编码F-box蛋白的5个人类基因:人类肿瘤中的染色体定位和分析。

D S Chiaur, S Murthy, C Cenciarelli, W Parks, M Loda, G Inghirami, D Demetrick, M Pagano
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引用次数: 32

摘要

F-box蛋白(Fbp)家族的成员具有大约40个氨基酸的F-box基序。SCF复合物(由Skp1、cullin和许多Fbps中的一个组成)作为蛋白质-泛素连接酶,控制真核细胞周期的G(1)/S转变。SCF复合物的底物特异性是由不同的Fbp亚基的存在决定的,这些亚基可以招募特定的底物进行泛素化。在某些肿瘤中已经观察到细胞调节蛋白不受控制的降解,不受控制的泛素连接酶可能在细胞周期调节蛋白降解的改变中起作用。我们最近发现了一个人类Fbps家族。作为确定FBP基因是否参与人类肿瘤的第一步,我们通过荧光原位杂交(FISH)绘制了5个FBP基因的染色体位置,分别为10q24 (BTRC别名β - trcp /FBW1a)、9q34 (FBXW2别名FBW2)、13q22 (FBXL3A别名FBL3a)、5p12 (FBXO4别名FBX4)和6q25- >q26 (FBXO5别名FBX5)。由于其中大多数是肿瘤中经常改变的染色体位点,我们通过Southern杂交和FISH筛选了42个人类肿瘤细胞系和48个人类肿瘤样本。虽然编码β - trcp /Fbw1a、Fbw2、Fbx4和Fbx5的基因未发现明显改变,但在13个小细胞癌细胞系中有4个发现FBXL3A基因杂合缺失。这是对人类肿瘤中Fbps编码基因的首次评估。
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Five human genes encoding F-box proteins: chromosome mapping and analysis in human tumors.

Members of the F-box protein (Fbp) family are characterized by an approximately 40 amino acid F-box motif. SCF complexes (formed by Skp1, cullin, and one of many Fbps) act as protein-ubiquitin ligases that control the G(1)/S transition of the eukaryotic cell cycle. The substrate specificity of SCF complexes is determined by the presence of different Fbp subunits that recruit specific substrates for ubiquitination. Unchecked degradation of cellular regulatory proteins has been observed in certain tumors and it is possible that deregulated ubiquitin ligases play a role in the altered degradation of cell cycle regulators. We have recently identified a family of human Fbps. As a first step aimed at determining if FBP genes could be involved in human neoplasia, we have mapped the chromosome positions of 5 FBP genes by fluorescence in situ hybridization (FISH) to 10q24 (BTRC alias beta-TRCP/FBW1a), 9q34 (FBXW2 alias FBW2), 13q22 (FBXL3A alias FBL3a), 5p12 (FBXO4 alias FBX4) and 6q25-->q26 (FBXO5 alias FBX5). Since most of these are chromosomal loci frequently altered in tumors, we have screened 42 human tumor cell lines and 48 human tumor samples by Southern hybridization and FISH. While no gross alterations of the genes encoding beta-Trcp/Fbw1a, Fbw2, Fbx4 and Fbx5 were found, heterozygous deletion of the FBXL3A gene was found in four of 13 small cell carcinoma cell lines. This is the first evaluation of genes encoding Fbps in human tumors.

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