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1
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J Physiol. 1981 Mar;312:29-55. doi: 10.1113/jphysiol.1981.sp013614.
2
A kinetic investigation of the effects of adrenaline on 45Ca2+ exchange in isolated hepatocytes at different Ca2+ concentrations, at 20 degrees C and in the presence of inhibitors of mitochondrial Ca2+ transport.在20摄氏度、不同钙离子浓度下以及存在线粒体钙离子转运抑制剂的情况下,对肾上腺素对分离肝细胞中45Ca2+交换的影响进行动力学研究。
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3
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4
Fluxes and distribution of calcium in rat liver cells: kinetic analysis and identification of pools.大鼠肝细胞中钙的通量与分布:动力学分析及钙池鉴定
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5
Evidence for two compartments of exchangeable calcium in isolated rat liver mitochondria obtained using a 45Ca exchange technique in the presence of magnesium, phosphate, and ATPase at 37 degrees C.在37摄氏度下,于镁、磷酸盐和ATP酶存在的情况下,运用45Ca交换技术在分离的大鼠肝脏线粒体中获得可交换钙存在两个区室的证据。
J Membr Biol. 1981;62(1-2):53-63. doi: 10.1007/BF01870199.
6
Calcium fluxes in mouse mammary tissue in vitro: intracellular and extracellular calcium pools.体外培养的小鼠乳腺组织中的钙通量:细胞内和细胞外钙库
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7
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8
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9
Studies on the role of calcium ions in the stimulation by adrenaline of amylase release from rat parotid.钙离子在肾上腺素刺激大鼠腮腺淀粉酶释放中的作用研究。
Biochem J. 1974 Dec;144(3):543-50. doi: 10.1042/bj1440543.
10
The role of calcium in insulin action. III. Calcium distribution in fat cells; its kinetics and the effects of adrenaline, insulin and procaine-HCl.钙在胰岛素作用中的角色。III. 钙在脂肪细胞中的分布;其动力学以及肾上腺素、胰岛素和盐酸普鲁卡因的影响。
Eur J Clin Invest. 1975 Jul 29;5(4):339-49. doi: 10.1111/j.1365-2362.1975.tb00463.x.

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Mol Cell Biochem. 1996 Sep 6;162(1):23-9. doi: 10.1007/BF00250992.
2
Pancreastatin increases free cytosolic Ca2+ in rat hepatocytes, involving both pertussis-toxin-sensitive and -insensitive mechanisms.胰抑制素可增加大鼠肝细胞胞质游离钙离子浓度,这一过程涉及百日咳毒素敏感和不敏感两种机制。
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Biochem J. 1994 Apr 15;299 ( Pt 2)(Pt 2):399-407. doi: 10.1042/bj2990399.
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6
Evidence that lanthanum ions stimulate calcium inflow to isolated hepatocytes.镧离子刺激分离的肝细胞钙内流的证据。
Biochem J. 1981 Oct 15;200(1):109-14. doi: 10.1042/bj2000109.
7
Techniques and applications of extracellular space determination in mammalian tissues.哺乳动物组织细胞外空间测定的技术与应用
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8
Hormone-sensitive magnesium transport in murine S49 lymphoma cells: characterization and specificity for magnesium.小鼠S49淋巴瘤细胞中激素敏感的镁转运:镁的特性及特异性
J Physiol. 1983 Apr;337:351-71. doi: 10.1113/jphysiol.1983.sp014628.
9
Exogenous phospholipase enzymes mimic effects of phenylephrine on Ca2+ transport in hepatocytes.外源性磷脂酶可模拟去氧肾上腺素对肝细胞中钙离子转运的作用。
Biochem J. 1983 Jan 15;210(1):115-9. doi: 10.1042/bj2100115.
10
Determination of mitochondrial calcium content in hepatocytes by a rapid cellular fractionation technique. Vasopressin stimulates mitochondrial Ca2+ uptake.用快速细胞分级分离技术测定肝细胞中的线粒体钙含量。血管加压素刺激线粒体对钙离子的摄取。
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本文引用的文献

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Computer calculation of equilibrium concentrations in mixtures of metal ions and complexing species.金属离子与络合物混合物中平衡浓度的计算机计算。
Talanta. 1967 Jul;14(7):833-42. doi: 10.1016/0039-9140(67)80105-x.
2
Some formal approaches to the analysis of kinetic data in terms of linear compartmental systems.一些根据线性房室系统对动力学数据进行分析的形式化方法。
Biophys J. 1962 May;2(3):289-316. doi: 10.1016/s0006-3495(62)86856-8.
3
In vivo effect of uncoupling agents on the incorporation of calcium and strontium into mitochondria and other subcellular fractions of rat liver.解偶联剂对钙和锶掺入大鼠肝脏线粒体及其他亚细胞组分的体内效应。
J Gen Physiol. 1967 Aug;50(7):1849-64. doi: 10.1085/jgp.50.7.1849.
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A postulate to aid in model building.一个有助于模型构建的假设。
J Theor Biol. 1963 May;4(3):229-36. doi: 10.1016/0022-5193(63)90001-8.
5
Kinetic analyses of calcium movements in HeLa cell cultures. I. Calcium influx.HeLa细胞培养物中钙运动的动力学分析。I. 钙内流。
J Gen Physiol. 1969 Jan;53(1):43-56. doi: 10.1085/jgp.53.1.43.
6
Nomenclature for tracer kinetics.示踪动力学的命名法。
Int J Appl Radiat Isot. 1968 Mar;19(3):249-62. doi: 10.1016/0020-708x(68)90022-7.
7
High-yield preparation of isolated rat liver parenchymal cells: a biochemical and fine structural study.大鼠肝脏实质细胞分离的高效制备:生化与精细结构研究
J Cell Biol. 1969 Dec;43(3):506-20. doi: 10.1083/jcb.43.3.506.
8
Exchange of calcium ions in the mammalian myocardium. Mechanisms and physiological significance.哺乳动物心肌中钙离子的交换。机制与生理意义。
Circ Res. 1974 May;34(5):599-605. doi: 10.1161/01.res.34.5.599.
9
Statistical estimations in pharmacokinetics.药物动力学中的统计学估计
J Pharmacokinet Biopharm. 1974 Apr;2(2):123-48. doi: 10.1007/BF01061504.
10
The intracellular localization of enzymes in white-adipose-tissue fat-cells and permeability properties of fat-cell mitochondria. Transfer of acetyl units and reducing power between mitochondria and cytoplasm.白色脂肪组织脂肪细胞中酶的细胞内定位及脂肪细胞线粒体的通透性。线粒体与细胞质之间乙酰基单位和还原能力的转移。
Biochem J. 1970 May;117(5):861-77. doi: 10.1042/bj1170861.

肾上腺素对离体大鼠肝实质细胞钙分布影响的动力学分析。

A kinetic analysis of the effects of adrenaline on calcium distribution in isolated rat liver parenchymal cells.

作者信息

Barritt G J, Parker J C, Wadsworth J C

出版信息

J Physiol. 1981 Mar;312:29-55. doi: 10.1113/jphysiol.1981.sp013614.

DOI:10.1113/jphysiol.1981.sp013614
PMID:7264996
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1275539/
Abstract
  1. The effects of adrenaline on Ca distribution in isolated rat liver parenchymal cells were studied using a (45)Ca exchange technique under steady-state conditions with respect to the net movement of Ca. (45)Ca was initially introduced into the extracellular medium. The amount of cellular (45)Ca was determined after separation of the cells from the medium by centrifugation through a solution which contained LaCl(3) (to displace (45)Ca bound to sites on the outside of the cell membrane) and silicon oil. At 1.3 and 2.4 mm-extracellular Ca, a stimulation of the initial rate of (45)Ca exchange was observed in the presence of 10(-7)m-adrenaline (or 10(-6)m-phenylephrine) with a 7% decrease, and no change, respectively, in the plateau of the exchange curve. The same degree of stimulation was observed when (45)Ca was added at 1, 15, 30 or 45 min after the adrenaline.2. No stimulation of the initial rate of exchange was observed at 0.1 mm-extracellular Ca, or at 2.4 mm-extracellular Ca in the presence of antimycin A and oligomycin. At 0.1 mm-Ca, a 60% decrease in the plateau of the exchange curve was observed in the presence of adrenaline. The concentration of adrenaline (10(-7)m) which caused half-maximal stimulation of the initial rate of (45)Ca exchange at 1.3 mm-Ca was similar to that (2 x 10(-7)m) which caused half-maximal decrease in the plateau at 0.1 mm-Ca.3. The addition of adrenaline to cells equilibrated with (45)Ca at either 2.4 or 1.3 mm-Ca caused a transient loss of (45)Ca followed by a return to a new steady state after 1 or 10 min, respectively. A loss of (45)Ca was also observed at 0.1 mm-Ca, but the (45)Ca content of the cells remained maximally depressed for at least 30 min.4. A non-linear least-squares iterative curve-fitting technique was used to demonstrate that (a) an equation which includes two exponential terms and (b) a parallel or series arrangement of three compartments of exchangeable Ca (the medium and two compartments associated with the cell) are consistent with each set of data obtained at 1.3 or 2.4 mm-Ca in the presence or absence of adrenaline (or phenylephrine). At 1.3 mm-Ca, the quantities of exchangeable Ca in the two kinetically defined cellular compartments were 0.04-0.07 and 0.34-0.37 nmol per mg wet weight with rate constants for Ca outflow of 1.2-1.5 and 0.06-0.08 min(-1), respectively.5. Analysis of the changes induced by adrenaline or phenylephrine showed that at 1.3 and 2.4 mm-extracellular Ca these agents caused a 75-150% increase in the quantity of exchangeable Ca in the small kinetically defined compartment and a 20% decrease in the quantity of exchangeable Ca in the large kinetically defined compartment. These changes were mediated by an 80-160% increase in the rate constant for the inflow of Ca from the medium to the small kinetically defined compartment, and either a 20-60% decrease in the rate constant for inflow to, or a 20% increase in the rate constant for outflow from, the large compartment.6. Replacement of the LaCl(3) in the solution used to separate the cells from the incubation medium with either 5 mm-EGTA or 5 mm-CaCl(2) did not alter the kinetics of (45)Ca exchange or the stimulation by adrenaline. This, together with the observation that at 1.3 mm-extracellular Ca, adrenaline increases the initial rate of exchange in the absence, but not in the presence, of antimycin A plus oligomycin, indicates that both cellular compartments of exchangeable Ca are intracellular.7. The addition of antimycin A plus oligomycin to cells equilibrated with (45)Ca at 2.4 mm-extracellular Ca in the presence or absence of adrenaline displaced 0.09 and 0.14 nmol (45)Ca. mg(-1), respectively.8. Subcellular fractionation of cells equilibrated with (45)Ca at 0.1 mm-extracellular Ca revealed that the mitochondria and microsomes contained significant amounts of (45)Ca. The amounts of (45)Ca in these fractions decreased by 50 and 40%, respectively, in the presence of adrenaline.9. In (45)Ca exchange experiments conducted with isolated mitochondria at 37 degrees C at 1.5 x 10(-7)m and 0.9 x 10(-7)m free Ca in the presence of 2 mm-Mg(2+), one kinetically defined compartment of exchangeable mitochondrial Ca was detected. The rate constants for Ca outflow were found to be 0.15+/-0.03 and 0.12+/-0.04 min(-1), respectively, in reasonable agreement with the value obtained for the rate constant for the outflow of Ca from the large kinetically defined compartment of exchangeable Ca observed in cells.10. It is concluded that adrenaline has two effects on Ca movement in the liver cell. These are to cause a loss of Ca from an intracellular compartment, which includes the mitochondria and microsomes, and to increase the transport of Ca from the extracellular medium to an intracellular site. This results in an increase in the amount of Ca in a small intracellular compartment which may represent cytoplasmic Ca, or Ca bound to sites on the inside of the plasma membrane.
摘要

  1. 采用(45)Ca交换技术,在稳态条件下,就Ca的净移动而言,研究了肾上腺素对离体大鼠肝实质细胞中Ca分布的影响。(45)Ca最初被引入细胞外培养基中。通过含有LaCl3(以置换结合在细胞膜外位点上的(45)Ca)和硅油的溶液进行离心,将细胞与培养基分离后,测定细胞内(45)Ca的含量。在细胞外Ca浓度为1.3和2.4mmol/L时,在存在10^(-7)mol/L肾上腺素(或10^(-6)mol/L去氧肾上腺素)的情况下,观察到(45)Ca交换初始速率的刺激,交换曲线的平台期分别下降7%和无变化。在加入肾上腺素后1、15、30或45分钟加入(45)Ca时,观察到相同程度的刺激。

  2. 在细胞外Ca浓度为0.1mmol/L时,或在存在抗霉素A和寡霉素的情况下细胞外Ca浓度为2.4mmol/L时,未观察到交换初始速率的刺激。在0.1mmol/L Ca浓度下,在存在肾上腺素的情况下,交换曲线的平台期下降60%。在1.3mmol/L Ca浓度下引起(45)Ca交换初始速率半最大刺激的肾上腺素浓度(10^(-7)mol/L),与在0.1mmol/L Ca浓度下引起平台期半最大下降的浓度(2×10^(-7)mol/L)相似。

  3. 向用2.4或1.3mmol/L(45)Ca平衡的细胞中加入肾上腺素,分别导致(45)Ca的短暂丢失,随后在1或10分钟后恢复到新的稳态。在0.1mmol/L Ca浓度下也观察到(45)Ca的丢失,但细胞内(45)Ca含量至少30分钟保持最大降低。

  4. 采用非线性最小二乘迭代曲线拟合技术证明:(a)一个包含两个指数项的方程;(b)可交换Ca的三个区室(培养基和与细胞相关联的两个区室)的并联或串联排列,与在存在或不存在肾上腺素(或去氧肾上腺素)的情况下,在1.3或2.4mmol/L Ca浓度下获得的每组数据一致。在1.3mmol/L Ca浓度下,两个动力学定义的细胞区室中可交换Ca的量分别为每毫克湿重0.04 - 0.07和0.34 - 0.37nmol,Ca流出的速率常数分别为1.2 - 1.5和0.06 - 0.08min^(-1)。

  5. 对肾上腺素或去氧肾上腺素引起的变化分析表明,在细胞外Ca浓度为1.3和2.4mmol/L时,这些试剂导致动力学定义的小区室中可交换Ca的量增加75 - 150%,动力学定义的大区室中可交换Ca的量减少20%。这些变化是由从培养基流入动力学定义的小区室的Ca的速率常数增加80 - 160%介导的,并且是由流入大区室的速率常数降低20 - 60%或从大区室流出的速率常数增加20%介导的。

  6. 用5mmol/L乙二醇双四乙酸(EGTA)或5mmol/L氯化钙(CaCl2)代替用于将细胞与孵育培养基分离的溶液中的LaCl3,不会改变(45)Ca交换的动力学或肾上腺素的刺激作用。这一点,连同在1.3mmol/L细胞外Ca浓度下,肾上腺素在不存在但存在抗霉素A加寡霉素的情况下增加交换初始速率的观察结果,表明可交换Ca的两个细胞区室均在细胞内。

  7. 在存在或不存在肾上腺素的情况下,向用2.4mmol/L(45)Ca平衡的细胞中加入抗霉素A加寡霉素,分别置换出0.09和0.14nmol(45)Ca·mg^(-1)。

  8. 对用0.1mmol/L细胞外Ca平衡的细胞进行亚细胞分级分离显示,线粒体和微粒体含有大量(45)Ca。在存在肾上腺素的情况下,这些级分中(45)Ca的量分别减少50%和40%。

  9. 在37℃下,在2mmol/L镁离子(Mg2+)存在的情况下,用1.5×10^(-7)mol/L和0.9×10^(-7)mol/L游离Ca对分离的线粒体进行(45)Ca交换实验,检测到一个动力学定义的可交换线粒体Ca区室。发现Ca流出的速率常数分别为0.15±0.03和0.12±0.04min^(-1),与在细胞中观察到的从动力学定义的可交换Ca大区室流出Ca的速率常数的值合理一致。

  10. 得出结论:肾上腺素对肝细胞中的Ca移动有两种作用。这些作用是导致Ca从包括线粒体和微粒体的细胞内区室丢失,并增加Ca从细胞外培养基到细胞内位点的转运。这导致一个小的细胞内区室中Ca的量增加,该小细胞内区室可能代表细胞质Ca或结合在质膜内侧位点上的Ca。