Pattison S E, Cousins R J
Am J Physiol. 1986 Jun;250(6 Pt 1):E677-85. doi: 10.1152/ajpendo.1986.250.6.E677.
The kinetics of 65Zn2+ uptake and exchange by hepatocytes in primary culture have been examined in detail to provide a basis for analyzing hormonal regulation of hepatic zinc metabolism. 65Zn2+ uptake was found to be a biphasic process. The slow phase represents an exchange between Zn2+ in the medium and preexisting, intracellular zinc pools. This exchange rate was saturable with a medium zinc concentration of 9.5 microM eliciting one-half the maximum exchange rate and a maximum exchange rate of 9.9 pmol Zn2+ . min-1 . mg protein-1 in the presence of bovine serum albumin. In the absence of albumin, a secondary, nonsaturable uptake rate was observed. The slow phase was relatively selective, and of the divalent transition metal ions tested, only Cd2+ and Mn2+ caused inhibition. The rate of exchange suggests total hepatocyte zinc has a turnover rate of approximately 30 h. The fast phase of 65Zn2+ reflects net Zn2+ accumulation into a labile pool. The initial rates for this process were too fast to be measured accurately, but steady-state measurements allowed determination of the labile pool size. The pool dimensions saturated in the presence [Kapp = 28.6 microM; pool capacity = 0.44 nmol Zn2+/mg protein] and absence [Kapp = 11.8 microM; pool capacity = 0.34 nmol Zn2+/mg protein] of bovine serum albumin. Kinetics and equilibria of Zn2+ uptake into the labile pool suggest that the latter acts as a source of Zn2+ for the slow-exchange phase. Dexamethasone stimulated slow Zn2+ exchange and also increased the labile pool size. The data suggest physiological factors alter hepatic zinc metabolism by influencing both intracellular Zn2+ pools.
为了分析肝脏锌代谢的激素调节机制,对原代培养的肝细胞摄取和交换(^{65}Zn^{2 + })的动力学进行了详细研究。发现(^{65}Zn^{2 + })摄取是一个双相过程。慢相代表培养基中的(Zn^{2 + })与细胞内预先存在的锌池之间的交换。这种交换速率在培养基锌浓度为(9.5)微摩尔时达到饱和,此时交换速率为最大交换速率的一半,在牛血清白蛋白存在的情况下,最大交换速率为(9.9)皮摩尔(Zn^{2 + }\cdot)分钟(^{-1}\cdot)毫克蛋白(^{-1})。在没有白蛋白的情况下,观察到了二级非饱和摄取速率。慢相具有相对选择性,在所测试的二价过渡金属离子中,只有(Cd^{2 + })和(Mn^{2 + })会产生抑制作用。交换速率表明肝细胞总锌的周转率约为(30)小时。(^{65}Zn^{2 + })的快相反映了(Zn^{2 + })净积累到一个不稳定池中。这个过程的初始速率太快,无法准确测量,但稳态测量可以确定不稳定池的大小。在有牛血清白蛋白([K_{app}=28.6)微摩尔;池容量( = 0.44)纳摩尔(Zn^{2 + }/)毫克蛋白()]和没有牛血清白蛋白([K_{app}=11.8)微摩尔;池容量( = 0.34)纳摩尔(Zn^{2 + }/)毫克蛋白()]的情况下,池的大小都达到了饱和。(Zn^{2 + })摄取到不稳定池的动力学和平衡表明,后者作为慢交换相的(Zn^{2 + })来源。地塞米松刺激了(Zn^{2 + })的慢交换,也增加了不稳定池的大小。数据表明生理因素通过影响细胞内(Zn^{2 + })池来改变肝脏锌代谢。
