Transcriptional regulation of the human erythroid 5-aminolevulinate synthase gene - Identification of promoter elements and role of regulatory proteins

We have characterized the 5'-flanking region of the human erythroid-specific 5-amino levulinate synthase (ALAS) gene (the ALAS2 gene) and shown that the first 300 base pairs of promoter sequence gives maximal expression in erythroid cells, Transcription factor binding sites clustered within this promoter sequence include GATA motifs and CACCC boxes, critical regulatory sequences of many erythroid cell-expressed genes, GATA sites at -126/-121 (on the noncoding strand) and -102/-97 were each recognized by GATA-1 protein in vitro using erythroid cell nuclear extracts, Promoter mutagenesis and transient expression assays in erythroid cells established that both GATA-1 binding sites were functional and exogenously expressed GATA-1 increased promoter activity through these sites in transactivation experiments, A noncanonical TATA sequence at the expected TATA box location (-30/-23) bound GATA-1- or TATA-binding protein (TBP) in vitro, Conversion of this sequence to a canonical TATA box reduced expression in erythroid cells, suggesting a specific role for GATA-1 at this site. However, expression was also markedly reduced when the -30/-23 sequence was converted to a consensus GATA-1 sequence (that did not bind TBP in vitro), suggesting that a functional interaction of both factors with this sequence is important. A sequence comprising two overlapping CACCC boxes at -59/-48 (on the noncoding strand) was demon strated by mutagenesis to be functionally important. This CACCC sequence bound Spl, erythroid Kruppel-like factor, and basic Kruppel-like factor in vitro, while in transactivation experiments erythroid Kruppel-like factor activated ALAS2 promoter expression through this sequence, A sequence at -49/-39 with a 9/11 match to the consensus for the erythroid specific factor NF-E2 was not functional, Promoter constructs with 5'-flanking sequence from 293 base pairs to 10.3 kilobase pairs expressed efficiently in COS-1 cells as well as in erythroid cells, indicating that an enhancer sequence located elsewhere or native chromatin structure may be required for the tissue-restricted expression of the gene in vivo.