虹鳟(Salmo gairdneri)灌流鳃对钠离子的转运机制
On the mechanisms of sodium ion transport by the irrigated gills of rainbow trout (Salmo gairdneri).
作者信息
Kerstetter T H, Kirschner L B, Rafuse D D
出版信息
J Gen Physiol. 1970 Sep;56(3):342-59. doi: 10.1085/jgp.56.3.342.
Abstract
Sodium uptake by rainbow trout gills has been investigated with a small-volume system enabling rapid, successive flux measurements in different solutions. Sodium influx obeys a Michaelis-Menten type relation, with a K(m) of 0.46 mM, and uptake proceeds unimpaired in the absence of penetrating counter-ions. This suggests a coupled cation exchange. Ammonia output is about the same as the Na(+) influx when external [Na(+)] is 1 mM, but at higher or lower Na(+) influxes, the correlation does not hold. A progressive downward shift in the pH of the irrigating medium as Na(+) influx increases indicates that the exchanging cation is hydrogen. In support of this, acetazolamide, which inhibits Na(+) uptake, also prevents the downward pH shift. The potential across the gill is about 10 mv, body fluids positive, in NaCl solutions up to 10 mM, and is little affected by changes in Na(+) concentration below that. Finally, evidence for locating the rate-limiting step at the outer membrane of the epithelium is presented.
摘要
利用一个小体积系统对虹鳟鱼鳃对钠的摄取进行了研究,该系统能够在不同溶液中快速、连续地测量通量。钠流入遵循米氏类型关系,米氏常数(K(m))为0.46 mM,并且在没有可穿透的反离子的情况下摄取不受影响。这表明存在耦合阳离子交换。当外部[Na(+)]为1 mM时,氨输出与Na(+)流入大致相同,但在较高或较低的Na(+)流入时,这种相关性不成立。随着Na(+)流入增加,灌注介质的pH值逐渐下降,这表明交换阳离子是氢离子。支持这一点的是,抑制Na(+)摄取的乙酰唑胺也能防止pH值下降。在高达10 mM的NaCl溶液中,鳃两侧的电位约为10 mV,体液呈正,并且在低于该浓度的Na(+)浓度变化时几乎不受影响。最后,给出了将限速步骤定位在上皮细胞膜外的证据。
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