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钠依赖性核苷转运体在兔角膜上的功能表达:对阿昔洛韦和碘苷角膜渗透的作用。

Functional expression of a sodium dependent nucleoside transporter on rabbit cornea: Role in corneal permeation of acyclovir and idoxuridine.

作者信息

Majumdar Soumyajit, Gunda Sriram, Mitra Ashim

机构信息

Division of Pharmaceutical Sciences, School of Pharmacy, University of Missouri-Kansas City, Kansas City, MO, USA.

出版信息

Curr Eye Res. 2003 Mar-Apr;26(3-4):175-83. doi: 10.1076/ceyr.26.3.175.14895.

DOI:10.1076/ceyr.26.3.175.14895
PMID:12815545
Abstract

PURPOSE

The major objectives were to investigate functional expression of nucleoside transporters on the rabbit cornea and to delineate mechanism of corneal permeation of acyclovir (ACV) and idoxuridine (IDU). Methods. Transport studies were conducted with isolated rabbit corneas at 34 degrees C using [(3)H]thymidine, [(3)H]ACV and [(3)H]IDU.

RESULTS

Thymidine transport across rabbit cornea comprised of saturable (K(m) = 14.9 +/- 9.7 microM and V(max) = 0.045 +/- 0.0087 nmol/min) and non saturable (k(d) = 0.00015 +/- 0.000013 microl/min) components. Both purine and pyrimidine nucleosides including inosine inhibited transport of [(3)H]thymidine. However, nucleobases adenine and thymine did not have any inhibitory effect on thymidine transport which was sodium dependent with a Na(+): thymidine coupling ratio of greater than 1 : 1 indicating that the nucleoside transporter is of the N3 type. Although IDU inhibited transport of [(3)H]thymidine, unlabeled IDU and thymidine did not inhibit [(3)H]IDU transport suggesting that IDU was binding to the transporter but was not translocated by it. ACV did not affect transport of [(3)H]thymidine. Moreover, thymidine, adenine or unlabeled ACV did not inhibit [(3)H]ACV transport. Permeability coefficients of ACV and IDU over a 4 fold concentration range did not show any significant difference confirming that these antiviral agents permeate the cornea by passive diffusional mechanism.

CONCLUSION

Functional expression of a N3 type sodium dependent nucleoside transporter has been demonstrated on the rabbit cornea. Antiviral nucleoside analogs ACV and IDU are not substrates for this transporter and appear to permeate the cornea by simple passive diffusion.

摘要

目的

主要目的是研究核苷转运体在兔角膜上的功能表达,并阐明阿昔洛韦(ACV)和碘苷(IDU)的角膜渗透机制。方法:在34℃下,使用[³H]胸苷、[³H]ACV和[³H]IDU对分离的兔角膜进行转运研究。

结果

胸苷跨兔角膜的转运由可饱和成分(K(m)=14.9±9.7微摩尔,V(max)=0.045±0.0087纳摩尔/分钟)和不饱和成分(k(d)=0.00015±0.000013微升/分钟)组成。包括肌苷在内的嘌呤和嘧啶核苷均抑制[³H]胸苷的转运。然而,核苷酸碱基腺嘌呤和胸腺嘧啶对胸苷转运没有任何抑制作用,胸苷转运是钠依赖性的,Na⁺:胸苷偶联比大于1:1,表明核苷转运体为N3型。虽然IDU抑制[³H]胸苷的转运,但未标记的IDU和胸苷不抑制[³H]IDU的转运,这表明IDU与转运体结合但未被其转运。ACV不影响[³H]胸苷的转运。此外,胸苷、腺嘌呤或未标记的ACV不抑制[³H]ACV的转运。在4倍浓度范围内,ACV和IDU的渗透系数没有显示出任何显著差异,证实这些抗病毒药物通过被动扩散机制渗透角膜。

结论

已证实在兔角膜上存在N3型钠依赖性核苷转运体的功能表达。抗病毒核苷类似物ACV和IDU不是该转运体的底物,似乎通过简单的被动扩散渗透角膜。

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