OLMSTEAD E G
J Gen Physiol. 1960 Nov;44(2):227-33. doi: 10.1085/jgp.44.2.227.
Rabbit erythrocytes were washed in buffered NaCl solutions isotonic with rabbit serum (Delta(t) -0.558 degrees C.) and suspended in buffered NaCl solutions of tonicity equidistant from intracellular tonicity (Delta(t) = -0.558 degrees C. +/- 0.112 degrees C.) of varying pH and incubated at varying temperatures. After incubation, the freezing point depression (Delta(t)) was measured on the supernatant. Change in the Delta(t) measured change in the water content of the extracellular solutions-water being withdrawn by erythrocytes (W(I)) from the hypotonic solutions and added (W(E)) to the hypertonic solutions. W(E) was always less than W(I) and was inversely proportional to the pH in the range 6.5-8.0. W(E) was significantly increased by lowering the temperature of the cell suspension to 4 degrees C. W(I) was increased by raising or lowering the pH or raising the temperature of the cell suspension. W(E) x W(I) not equal k. W(E) and W(I) were affected differently by changes in pH and temperature. It was concluded that W(E) and W(E) were probably under different physicochemical control.
兔红细胞在与兔血清等渗的缓冲氯化钠溶液(Δ(t) -0.558℃)中洗涤,并悬浮于与细胞内张力等距的缓冲氯化钠溶液(Δ(t) = -0.558℃±0.112℃)中,这些溶液具有不同的pH值,并在不同温度下孵育。孵育后,测量上清液的冰点降低值(Δ(t))。Δ(t)的变化测量了细胞外溶液含水量的变化——水被红细胞从低渗溶液中吸出(W(I))并添加到高渗溶液中(W(E))。W(E)总是小于W(I),并且在6.5 - 8.0范围内与pH值成反比。通过将细胞悬液温度降至4℃,W(E)显著增加。通过升高或降低pH值或升高细胞悬液温度,W(I)增加。W(E)×W(I)不等于k。W(E)和W(I)受pH值和温度变化的影响不同。得出的结论是,W(E)和W(E)可能受不同的物理化学控制。
