Levanon D, Bernstein Y, Negreanu V, Ghozi M C, Bar-Am I, Aloya R, Goldenberg D, Lotem J, Groner Y
Department of Molecular Genetics and Virology, The Weizmann Institite of Science, Rehovot, Israel.
DNA Cell Biol. 1996 Mar;15(3):175-85. doi: 10.1089/dna.1996.15.175.
The human chromosome 21 acute myeloid leukemia gene AML1 is frequently rearranged in the leukemia-associated translocations t(8;21) and t(3;21), generating fused proteins containing the amino-terminal part of AML1. In normal blood cells, five size classes (2-8 kb) of AML1 mRNAs have been previously observed. We isolated seven cDNAs corresponding to various AML1 mRNAs. Sequencing revealed that their size differences were mainly due to alternatively spliced 5' and 3' untranslated regions, some of which were vast, exceeding 1.5 kb (5') and 4.3 kb (3'). These untranslated regions contain sequences known to control mRNA translation and stability and seem to modulate AML1 mRNA stability. Further heterogeneity was found in the coding region due to the presence of alternatively spliced stop codon-containing exons. The latter led to production of polypeptides that were smaller than the full-length AML1 protein; they lacked the trans-activation domains but maintained DNA binding and heterodimerization ability. The size of these truncated products was similar to the AML1 segment in the fused t(8;21) and t(3;21) proteins. In thymus, only one mRNA species of 6 kb was detected. Using in situ hybridization, we showed that its expression was confined to the cortical region of the organ. The 6-kb mRNA was also prominent in cultured peripheral blood T cells, and its expression was markedly reduced upon mitogenic activation by phorbol myristate acetate (TPA) plus concanavalin A (ConA). These results and the presence of multiple coding regions flanked by long complex untranslated regions, suggest that AML1 expression is regulated at different levels by several control mechanisms generating the large variety of mRNAs and protein products.
人类21号染色体急性髓系白血病基因AML1在白血病相关易位t(8;21)和t(3;21)中经常发生重排,产生含有AML1氨基末端部分的融合蛋白。在正常血细胞中,先前已观察到五种大小类别(2 - 8 kb)的AML1 mRNA。我们分离出了七个与各种AML1 mRNA相对应的cDNA。测序显示它们的大小差异主要归因于可变剪接的5'和3'非翻译区,其中一些区域很大,5'端超过1.5 kb,3'端超过4.3 kb。这些非翻译区包含已知可控制mRNA翻译和稳定性的序列,似乎在调节AML1 mRNA的稳定性。由于存在可变剪接的含终止密码子外显子,在编码区发现了进一步的异质性。后者导致产生比全长AML1蛋白小的多肽;它们缺乏反式激活结构域,但保留了DNA结合和异二聚化能力。这些截短产物的大小与融合的t(8;21)和t(3;21)蛋白中的AML1片段相似。在胸腺中,仅检测到一种6 kb的mRNA。使用原位杂交,我们表明其表达局限于该器官的皮质区域。6 kb的mRNA在培养的外周血T细胞中也很突出,并且在用佛波酯肉豆蔻酸酯(TPA)加刀豆球蛋白A(ConA)进行促有丝分裂激活后其表达明显降低。这些结果以及由长而复杂的非翻译区侧翼的多个编码区的存在,表明AML1的表达通过几种控制机制在不同水平上受到调节,从而产生了多种多样的mRNA和蛋白质产物。
