Megonigal M D, Rappaport E F, Jones D H, Williams T M, Lovett B D, Kelly K M, Lerou P H, Moulton T, Budarf M L, Felix C A
Division of Oncology, Children's Hospital of Philadelphia, Philadelphia, PA 19104, USA.
Proc Natl Acad Sci U S A. 1998 May 26;95(11):6413-8. doi: 10.1073/pnas.95.11.6413.
We examined the MLL genomic translocation breakpoint in acute myeloid leukemia of infant twins. Southern blot analysis in both cases showed two identical MLL gene rearrangements indicating chromosomal translocation. The rearrangements were detectable in the second twin before signs of clinical disease and the intensity relative to the normal fragment indicated that the translocation was not constitutional. Fluorescence in situ hybridization with an MLL-specific probe and karyotype analyses suggested t(11;22)(q23;q11. 2) disrupting MLL. Known 5' sequence from MLL but unknown 3' sequence from chromosome band 22q11.2 formed the breakpoint junction on the der(11) chromosome. We used panhandle variant PCR to clone the translocation breakpoint. By ligating a single-stranded oligonucleotide that was homologous to known 5' MLL genomic sequence to the 5' ends of BamHI-digested DNA through a bridging oligonucleotide, we formed the stem-loop template for panhandle variant PCR which yielded products of 3.9 kb. The MLL genomic breakpoint was in intron 7. The sequence of the partner DNA from band 22q11.2 was identical to the hCDCrel (human cell division cycle related) gene that maps to the region commonly deleted in DiGeorge and velocardiofacial syndromes. Both MLL and hCDCrel contained homologous CT, TTTGTG, and GAA sequences within a few base pairs of their respective breakpoints, which may have been important in uniting these two genes by translocation. Reverse transcriptase-PCR amplified an in-frame fusion of MLL exon 7 to hCDCrel exon 3, indicating that an MLL-hCDCrel chimeric mRNA had been transcribed. Panhandle variant PCR is a powerful strategy for cloning translocation breakpoints where the partner gene is undetermined. This application of the method identified a region of chromosome band 22q11.2 involved in both leukemia and a constitutional disorder.
我们检测了婴儿双胞胎急性髓系白血病中的MLL基因组易位断点。两例病例的Southern印迹分析均显示出两个相同的MLL基因重排,表明存在染色体易位。在临床疾病迹象出现之前,在第二个双胞胎中可检测到重排,且相对于正常片段的强度表明该易位并非先天性的。用MLL特异性探针进行荧光原位杂交和核型分析提示t(11;22)(q23;q11.2)破坏了MLL。来自MLL的已知5'序列但来自染色体带22q11.2的未知3'序列在der(11)染色体上形成了断点连接。我们使用锅柄变体PCR克隆易位断点。通过将与已知5'MLL基因组序列同源的单链寡核苷酸通过桥接寡核苷酸连接到经BamHI消化的DNA的5'末端,我们形成了锅柄变体PCR的茎环模板,其产生了3.9 kb的产物。MLL基因组断点位于内含子7中。来自带22q11.2的伙伴DNA的序列与映射到DiGeorge和腭心面综合征中常见缺失区域的hCDCrel(人类细胞分裂周期相关)基因相同。MLL和hCDCrel在其各自断点的几个碱基对内均含有同源的CT、TTTGTG和GAA序列,这可能在通过易位将这两个基因连接起来方面很重要。逆转录酶PCR扩增了MLL外显子7与hCDCrel外显子3的读码框内融合,表明已转录出MLL-hCDCrel嵌合mRNA。锅柄变体PCR是克隆伙伴基因未确定的易位断点的有力策略。该方法的这一应用鉴定出了一个涉及白血病和一种先天性疾病的染色体带22q11.2区域。