Fiévet B, Perset F, Gabillat N, Guizouarn H, Borgese F, Ripoche P, Motais R
Laboratoire Jean Maetz, Commissariat à l'Energie Atomique (DBCM) and Centre National de la Recherche Scientifique (ERS 1253), BP 68, 06238 Villefranche-sur-Mer, France.
Proc Natl Acad Sci U S A. 1998 Sep 1;95(18):10996-1001. doi: 10.1073/pnas.95.18.10996.
When expressed in Xenopus oocytes, the trout red cell anion exchanger tAE1, but not the mouse exchanger mAE1, elicited a transport of electroneutral solutes (sorbitol, urea) in addition to the expected anion exchange activity. Chimeras constructed from mAE1 and tAE1 allowed us to identify the tAE1 domains involved in the induction of these transports. Expression of tAE1 (but not mAE1) is known to generate an anion conductance associated with a taurine transport. The present data provide evidence that (i) the capacity of tAE1 and tAE1 chimeras to generate urea and sorbitol permeability also was associated with an anion conductance; (ii) the same inhibitors affected both the permeability of solutes and anion conductance; and (iii) no measurable water transport was associated with the tAE1-dependent conductance. These results support the view that fish red blood cells, to achieve cell volume regulation in response to hypotonic swelling, activate a tAE1-associated anion channel that can mediate the passive transport of taurine and electroneutral solutes.
当在非洲爪蟾卵母细胞中表达时,鳟鱼红细胞阴离子交换蛋白tAE1,而非小鼠交换蛋白mAE1,除了预期的阴离子交换活性外,还引发了电中性溶质(山梨醇、尿素)的转运。由mAE1和tAE1构建的嵌合体使我们能够鉴定出参与诱导这些转运的tAE1结构域。已知tAE1(而非mAE1)的表达会产生与牛磺酸转运相关的阴离子电导。目前的数据表明:(i)tAE1和tAE1嵌合体产生尿素和山梨醇通透性的能力也与阴离子电导相关;(ii)相同的抑制剂会同时影响溶质的通透性和阴离子电导;(iii)没有可测量的水转运与tAE1依赖性电导相关。这些结果支持以下观点:鱼类红细胞为了响应低渗肿胀实现细胞体积调节,会激活一个与tAE1相关的阴离子通道,该通道可介导牛磺酸和电中性溶质的被动转运。