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烟雾击倒模型显示FHIT是血红素加氧酶1的一种抑制因子。

A knockdown with smoke model reveals FHIT as a repressor of Heme oxygenase 1.

作者信息

Boylston Jennifer A, Brenner Charles

机构信息

a Department of Biochemistry and Program in Molecular and Cellular Biology; Carver College of Medicine ; University of Iowa ; Iowa City , IA USA.

出版信息

Cell Cycle. 2014;13(18):2913-30. doi: 10.4161/15384101.2014.946858.

DOI:10.4161/15384101.2014.946858
PMID:25486479
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4614990/
Abstract

Fragile histidine triad (FHIT) gene deletions are among the earliest and most frequent events in carcinogenesis, particularly in carcinogen-exposed tissues. Though FHIT has been established as an authentic tumor suppressor, the mechanism underlying tumor suppression remains opaque. Most experiments designed to clarify FHIT function have analyzed the consequence of re-expressing FHIT in FHIT-negative cells. However, carcinogenesis occurs in cells that transition from FHIT-positive to FHIT-negative. To better understand cancer development, we induced FHIT loss in human bronchial epithelial cells with RNA interference. Because FHIT is a demonstrated target of carcinogens in cigarette smoke, we combined FHIT silencing with cigarette smoke extract (CSE) exposure and measured gene expression consequences by RNA microarray. The data indicate that FHIT loss enhances the expression of a set of oxidative stress response genes after exposure to CSE, including the cytoprotective enzyme heme oxygenase 1 (HMOX1) at the RNA and protein levels. Data are consistent with a mechanism in which Fhit protein is required for accumulation of the transcriptional repressor of HMOX1, Bach1 protein. We posit that by allowing superinduction of oxidative stress response genes, loss of FHIT creates a survival advantage that promotes carcinogenesis.

摘要

脆性组氨酸三联体(FHIT)基因缺失是致癌过程中最早且最常见的事件之一,尤其是在暴露于致癌物的组织中。尽管FHIT已被确认为一种真正的肿瘤抑制因子,但其肿瘤抑制的潜在机制仍不明确。大多数旨在阐明FHIT功能的实验都分析了在FHIT阴性细胞中重新表达FHIT的后果。然而,致癌作用发生在从FHIT阳性转变为FHIT阴性的细胞中。为了更好地理解癌症发展,我们利用RNA干扰在人支气管上皮细胞中诱导FHIT缺失。由于FHIT是香烟烟雾中致癌物的一个已证实的靶点,我们将FHIT沉默与香烟烟雾提取物(CSE)暴露相结合,并通过RNA微阵列测量基因表达的后果。数据表明,FHIT缺失会增强暴露于CSE后一组氧化应激反应基因的表达,包括在RNA和蛋白质水平上的细胞保护酶血红素加氧酶1(HMOX1)。数据与一种机制一致,即Fhit蛋白是HMOX1转录抑制因子Bach1蛋白积累所必需的。我们推测,通过允许氧化应激反应基因的超诱导,FHIT缺失创造了一种促进致癌作用的生存优势。

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