排序方式: 共有32条查询结果,搜索用时 31 毫秒
1.
Previous experiments have suggested that hemicholinium-3 might directly antagonize certain actions of beta-bungarotoxin at the neuromuscular junction. Data presented here show that, on the contrary, hemicholinium-3 neither inhibits the phospholipase activity of beta-bungarotoxin nor does it affect the characteristic pattern of transmitter release observed at end plates exposed to the toxin. Lanthanum ions were found to promote the release of acetylcholine from sartorius nerve-muscle preparations that had been paralyzed by botulinum toxin. However, the acceleration of transmitter release by lanthanum was not nearly as great as in control preparations as monitored either electrophysiologically or by chemical measurement of ACh. 相似文献
2.
Choline concentrations in human erythrocytes increase after freezing and thawing, during incubation in Krebs-phosphate for 30 min or on storage at 0 degrees C for 3-24 hr. The increase is prevented by protein precipitation by 10% perchloric acid, 10% zinc hydroxide, 10% sodium tungstate or boiling in water. It is not prevented by EDTA (10 mM) and is increased by oleate (5 mM). We suggest that the increase is due to the action of phospholipase D on erythrocyte phospholipids. 相似文献
3.
L E Hollister D J Jenden J R Amaral J D Barchas K L Davis P A Berger 《Life sciences》1978,23(1):17-22
Plasma choline levels were measured in patients being treated with choline chloride for movement disorders. Following single doses of 5 g given orally in aqueous solution, plasma concentrations rose to a peak within four hours and then rapidly declined. The degree of increase was variable both between and within patients. During chronic treatment, plasma choline concentrations tended to rise as the dose increased, although the relationship was not strong. The highest concentrations attained by patients were always at a dose of 16 or 20 g daily. Following chronic treatment, the disappearance of choline from plasma was rapid, with most patients reaching baseline by four days. Choline chloride is generally given in four divided doses, which seems reasonable in the early stages of treatment. Most therapeutic effect is seen when patients are treated with daily doses in the 12 to 20 g range, doses likely to produce substantial increases in plasma choline concentration. However, the relationship of plasma choline concentration to clinical efficacy may be tenuous. Following discontinuation of treatment, clinical improvement tends to persist long after plasma choline has returned to baseline concentrations. 相似文献
4.
—The kinetics of plasma choline (Ch) and the uptake of plasma Ch into the brain were studied by means of intravenous infusion of [2H4]Ch at various rates into anaesthetized and conscious rats. [2H4]Ch levels in both arterial and venous plasma at steady state were linearly related to the infusion rate; however, unlabelled Ch levels were independent of infusion rate. [2H4]Ch levels were higher in the arterial plasma than in the venous plasma, while unlabelled Ch levels were higher in the venous plasma than in the arterial plasma. It was concluded that Ch is being generated in the brain and is released into the venous effluent. The supply of Ch to the plasma is not decreased if the plasma Ch level is increased. The clearance and turnover of Ch in the compartment of its initial distribution are 75 ml kg-1 min-1 and 716 nmol kg-1 min-1, respectively. The uptake of plasma Ch into the brain is not saturated even at very high levels of plasma Ch. 相似文献
5.
6.
A gas chromatograph/quadrupole mass spectrometer system has been employed to estimate the turnover of acetylcholine in mouse brain following a pulse intravenous injection of choline, using discrete deuterium labelled variants of choline and acetylcholine as tracer and internal standards. There appear to be two functional pools with turnover rates of 1.4 and 7.9 nmol gm?1min?1. 相似文献
7.
8.
9.
Estimation of N-amino-N,N-dimethylaminoethanol, choline and their acetate esters by gas chromatography mass spectrometry 总被引:1,自引:0,他引:1
A method is described for measurement of choline, N-aminodeanol, and their acetyl esters by gas chromatography mass spectrometry. The preparation of N-aminodeanol and its isotopic variants is also described. This method allows a thorough quantitative analysis of the replacement of true with false neurotransmitter in biological preparations. 相似文献
10.
MEASUREMENT OF ACETYLCHOLINE TURNOVER WITH GLUCOSE USED AS PRECURSOR: EVIDENCE FOR COMPARTMENTATION OF GLUCOSE METABOLISM IN BRAIN 总被引:5,自引:4,他引:1
The turnover of acetylcholine in whole mouse brain in vivo has been determined using [U-14C]glucose as a precursor of the acetyl moiety. The standard requirements for the measurement of turnover were met: the injection did not change the concentrations of precursor or product, the amount of radioactivity in the brain was proportional to the amount injected, and the relationship between the specific activity of glucose and that of acetylcholine was typical of a precursor and a product. The value for acetylcholine turnover was 64 pmol/min per mg protein, approx 6.4 nmol/min per g brain. Treatment with amobarbital (0.16 mmol/kg) decreased the incorporation of glucose into acetylcholine by 73 × 7%, and treatment with atropine increased it by 18 × 6%. These values agree with those using choline as a precursor, supporting the validity of the values for turnover obtained with either labelled precursor. The specific activity of acetylcholine was higher than that of pyruvate at all times in mouse brain in vivo and in rat brain slices in vitro. These observations demonstrate compartmentation of glucose metabolism with respect to acetylcholine synthesis in the brain. They agree with observations by others of compartmentation of acetyl metabolism. They provide an explanation for the close linkage which has been observed between carbohydrate catabolism and acetylcholine synthesis in the CNS. 相似文献