蟾蜍皮肤的电参数:福斯克林的影响。

G A Castillo, A Coviello, G G Orce
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引用次数: 5

摘要

foskolin在蟾蟾离体皮肤中以浓度依赖性的方式刺激了1.0 × 10(-6) ~ 2.4 × 10(-5) m之间的短路电流(SCC)和经膈电导(G),在后者浓度下,腺体分泌似乎也受到刺激。浸泡在林格氏溶液中的皮肤比不含氯化物的皮肤G的增加要大得多。增加的SCC被amiloride(一种两栖动物膜中钠运输的特异性阻断剂)所消除,而不考虑沐浴皮肤的溶液中存在的阴离子。在不含氯化物的皮肤溶液中,阿米洛利也降低了G值,但在有Cl-存在的皮肤中,G值仍然升高。暴露于福斯克林(4.4 x 10(-6) M)后SCC的增加,当沐浴在皮肤真皮侧的林格氏溶液中存在速尿(一种氯离子运输的特异性阻滞剂)时,SCC的增加没有改变。然而,对2.4 x 10(-5) M的福斯克林的反应被皮肤速尿显著降低;该抑制剂在无氯化物时无效。数据表明,福斯克林至少作用于两个部位:颗粒层细胞(钠运输的主要途径)和另一个部位(负责增加对氯化物的渗透性)。此外,在高浓度的药剂下,腺体分泌也受到刺激。这些数据表明腺苷酸环化酶-环AMP系统参与调节蟾蜍皮肤对钠和氯化物的渗透性,可能是通过不同的细胞类型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Electrical parameters of the toad skin: effects of forskolin.

Forskolin stimulated short-circuit current (SCC) and transepitelial electrical conductance (G) in the isolated skin of the toad Bufo arenarum in a concentration-dependent manner, between 1.0 x 10(-6) and 2.4 x 10(-5) M. At the latter concentration, glandular secretion appeared to be stimulated also. The increase in G was considerably greater in skins bathed in Ringer solution than in solutions containing no chloride. The increased SCC was abolished by amiloride, a specific blocker of sodium transport in amphibian membranes, irrespective of the anion present in the solution bathing the skin. G was also decreased by amiloride to control values in skins bathed in solutions without chloride, but remained elevated in the presence of Cl-. The increase in SCC following exposure to forskolin, 4.4 x 10(-6) M, was not altered when furosemide, a specific blocker of chloride transport, was present in the Ringer solution bathing the dermal side of the skin. The response to forskolin, 2.4 x 10(-5) M, however, was significantly decreased by dermal furosemide; the inhibitor was ineffective in the absence of chloride. The data indicate that forskolin acts on at least two sites: stratum granulosum cells (the main pathway for sodium transport, and an alternate site, responsible for the increase in permeability to chloride. In addition, at high concentration of the agent, glandular secretion is also stimulated. The data suggest that the adenylate cyclase-cyclic AMP system is involved in the regulation of the permeability of the toad skin to sodium and chloride, probably by separate cell types.

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