磷（V）卟啉介导的单线态氧和电子转移机制对蛋白质光致敏损伤的测定

Determination of Singlet Oxygen and Electron Transfer Mediated Mechanisms of Photosensitized Protein Damage by Phosphorus(V)porphyrins.

作者信息

Hirakawa Kazutaka, Umemoto Hironobu, Kikuchi Ryo, Yamaguchi Hiroki, Nishimura Yoshinobu, Arai Tatsuo, Okazaki Shigetoshi, Segawa Hiroshi

出版信息

Chem Res Toxicol. 2015 Feb 16;28(2):262-7. doi: 10.1021/tx500492w.

DOI:10.1021/tx500492w

PMID:25616052

Abstract

The mechanism of photosensitized protein damage byphosphorus(V) tetraphenylporphyrin derivatives (P(V)TPPs) wasquantitatively clarified. P(V)TPPs bound to human serum albumin(HSA), a water-soluble protein, and damaged its tryptophan residueduring photoirradiation. P(V)TPPs photosensitized singlet oxygen ((1)O(2))generation, and the contribution of (1)O(2) to HSA damage was confirmedby the inhibitory effect of sodium azide, a (1)O(2) quencher. However,sodium azide could not completely inhibit HSA damage, suggesting thecontribution of an electron transfer mechanism to HSA damage. Thedecrement in the fluorescence lifetime of P(V)TPPs by HSA supportedthe electron transfer mechanism. The contribution of these processes could be determined by the kinetic analysis of the effect ofsodium azide on the photosensitized protein damage by P(V)TPPs.

摘要

磷（V）四苯基卟啉衍生物（P（V）TPPs）对蛋白质进行光致敏损伤的机制得到了定量阐明。P（V）TPPs与人血清白蛋白（HSA，一种水溶性蛋白质）结合，并在光照射过程中损伤其色氨酸残基。P（V）TPPs使单线态氧（¹O₂）产生光致敏作用，通过¹O₂猝灭剂叠氮化钠的抑制作用证实了¹O₂对HSA损伤的作用。然而，叠氮化钠不能完全抑制HSA损伤，这表明电子转移机制对HSA损伤也有作用。HSA使P（V）TPPs荧光寿命缩短，这支持了电子转移机制。通过对叠氮化钠对P（V）TPPs光致敏蛋白质损伤作用的动力学分析，可以确定这些过程的作用。

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磷（V）卟啉介导的单线态氧和电子转移机制对蛋白质光致敏损伤的测定

Determination of Singlet Oxygen and Electron Transfer Mediated Mechanisms of Photosensitized Protein Damage by Phosphorus(V)porphyrins.

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