Cheng Yue, Ko Josephine M Y, Lung Hong L, Lo Paulisally H Y, Stanbridge Eric J, Lung Maria L
Department of Biology, Hong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong Kong (Special Administrative Region), China.
Genes Chromosomes Cancer. 2003 Aug;37(4):359-68. doi: 10.1002/gcc.10228.
In many cancers, including nasopharyngeal carcinoma (NPC), extensive and multiple regions of allelic loss occur on chromosome 14. However, to date no functionally conclusive tumor suppressor genes have yet been identified on this chromosome. Through use of the monochromosome transfer technique, this study provides functional evidence for the importance of two discrete regions of chromosome 14. A newly established A9 mouse donor cell line containing an intact copy of chromosome 14 was used for transfer of this intact chromosome into the NPC HONE1 cell line. Twelve independently established microcell hybrids demonstrated uniform loss of specific chromosome 14 loci from both endogenous and exogenous alleles. By microsatellite typing and fluorescence in situ hybridization with BAC probes, the two critical regions were localized to 14q11.2-13.1 and 14q32.1. Selective elimination of these regions during hybrid selection was strongly associated with both hybrid survival and tumor growth in vivo. This functional evidence now narrows down the candidate areas for further studies and suggests that at least two hitherto unidentified growth-related genes localized on two critical regions of chromosome arm 14q play an important role in tumorigenesis.
在包括鼻咽癌(NPC)在内的许多癌症中,14号染色体上会出现广泛且多个区域的等位基因缺失。然而,迄今为止,该染色体上尚未鉴定出功能确凿的肿瘤抑制基因。通过使用单染色体转移技术,本研究为14号染色体上两个离散区域的重要性提供了功能证据。一个新建立的含有完整14号染色体拷贝的A9小鼠供体细胞系被用于将这条完整染色体转移到NPC HONE1细胞系中。十二个独立建立的微细胞杂种显示,内源性和外源性等位基因的特定14号染色体位点均出现一致缺失。通过微卫星分型和使用BAC探针的荧光原位杂交,这两个关键区域被定位到14q11.2 - 13.1和14q32.1。在杂种选择过程中对这些区域的选择性消除与体内杂种存活和肿瘤生长均密切相关。这一功能证据现在缩小了进一步研究的候选区域,并表明至少两个迄今未鉴定的位于14号染色体臂两个关键区域的生长相关基因在肿瘤发生中起重要作用。
