肝细胞质膜钙离子流入系统对二价金属离子表现出广泛的特异性。
The liver cell plasma membrane Ca2+ inflow systems exhibit a broad specificity for divalent metal ions.
作者信息
Crofts J N, Barritt G J
机构信息
Department of Medical Biochemistry, Flinders University School of Medicine, Flinders Medical Centre, Bedford Park, Australia.
出版信息
Biochem J. 1990 Aug 1;269(3):579-87. doi: 10.1042/bj2690579.
Abstract
- The inflow of Mn2+ across the plasma membranes of isolated hepatocytes was monitored by measuring the quenching of the fluorescence of intracellular quin2, by atomic absorption spectroscopy and by the uptake of 54Mn2+. The inflow of other divalent metal ions was measured using quin2. 2. Under ionic conditions which resembled those present in the cytoplasmic space, Mn2+, Zn2+, Co2+, Ni2+ and Cd2+ each quenched the fluorescence of a solution of Ca2(+)-quin2. 3. The addition of Mn2+, Zn2+, Co2+, Ni2+ or Cd2+ to cells loaded with quin2 caused a time-dependent decrease in the fluorescence of intracellular quin2. Plots of the rate of decrease in fluorescence as a function of the concentration of Mn2+ reached a plateau at 100 microM-Mn2+. 4. The rate of decrease in fluorescence induced by Mn2+ was stimulated by 20% in the presence of vasopressin. The effect of vasopressin was completely inhibited by 200 microM-verapamil. Adrenaline, angiotensin II and glucagon also stimulated the rate of decrease in the fluorescence of intracellular quin2 induced by Mn2+. 5. The rate of decrease in fluorescence induced by Zn2+, Co2+, Ni2+ or Cd2+ was stimulated by between 20 and 190% in the presence of vasopressin or angiotensin II. 6. The rates of uptake of Mn2+ measured by atomic absorption spectroscopy or by using 54Mn2+ were inhibited by about 20% by 1.3 mM-Ca2+o and stimulated by 30% by vasopressin. 7. Plots of Mn2+ uptake, measured by atomic absorption spectroscopy or with 54Mn2+, as a function of the extracellular concentration of Mn2+ were biphasic over the range 0.05-1.0 mM added Mn2+ and did not reach a plateau at 1.0 mM-Mn2+. 8. It is concluded that (i) hepatocytes possess both a basal and a receptor-activated divalent cation inflow system, each of which has a broad specificity for metal ions, and (ii) the receptor-activated divalent cation inflow system is the receptor-operated Ca2+ channel.
摘要
- 通过测量细胞内喹啉-2荧光的淬灭、原子吸收光谱法以及54Mn2+的摄取来监测分离的肝细胞质膜上Mn2+的流入。使用喹啉-2测量其他二价金属离子的流入。2. 在类似于细胞质空间中存在的离子条件下,Mn2+、Zn2+、Co2+、Ni2+和Cd2+均可淬灭Ca2(+)-喹啉-2溶液的荧光。3. 向加载有喹啉-2的细胞中添加Mn2+、Zn2+、Co2+、Ni2+或Cd2+会导致细胞内喹啉-2荧光随时间下降。荧光下降速率与Mn2+浓度的关系图在100微摩尔/升Mn2+时达到平台期。4. 在血管加压素存在下,Mn2+诱导的荧光下降速率增加20%。200微摩尔/升维拉帕米可完全抑制血管加压素的作用。肾上腺素、血管紧张素II和胰高血糖素也可刺激细胞内喹啉-2荧光因Mn2+诱导的下降速率。5. 在血管加压素或血管紧张素II存在下,Zn2+、Co2+、Ni2+或Cd2+诱导的荧光下降速率增加20%至190%。6. 通过原子吸收光谱法或使用54Mn2+测量的Mn2+摄取速率被1.3毫摩尔/升细胞外Ca2+抑制约20%,并被血管加压素刺激30%。7. 通过原子吸收光谱法或使用54Mn2+测量的Mn2+摄取与细胞外Mn2+浓度的关系图在添加Mn2+的0.05 - 1.0毫摩尔范围内呈双相,在1.0毫摩尔/升Mn2+时未达到平台期。8. 得出以下结论:(i) 肝细胞具有基础和受体激活的二价阳离子流入系统,每个系统对金属离子具有广泛的特异性,(ii) 受体激活的二价阳离子流入系统是受体操纵的Ca2+通道。
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