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Nkx3.1基因座的单倍剂量不足。肿瘤发生过程中随机、剂量敏感基因调控的一个范例。

Haploinsufficiency at the Nkx3.1 locus. A paradigm for stochastic, dosage-sensitive gene regulation during tumor initiation.

作者信息

Magee Jeffrey A, Abdulkadir Sarki A, Milbrandt Jeffrey

机构信息

Department of Pathology, Division of Laboratory Medicine, Washington University School of Medicine, 660 South Euclid Avenue, St Louis, MO 63110, USA.

出版信息

Cancer Cell. 2003 Mar;3(3):273-83. doi: 10.1016/s1535-6108(03)00047-3.

Abstract

Tumorigenesis requires sequential accumulation of multiple genetic lesions. In the prostate, tumor initiation is often linked to loss of heterozygosity at the Nkx3.1 locus. In mice, loss of even one Nkx3.1 allele causes prostatic epithelial hyperplasia and eventual prostatic intraepithelial neoplasia (PIN) formation. Here we demonstrate that Nkx3.1 allelic loss extends the proliferative stage of regenerating luminal cells, leading to epithelial hyperplasia. Microarray analysis identified Nkx3.1 target genes, many of which show exquisite dosage sensitivity. The number of Nkx3.1 alleles determines the relative probabilities of stochastic activation or inactivation of a given target gene. Thus, loss of a single Nkx3.1 allele likely results in hyperplasia and PIN by increasing the probability of completely inactivating select Nkx3.1-regulated pathways within a subset of affected cells.

摘要

肿瘤发生需要多个基因损伤的顺序积累。在前列腺中,肿瘤起始通常与Nkx3.1基因座杂合性缺失有关。在小鼠中,即使一个Nkx3.1等位基因缺失也会导致前列腺上皮增生并最终形成前列腺上皮内瘤变(PIN)。在此我们证明,Nkx3.1等位基因缺失延长了再生管腔细胞的增殖阶段,导致上皮增生。微阵列分析确定了Nkx3.1靶基因,其中许多显示出精确的剂量敏感性。Nkx3.1等位基因的数量决定了给定靶基因随机激活或失活的相对概率。因此,单个Nkx3.1等位基因的缺失可能通过增加在一部分受影响细胞中完全失活特定Nkx3.1调控途径的概率而导致增生和PIN。

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