Kelemen C, Chien S, Artmann G M
Department of Cell Biophysics, University of Applied Sciences Aachen, D-52428 Juelich, Germany.
Biophys J. 2001 Jun;80(6):2622-30. doi: 10.1016/S0006-3495(01)76232-7.
We studied the effects of calcium ion concentration on the temperature dependence of rheological behavior of human red blood cells (RBCs) and concentrated hemoglobin solutions. Our previous study (G. M. Artmann, C. Kelemen, D. Porst, G. Büldt, and S. Chien, 1998, Biophys. J., 75:3179-3183) showed a critical temperature (Tc) of 36.4 +/- 0.3 degrees C at which the RBCs underwent a transition from non-passage to passage through 1.3 microm micropipettes in response to an aspiration pressure of -2.3 kPa. An increase in intracellular Ca2+ concentration by using the ionophore A23187 reduced the passability of intact RBCs through small micropipettes above T(c); the micropipette diameter needed for >90% passage increased to 1.7 microm. Viscometry of concentrated hemoglobin solutions (45 and 50 g/dl) showed a sudden viscosity transition at 36 +/- 1 degrees C (Tc(eta)) at all calcium concentrations investigated. Below Tc(eta), the viscosity value of the concentrated hemoglobin solution at 1.8 mM Ca(2+) was higher than that at other concentrations (0.2 microM, 9 mM, and 18 mM). Above Tc(eta), the viscosity was almost Ca2+ independent. At 1.8 mM Ca2+ and 36 +/- 1 degrees C, the activation energy calculated from the viscometry data showed a strong dependence on the hemoglobin concentration. We propose that the transition of rheological behavior is attributable to a high-to-low viscosity transition mediated by a partial release of the hemoglobin-bound water.
我们研究了钙离子浓度对人红细胞(RBC)和浓缩血红蛋白溶液流变行为温度依赖性的影响。我们之前的研究(G.M. Artmann、C. Kelemen、D. Porst、G. Büldt和S. Chien,1998年,《生物物理杂志》,75:3179 - 3183)表明,在-2.3 kPa的抽吸压力下,红细胞通过1.3微米微吸管时从非通过状态转变为通过状态的临界温度(Tc)为36.4±0.3摄氏度。使用离子载体A23187增加细胞内Ca2 +浓度会降低完整红细胞在高于Tc的温度下通过小微吸管的通过率;超过90%通过率所需的微吸管直径增加到1.7微米。对浓缩血红蛋白溶液(45和50 g/dl)进行的粘度测定表明,在所研究的所有钙浓度下,在36±1摄氏度(Tc(eta))时粘度会突然转变。在Tc(eta)以下,1.8 mM Ca(2+)时浓缩血红蛋白溶液的粘度值高于其他浓度(0.2 microM、9 mM和18 mM)时的值。在Tc(eta)以上,粘度几乎与Ca2 +无关。在1.8 mM Ca2 +和36±1摄氏度下,根据粘度测定数据计算出的活化能强烈依赖于血红蛋白浓度。我们认为流变行为的转变归因于由血红蛋白结合水的部分释放介导的高粘度到低粘度的转变。