uvb诱导的免疫抑制的分子方面。

J Garssen, R J Vandebriel, H van Loveren
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引用次数: 20

摘要

紫外线可以影响局部以及全身的免疫系统,导致对肿瘤细胞和/或感染的抵抗力受损。在产生生物效应之前,中波紫外线必须被皮肤中的发色团吸收,在那里它会发出信号,导致皮肤或其他地方的免疫反应发生改变。这些改变的免疫反应可能是由细胞因子谱、生长因子和共刺激信号等的改变构成的。关于光感受器的身份已经提出了几个假设。皮肤中的一种光感受器是尿酸(UCA),它可以从反式异构化为顺式异构。顺式异构体具有免疫抑制特性。另一种光感受器是DNA,它也能有效地吸收紫外线波长。吸收后,DNA分子的结构发生改变。这种改变可能导致导致免疫毒性结果的基因激活(基因表达改变)。研究表明,紫外光作用下DNA光产物的形成与许多基因的激活有关。一些研究表明,紫外线诱导的DNA损伤,以环丁基嘧啶二聚体的形式,在紫外线诱导的局部和全身免疫系统抑制中起作用。在注射含有切除修复酶T4内切酶脂质体的小鼠中,与对照小鼠相比,uvb诱导的二聚体被更有效地去除。在这些小鼠中,紫外线诱导的免疫抑制被阻止。Kripke等人的初步研究表明,可能涉及DNA损伤诱导的IL-IO和TNF α的释放。在对DNA修复缺陷小鼠的初步研究中,与正常窝鼠相比,诱导免疫抑制所需的紫外线剂量较低。这些研究表明,基因表达的改变在uvb诱导的免疫抑制中起着关键作用。除了UCA和DNA在紫外线诱导的免疫抑制中发挥作用外,最近还假设信号转导(egf受体介导的磷脂酶A2上调)和转录因子(NF κ B, p91)参与了紫外线诱导的免疫调节。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Molecular aspects of UVB-induced immunosuppression.

Ultraviolet light can affect the immune system locally as well as systemically leading to an impaired resistance to neoplastic cells and/or infections. Prior to the biological effect, UVB must be absorbed by a chromophore in the skin where it will give a signal that can lead to an altered immune response in the skin or elsewhere. These altered immune responses may be constituted by alteration in among others: cytokine profile, growth factors and costimulatory signals. Several hypotheses about the identity of the photoreceptor have been put forward. One photoreceptor in the skin is urocanic acid (UCA), that can isomerize from the trans- to the cis-isomer. The cis-isomer has immunosuppressive properties. Another photoreceptor is DNA that also efficiently absorbs UV wavelengths. After absorption the structure of the DNA molecule is altered. This alteration might lead to gene activation responsible for the immunotoxic outcome (altered gene expression). It has been demonstrated that the formation of DNA photoproducts by UV light is associated with the activation of many genes. Several studies indicate that UV-induced DNA damage, in the form of cyclobutyl pyrimidine dimers plays a role in UV-induced suppression of the immune system locally as well as systemically. In mice that were injected with liposomes containing the excision repair enzyme T4 endonuclease UVB-induced dimers were removed more efficiently as compared to control mice. In these mice UV-induced immunosuppression was prevented. Pilot studies by Kripke et al. indicated that the release of IL-IO and TNF alpha that are both induced by DNA damage might be involved. In preliminary studies with mice that were deficient with respect to DNA repair lower doses of UV were needed for the induction of immunosuppression as compared to their normal littermates. These studies indicate that altered gene expression plays a pivotal role in UVB-induced immunosuppression. In addition to a role for UCA and DNA in UV-induced immunosuppression it is postulated recently that signal transduction (EGF-receptor mediated upregulation of phospholipase A2) and transcription factors (NF kappa B, p91) are involved in UV-induced immunomodulation.

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