Visvader J, Begley C G, Adams J M
Walter and Eliza Hall Institute of Medical Research, Royal Melbourne Hospital, Victoria, Australia.
Oncogene. 1991 Feb;6(2):187-94.
The helix-loop-helix genes LYL, SCL and E2A are associated with chromosome translocations found in human lymphoid leukemias. To establish their hematopoietic expression patterns, we have isolated murine LYL and SCL cDNA clones and investigated the expression of all three genes by Northern blot analysis of 58 murine hemopoietic cell lines and tissues. The nucleotide sequences of LYL cDNA clones revealed alternative 5' untranslated sequences and differential splicing within the 5' portion of the coding region that may produce a LYL polypeptide lacking an N-terminal segment. The LYL gene was expressed in most myeloid, erythroid and B lymphocyte cell lines and displayed two alternative size classes of transcripts, the smaller size class (1.5-1.8 kb) being typical of the erythroid lineage and the larger class (2.0-2.3 kb) of the B cell lineage. These two size classes were found to differ in the 5' untranslated region. Thus, expression of the LYL gene appears to be differentially regulated in different hemopoietic cell types. In contrast, the E2A gene was expressed throughout the hemopoietic compartment as a single dominant transcript (3.5 kb). SCL expression was restricted to erythroid, mast and early myeloid cell lines, and the level of SCL transcripts (3.0 and 4.7 kb species) increased markedly during DMSO-induced differentiation of erythro-leukemia cells. Hence the SCL gene product may be an important regulatory factor for the erythroid lineage. The low or undetectable expression of both SCL and LYL in most T lymphoid cell sources is consistent with the view that the translocations of these genes in human T cell leukemias alter their normal regulation and may thereby contribute to neoplasia.
螺旋-环-螺旋基因LYL、SCL和E2A与在人类淋巴细胞白血病中发现的染色体易位有关。为了确定它们在造血过程中的表达模式,我们分离了小鼠LYL和SCL cDNA克隆,并通过对58种小鼠造血细胞系和组织进行Northern印迹分析来研究这三个基因的表达。LYL cDNA克隆的核苷酸序列揭示了5'非翻译序列的选择性以及编码区5'部分的差异剪接,这可能产生一种缺少N端片段的LYL多肽。LYL基因在大多数髓系、红系和B淋巴细胞系中表达,并显示出两种不同大小类别的转录本,较小的大小类别(1.5 - 1.8 kb)是红系谱系的典型特征,而较大的类别(2.0 - 2.3 kb)是B细胞谱系的典型特征。发现这两种大小类别在5'非翻译区有所不同。因此,LYL基因的表达似乎在不同的造血细胞类型中受到差异调节。相比之下,E2A基因在整个造血区室中作为单一的主要转录本(3.5 kb)表达。SCL的表达仅限于红系、肥大细胞系和早期髓系细胞系,并且在二甲基亚砜诱导的红白血病细胞分化过程中,SCL转录本(3.0和4.7 kb种类)的水平显著增加。因此,SCL基因产物可能是红系谱系的重要调节因子。在大多数T淋巴细胞来源中SCL和LYL的低表达或未检测到的表达与以下观点一致,即这些基因在人类T细胞白血病中的易位改变了它们的正常调节,从而可能导致肿瘤形成。
