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1.
Rat renal medullary slices prelabeled with [14C]arachidonic acid generate [14C]diacylglycerol within 1 min of exposure to bradykinin action. Production of [14C]diacylglycerol is transient. 2 min after the addition of bradykinin, the levels of metabolite reach the maximum, but decrease thereafter. Simultaneously, bradykinin induces a parallel decrease of the radioactivity in phosphatidylinositol. No degradation of other phospholipids is observed, and triacylglycerol is not affected. The degradation of [14C]phosphatidylinositol to [14C]diacylglycerol indicated the presence of phospholipase C activity. Preincubation of prelabeled slices with 2 mM dibutyryl cyclic AMP prevents both the generation of diacylglycerol and the degradation of phosphatidylinositol. Neither mepacrine nor indomethacin block diacylglycerol production and phosphatidylinositol breakdown. We conclude that, when rat renal medullary slices are stimulated with bradykinin, phosphatidylinositol-specific phospholipase C is activated. 相似文献
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在麻醉的32只猫记录了电刺激颌下腺神经支引起的上涎核平均场电位和单位放电。逆行电刺激颌下腺神经支引起的上涎核平均场电位分布在同侧脑干背面闩部头端5.5—8mm处,与过去的组织学结果大致符合。用微电极在上涎核记录了68个对刺激颌下腺神经支有反应的单位,其中33个单位作了碰撞试验。有9个单位符合逆向反应标准,它们是真正的颌下腺节前神经元,逆行反应的潜伏期为14.4±2.5ms,其轴突传导速度为2.9±0.1m/s。其他不符合逆向反应标准的单位,对刺激颌下腺神经支仍能发生反应,估计多为中间神经元。在一部分单位观察了电刺激舌神经或味觉刺激舌引起的反应。根据这些观察对上涎核内存在复杂神经元回路的可能性作了讨论。 相似文献
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Reduction of a disulfide bond of thrombospondin in the supernatant solution of activated platelets 总被引:1,自引:0,他引:1
Incubation of the material secreted by activated platelets leads to the formation of disulfide-linked dimers and multimers of one of the proteins, thrombospondin. To determine whether these complexes formed as a result of thiol-disulfide exchange (no change in the number of thiols) or of oxidation of thiols (a decrease in the number of thiols), the number of thiols in TSP was measured during formation of multimers. The number of thiols increased from about 3/mol to 4.8/mol. The half-time for the disappearance of monomers of thrombospondin was fourfold greater than the half-time for appearance of new thiols. The appearance of new thiols, as well as the formation of multimers, was inhibited by Ca2+. The appearance of new thiols was reversible; addition of Ca2+ reversed the process, and at pH 8, but not at pH 6 or 7, the appearance of new thiols spontaneously reversed. No new thiols formed during incubation of partially purified thrombospondin or after the supernatant solution had been treated with activated thiol-Sepharose to remove reactive thiol compounds. It is concluded that thrombospondin has a disulfide bond that is unstable in the absence of Ca2+. It can be attacked by a thiol of another molecule of thrombospondin to form disulfide-linked multimers, by a thiol of the same molecule of thrombospondin to generate isomerization of disulfide bonds or, as observed in this study, by another secreted thiol compound to give a mixed disulfide and a new thiol. 相似文献
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The free thiols of platelet thrombospondin (TSP) were derivatized with labeled N-ethylmaleimide (NEM) or iodoacetamide (IAM). When Ca2+ was chelated with EDTA, 2.9 mol of NEM or 2.6 mol of IAM reacted/mol of native TSP. No additional thiols were found after denaturation with urea. Since TSP has three apparently identical polypeptide chains, this suggests one free thiol/polypeptide chain. Ca2+ protected all of the thiols from reaction with IAM. In Ca2+ about half the thiols reacted normally with NEM and the others were unreactive, indicating that the thiols of TSP are not identical. The number of reactive thiols as a function of [Ca2+] revealed a sigmoidal curve with a transition midpoint of 207 microM. The ability of analogs of NEM to compete for derivatization of the thiols with labeled NEM was greater with larger, more hydrophobic agents. Gel electrophoretic separation of labeled TSP that had been partially digested with thrombin and trypsin indicated that some of the label was in the C-terminal tryptic fragment but that most was in the adjacent trypsin-sensitive region. After cyanogen bromide cleavage of the labeled and reduced protein, four labeled fractions were obtained from a gel filtration column. With subsequent combinations of tryptic digestion and reversed-phase high performance liquid chromatography, labeled peptides were purified from these four fractions, and the amino acid sequences were determined. Twelve labeled cysteines were identified, each with a specific radioactivity less than that of the thiol labeling reagent, indicating that only a fraction of that cysteine in a population of TSP molecules was a free thiol at the time of derivatization. While 2 labeled cysteines are in the non-repeating C-terminal portion of the molecule, the other 10 labeled cysteines are in the adjacent trypsin-sensitive type 3 repeats proposed (Lawler, J., and Hynes, R. O. (1986) J. Cell. Biol. 103, 1635-1648) as the calcium-binding region of the molecule. The disulfide bonds most sensitive to reduction by dithioerythritol were also stabilized by Ca2+, implying location in the Ca2(+)-sensitive part of the molecule. It is proposed that one equivalent of free thiol/polypeptide chain is distributed among 12 different cysteine residues through an intramolecular thioldisulfide isomerization. 相似文献
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Incubated bovine pineal glands released prostaglandin E-and prostglandin F-like material (304 +/- 20 and 582 +/- 56 pg/mg dry tissue wt/h, respectively) and the release was increased 2.2 2.9-fold by adding 10(-4)-10(-6)M of norepinephrine to the medium. Binding assays revealed the existence of high affinity binding of 3H-prostaglandin E2 (3H-PGE2) and 3H-prostaglandin F1 alpha (3H-PGF2 alpha) in low speed supernatants of pineal homogenates. Binding was increased by increasing Ca++ concentration in medium up to 2 mM, was heat labile and was depressed following incubation with trypsin. In subcellular fractionation studies maximal 3H-PG binding was found in the 27000 x g pellet. Scatchard analysis of 3H-PGE2 binding revealed the presence of a single population of binding sites with a Kd= 1.2 nM and a binding site concentration of 1-2 pmoles/g protein. A single population of binding sites for 3H-PGF2 alpha was also detected with a Kd= 1.7 nM and a similar binding site concentration. Non-radioactive PGE1 and PGE2 were almost equally effective to compete for 3H-PGE1 binding sites (ED50= 5 and 2 nM, respectively). Unlabeled PGF1 was relatively ineffective to compete for 3H-PGE2 binding (ED50 greater than 1000 nM) but displaced effectively 3H-PGF2 alpha binding (ED20=1.2 nM). 相似文献
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