Kregenow F M
J Gen Physiol. 1971 Oct;58(4):372-95. doi: 10.1085/jgp.58.4.372.
Duck erythrocytes were incubated in hypotonic media at tonicities which do not produce hemolysis. The cells' response can be divided into two phases: an initial rapid phase of osmotic swelling and a second more prolonged phase (volume regulatory phase) in which the cells shrink until they approach their initial isotonic volume. Shrinkage associated with the volume regulatory phase is the consequence of a nearly isosmotic loss of KCl and water from the cell. The potassium loss results from a transient increase in K efflux. There is also a small reduction in Na permeability. Changes in cell size during the volume regulatory phase are not altered by 10(-4)M ouabain although this concentration of ouabain does change the cellular cation content. The over-all response of duck erythrocytes is considered as an example of "isosmotic intracellular regulation," a term used to describe a form of volume regulation common to euryhaline invertebrates which is achieved by adjusting the number of effective intracellular osmotic particles. The volume regulatory phase is discussed as the product of a membrane mechanism which is sensitive to some parameter associated with cell volume and is capable of regulating the loss of potassium from the cell. This mechanism is able to regulate cell size when the Na-K exchange, ouabain-inhibitable pump mechanism is blocked.
将鸭红细胞置于不会导致溶血的低渗介质中进行孵育。细胞的反应可分为两个阶段:初始的快速渗透肿胀阶段和第二个持续时间更长的阶段(体积调节阶段),在此阶段细胞会收缩,直至接近其初始等渗体积。与体积调节阶段相关的细胞收缩是细胞内氯化钾和水几乎等渗性流失的结果。钾的流失是钾外流短暂增加的结果。钠通透性也有小幅降低。尽管该浓度的哇巴因确实会改变细胞阳离子含量,但在体积调节阶段细胞大小的变化不会被10(-4)M哇巴因改变。鸭红细胞的总体反应被视为“等渗性细胞内调节”的一个例子,该术语用于描述广盐性无脊椎动物常见的一种体积调节形式,它是通过调节细胞内有效渗透颗粒的数量来实现的。体积调节阶段被认为是一种膜机制的产物,该膜机制对与细胞体积相关的某些参数敏感,并且能够调节细胞内钾的流失。当钠钾交换(哇巴因可抑制的泵机制)被阻断时,这种机制能够调节细胞大小。