人类皮肤在紫外线A照射过程中的非酶促一氧化氮生成：实验装置与测量方法

Nonenzymatic nitric oxide formation during UVA irradiation of human skin: experimental setups and ways to measure.

作者信息

Suschek Christoph V, Paunel Adnana, Kolb-Bachofen Victoria

机构信息

Institute of Biochemistry and Molecular Biology II, Heinrich-Heine-University of Düesseldorf, NRW, Germany.

出版信息

Methods Enzymol. 2005;396:568-78. doi: 10.1016/S0076-6879(05)96048-5.

DOI:10.1016/S0076-6879(05)96048-5

PMID:16291263

Abstract

Many of the local ultraviolet (UV)-induced responses, including erythema and edema formation, inflammation, premature aging, and immune suppression, can be influenced by nitric oxide synthase (NOS)-produced NO, which plays a pivotal role in cutaneous physiology. Besides enzyme-mediated NO production, UV radiation triggers an enzyme-independent NO formation in human skin. This occurs due to decomposition of photoreactive nitrogen oxides like nitrite and S-nitrosothiols, which are present in human skin at relatively high concentrations and lead to high-output formation of bioactive NO. This enzyme-independent NO formation opens a new field in cutaneous physiology and will extend our understanding of mechanisms contributing to skin aging, inflammation, and cancerogenesis but also functional protection. Therefore, it is of high interest to examine the chemical storage forms of these potential NO-generating agents in skin, the mechanisms and kinetics of their decomposition, and their biological relevance.

摘要

许多局部紫外线（UV）诱导的反应，包括红斑和水肿形成、炎症、过早衰老和免疫抑制，都可能受到一氧化氮合酶（NOS）产生的一氧化氮（NO）的影响，NO在皮肤生理学中起着关键作用。除了酶介导的NO生成外，紫外线辐射还会在人体皮肤中引发一种不依赖酶的NO形成。这是由于光反应性氮氧化物如亚硝酸盐和S-亚硝基硫醇的分解所致，这些物质在人体皮肤中以相对较高的浓度存在，并导致生物活性NO的高产量形成。这种不依赖酶的NO形成在皮肤生理学中开辟了一个新领域，将扩展我们对导致皮肤衰老、炎症和癌症发生以及功能保护机制的理解。因此，研究这些潜在的NO生成剂在皮肤中的化学储存形式、它们的分解机制和动力学以及它们的生物学相关性具有很高的研究价值。

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人类皮肤在紫外线A照射过程中的非酶促一氧化氮生成：实验装置与测量方法

Nonenzymatic nitric oxide formation during UVA irradiation of human skin: experimental setups and ways to measure.

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