跨分离的视网膜色素上皮和脉络膜的电位、电流及离子通量。
Potential, current, and ionic fluxes across the isolated retinal pigment epithelium and choriod.
作者信息
Lasansky A, De Fisch F W
出版信息
J Gen Physiol. 1966 May;49(5):913-24. doi: 10.1085/jgp.49.5.913.
Abstract
A flux chamber was utilized for in vitro studies of a membrane formed by the retinal pigment epithelium and choroid of the eye of the toad (Bufo arenarum and Bufo marinus). A transmembrane potential of 20 to 30 mv was found, the pigment epithelium surface positive with respect to the choroidal surface. Unidirectional fluxes of chloride, sodium, potassium, and calcium were determined in the absence of an electrochemical potential difference. A net transfer of chloride from pigment epithelium to choroid accounted for a major fraction of the mean short-circuit current. A small net flux of sodium from choroid to pigment epithelium was detected in Bufo marinus. In both species of toads, however, about one-third of the mean short-circuit current remained unaccounted for. Manometric determinations of bicarbonate suggested an uptake of this ion at the epithelial surface of the membrane but did not provide evidence of a relationship between this process and the short-circuit current.
摘要
使用通量室对蟾蜍(海滨蟾蜍和海蟾蜍)眼睛的视网膜色素上皮和脉络膜形成的膜进行体外研究。发现跨膜电位为20至30毫伏,色素上皮表面相对于脉络膜表面呈阳性。在不存在电化学势差的情况下测定了氯、钠、钾和钙的单向通量。氯从色素上皮向脉络膜的净转移占平均短路电流的大部分。在海蟾蜍中检测到少量钠从脉络膜向色素上皮的净通量。然而,在这两种蟾蜍中,约三分之一的平均短路电流仍无法解释。对碳酸氢盐的测压测定表明该离子在膜的上皮表面被摄取,但没有提供该过程与短路电流之间关系的证据。
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