain. No enzyme activities were detected in type A, B and E toxins under the present experimental conditions. GTP stimulated ADP-ribosylation by the two toxins in a concentration dependent manner from 10 nM to 100 microM. The maximum stimulation was about 6 fold. GDP was 10 times less potent than GTP and achieved similar maximum at 1 mM, while GMP, ADP and ATP had little effect. Several guanidino-containing compounds dose-dependently inhibited the activities of both toxins. The IC50 values were 8.5, 14.5 and 45 mM for agmatine, L-arginine methyl ester and guanidine, respectively. 相似文献
4.
L-1210 murine leukemia cells were exposed to prostaglandin D2 (PGD2), 10 micrograms/ml, in culture medium for various time, and subsequent cell growth was observed. More than 24 h exposure to PGD2 was required to inhibit cell growth almost completely. During this period, PGD2 degraded time-dependently into several products. The major product was identified as delta 12-PGJ2 by TLC, UV and mass spectra. When delta 12-PGJ2 was added to cells instead of PGD2, it evoked growth inhibition with much shorter contact time than PGD2. In addition, when the medium containing PGD2 was preincubated at 37 degrees C for 24 h, it elicited growth inhibition with only 6 h contact with cells. Furthermore, when the medium containing PGD2 was changed every 6 h during 24 h exposure time to cells, no significant growth inhibition was observed. These results suggested that PGD2 per se has little, if any, growth inhibitory activity, and delta 12-PGJ2 is an ultimate metabolite exerting growth inhibition. This action appears to be independent of cAMP, since delta 12-PGJ2 was virtually inactive in raising intracellular cAMP levels. 相似文献
5.
H Osama S Narumiya O Hayaishi H Iinuma T Takeuchi H Umezawa 《Biochimica et biophysica acta》1983,752(2):251-258
The activities of rat brain prostaglandin D synthetase and swine brain prostaglandin D2 dehydrogenase were inhibited by some saturated and unsaturated fatty acids. Myristic acid was most potent among saturated straight-chain fatty acids so far tested. The IC50 values of this acid were 80 microM for prostaglandin D synthetase and 7 microM for prostaglandin D2 dehydrogenase, respectively. Little inhibition was found with methyl myristate and myristyl alcohol. The IC50 values of these derivatives were more than 200 microM for both enzymes, suggesting that the free carboxyl group was essential for the inhibition. The effects of cis double bond structure of fatty acids on the inhibition potency were examined by the use of the carbon 18 and 20 fatty acids. The inhibition potencies for both enzymes increased with the number of cis double bonds; the IC50 values of stearic, oleic, linoleic and linolenic acid were, respectively, more than 200, 60, 30 and 30 microM for prostaglandin D synthetase, and 20, 10, 8.5 and 7 microM for prostaglandin D2 dehydrogenase. Arachidonic acid also inhibited the activities of both enzymes with respective IC50 values of 40 microM for prostaglandin D synthetase and 3.9 microM for prostaglandin D2 dehydrogenase, while arachidic acid showed little inhibition. The kinetic studies with myristic acid and arachidonic acid demonstrated that the inhibition by these fatty acids was competitive and reversible for both enzymes. Myristic acid and other fatty acids also inhibited the activities of several enzymes in prostaglandin metabolism, although to a lesser extent. The IC50 values of myristic acid for prostaglandin E isomerase, thromboxane synthetase and NAD-linked prostaglandin dehydrogenase (type I) were 200, 700 and 100 microM, respectively. However, this fatty acid showed little inhibition on fatty acid cyclooxygenase (20% at 800 microM), glutathione-requiring prostaglandin D synthetase from rat spleen (20% at 800 microM), and NADP-linked prostaglandin dehydrogenase (type II) (no inhibition at 200 microM). 相似文献
6.
K Takai H Ushiro Y Noda S Narumiya T Tokuyama 《The Journal of biological chemistry》1977,252(8):2648-2656
A new enzyme which catalyzes the oxidation of the side chain of tryptophan and other indole derivatives, has been purified to apparent homogeneity from Pseudomonas and crystallized. The overall purification was about 25-fold with a yield of 4.5%. The purified enzyme was apparently homogeneous as judged by polyacrylamide gel electrophoresis. The molecular weight estimated by gel filtration was approximately 280,000 and sedimentation coefficient (S20,w) was 11 by sucrose density gradient ultracentrifugation. The absorption spectra indicated that the enzyme was a hemoprotein. The purified enzyme was shown to catalyze the reaction in which 1 mol each of NH3 and CO2 was formed at the expense of 1 mol each of L-tryptophan and molecular oxygen. Neither peroxidase nor catalase activity was detected in the purified enzyme and no formation of H2O2 was observed during the enzyme reaction. The product(s) of the reaction was unstable but was converted to and was identified as its stable quinoxaline derivative, 2-(3-indolyl)quinoxaline, in the presence of o-phenylenediamine. These results indicate that the product of the reaction was 3-indolylglycoaldehyde or 3-indolylglyoxal. A variety of other indole derivatives such as D-tryptophan, 5-hydroxyl-L-tryptophan, tryptamine, serotonin, melatonin, N-acetyl-L-tryptophan, N-acetyl-L-tryptophanamide, 3-indoleacetamide, 3-indolelactic acid, 3-indolepropionic acid, 3-indoleethanol, and skatole were also substrates. 相似文献
7.
H Ushiro K Takai S Narumiya S Ito O Hayaishi 《The Journal of biological chemistry》1979,254(23):11794-11797
The isolation and reconstitution of two electron transfer components of tryptophan side chain oxidase from Pseudomonas (ATCC 29574) are described. The dehydrogenase component abstracts electrons from the substrate and transfers them to oxidation-reduction dyes such as potassium ferricyanide and 2,6-dichlorophenolindophenol but not to molecular oxygen. It is composed of a single polypeptide chain with a molecular weight of 72,000 and exhibits the absorption spectrum of a reduced b-type cytochrome with maxima at 563, 532, 433, 323, and 278 nm. The oxidase component transfers electrons, derived from the former component, to oxygen, and has a molecular weight of 48,000. The absorption spectrum exhibits broad peaks at 680, 438, and 358 nm, and a peak at 280 nm. On sucrose gradient centrifugation and polyacrylamide gel electrophoresis, these two components are shown to form a molecular complex, which has the reconstituted oxidase activity. The turnover number of the reconstituted enzyme is comparable to that of the native enzyme. 相似文献
8.
9.
Masanori Fukushima Taketoshi Kato Ryuzo Ueda Kazuo Ota Shuh Narumiya Osamu Hayaishi 《Biochemical and biophysical research communications》1982,105(3):956-964
Cytotoxic actions of various prostaglandins were examined on L1210 mouse leukemia and several human leukemia cell lines, and prostaglandin D2 (PGD2) was found most active. PGD2 exerted a dose dependent inhibition of L1210 cell growth over 3.6 μ. At 14.3 μ growth was completely inhibited, and the number of viable cells remarkably decreased during culture. Microscopically the remaining cells showed degenerative changes with many vacuoles in their cytoplasm. The IC50 value of PGD2 on L1210 cell growth was calculated to be 6.9 μ (2.4 μg/ml), and at this concentration the DNA synthesis in 24 hr cultured cells was also decreased to a half of the level in the control cells. Such growth inhibition by PGD2 was also found at similar concentrations with several human leukemia cell lines such as NALL-1, RPMI-8226, RPMI-8402, and Sk-Ly-16. Among other prostaglandins tested, PGA2 showed a comparable, and PGE2 a less but significant growth inhibitory activity, while PGB2, PGF2α and PGI2 had no such effects on cell proliferation at 14.3 μ concentration. These results suggest a potential antineoplastic activity of PGD2. 相似文献
10.