Abstract
The SCL/TAL1 gene was originally identified by virtue of its rearrangement and transcriptional activation in patients with T cell acute lymphoblastic leukaemia. It encodes a helix-loop-helix transcription factor, is not normally expressed in T cells, but is expressed in erythroid, mast, megakaryocytic and progenitor cells. Over-expression of sense and antisense constructs have implicated SCL as a positive regulator of erythroid differentiation. In addition we have previously shown that SCL mRNA levels undergo biphasic modulation during induced erythroid differentiation of murine erythroleukaemia (MEL) cells with a transient early fall followed by a late rise. In this paper we have studied expression of the SCL protein during erythroid differentiation and also the molecular basis for the raised SCL mRNA levels that accompany erythroid differentiation. We have generated an anti-SCL antiserum and used it to demonstrate that an early transient fall in SCL protein does not occur during induced differentiation of MEL cells. Furthermore SCL protein levels underwent a late fall in three different models of erythroid differentiation and in two models of myeloid differentiation. The fall in SCL protein levels during induced erythroid differentiation contrasted with the concomitant marked rise in SCL mRNA levels. These observations have significant implications for the mechanism by which SCL may regulate erythropoiesis. In addition we have demonstrated that the stability of SCL mRNA was only marginally enhanced during erythroid differentiation of MEL cells, whereas the activity of a luciferase reporter construct driven by the SCL promoter was increased 11- to 17-fold. Upregulation of transcription therefore accounted for most of the increase in SCL mRNA levels during erythroid differentiation.
Original language | English |
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Pages (from-to) | 131-139 |
Number of pages | 9 |
Journal | Oncogene |
Volume | 11 |
Issue number | 1 |
Publication status | Published - 6 Jul 1995 |
Keywords
- Erythroid differentiation
- SCL/TAL-1
ASJC Scopus subject areas
- Molecular Biology
- Genetics
- Cancer Research