Ammann H, Noël J, Boulanger Y, Vinay P
Hôpital Notre-Dame de Montréal, Département de médecine, Université de Montréal, Québec, Canada.
Can J Physiol Pharmacol. 1990 Jan;68(1):57-67. doi: 10.1139/y90-008.
To examine the potential effect of the cellular ATP concentration and of the phosphate potential on the function of the sodium pump in intact renal cells, the ATP content of dog cortical tubules was first modified by a 30-min preincubation with one of the following effectors: 5 or 10 mM fructose, 2.5 mM adenosine 5'-monophosphate (AMP), or 2.5 mM adenosine in the presence of substrates (10 mM glutamine + 1 mM glutamate with either 10 mM lactate (low ATP) or 10 mM pyruvate (high ATP)). The tubules were then incubated in Krebs-Henseleit saline using two different phosphate concentrations and the same substrate mixture. The ATP content in tubular cells was modified by these treatments, ranging from 2.2 to 5.7 mM. The oxygen uptake by the tubules was measured before and after application of a small amount of nystatin (0.05 mM, 6 mumol/g wet wt.), added to impose an identical and submaximal increment of work to the Na(+)-K+ ATPase in tubules, irrespective of their ATP condition. This manoeuvre was followed by the addition of 1 mM ouabain to inhibit the sodium pump and quantify the respiration related to the activity of the Na+ pump. No significant effect of the ATP content on the respiratory cost of the Na(+)-K+ ATPase activity was noted when the [ATP] was above the normal concentration of approximately 3.0 mM before or after introduction of nystatin. In a second group of experiments, tubules were treated with 0.1 mM digitonin (13 mumol/g wet wt.) and resuspended in intracellular-like and sodium-free medium. The respiration was measured before and after the addition of increasing Mg-ATP concentrations (0-12 mM). A fixed quantity of Na+ (20 mM) was then introduced before ouabain was applied. The oxygen uptake was measured in these three conditions. We observed a fixed increment of ouabain-sensitive respiration upon stimulation of the pump activity by sodium at ATP concentrations ranging from 2 to 7 mM. The same observation applied when the free energy released from ATP hydrolysis ranged from -50 to -56 kJ.mol-1 and when the [ATP]/[ADP].[Pi] ratio ranged from 1.5 to 7.5 mM-1. These results suggest that the Na+:ATP stoichiometry of the Na(+)-K+ ATPase is not modified by [ATP] in dog cortical tubules when the ATP content is at or above the physiological value. Furthermore, the stoichiometry of the pump does not appear to change when the phosphate potential and (or) the free energy released from ATP hydrolysis are altered.
为研究细胞内ATP浓度和磷酸势对完整肾细胞中钠泵功能的潜在影响,首先通过与下列效应物之一进行30分钟预孵育来改变犬皮质肾小管的ATP含量:5或10 mM果糖、2.5 mM腺苷5'-单磷酸(AMP),或在底物存在下(10 mM谷氨酰胺 + 1 mM谷氨酸,同时添加10 mM乳酸(低ATP)或10 mM丙酮酸(高ATP))的2.5 mM腺苷。然后将肾小管置于含有两种不同磷酸盐浓度和相同底物混合物的Krebs-Henseleit盐溶液中孵育。这些处理改变了肾小管细胞中的ATP含量,范围在2.2至5.7 mM之间。在施加少量制霉菌素(0.05 mM,6 μmol/g湿重)前后测量肾小管的氧气摄取,添加制霉菌素是为了给肾小管中的Na(+)-K+ ATP酶施加相同的亚最大工作量增加,而不考虑其ATP状态。在添加制霉菌素之前或之后,当[ATP]高于正常浓度约3.0 mM时,未观察到ATP含量对Na(+)-K+ ATP酶活性的呼吸消耗有显著影响。在第二组实验中,用0.1 mM洋地黄皂苷(13 μmol/g湿重)处理肾小管,并将其重悬于类似细胞内且无钠的培养基中。在添加递增浓度的Mg-ATP(0 - 12 mM)之前和之后测量呼吸。然后在施加哇巴因之前引入固定量的Na+(20 mM)。在这三种条件下测量氧气摄取。我们观察到,当ATP浓度在2至7 mM范围内时,钠刺激泵活性会使哇巴因敏感呼吸有固定增加。当ATP水解释放的自由能在 - 50至 - 56 kJ.mol-1范围内以及[ATP]/[ADP].[Pi]比值在1.5至7.5 mM-1范围内时,也有相同的观察结果。这些结果表明,当ATP含量处于或高于生理值时,犬皮质肾小管中Na(+)-K+ ATP酶的Na+:ATP化学计量比不会因[ATP]而改变。此外,当磷酸势和(或)ATP水解释放的自由能改变时,泵的化学计量比似乎也不会改变。
