Abstract
A 400-bp intronic enhancer fragment in conjunction with the proximal promoter of the aldolase B gene provided correct tissue-specific expression in transgenic mice together with hormonal regulation in the liver. We investigated in vivo and in cultured cells the contribution of the intronic regulatory sequences and their interaction with the promoter elements in controlling aldolase B gene expression. Transgene activity was completely abolished by disruption of the two hepatocyte nuclear factor 1 (HNF1) binding sites in the enhancer, whereas mutation of one HNF1 site had no effect in the liver but strongly decreased activity in the kidney. Our data show that the HNF1 binding site(s) in the enhancer were key regulators of aldolase B transgene expression both in the liver and kidney. Deletion of the CCAAT/enhancer-binding protein site in the promoter completely abolished the enhancer function in HepG2 cells. These results suggest that expression of the aldolase B gene in the liver requires cooperative interactions between CCAAT/enhancer-binding protein and HNF1. Deletion of the HNF4 binding site in the enhancer suppressed expression in both liver and kidney in half of the transgenic lines, suggesting that this element might play a role in chromatin opening at the insertion site. We firmly establish that the endogenous aldolase B gene's first response to glucagon or cyclic AMP exposure was a transient increase in the expression in the liver, followed by a secondary decline in the transcription, as previously reported. This response was reproduced by all transgenes studied, indicating that neither HNF1 nor HNF4 binding sites in the enhancer were involved in this biphasic cyclic AMP response.
Highlights
The aldolase B enzyme catalyzes the reversible cleavage of fructose 1-phosphate into dihydroxyacetone phosphate and glyceraldehyde and is involved in two opposite metabolic pathways, glycolysis and gluconeogenesis
Expression of the aldolase B-chloramphenicol acetyltransferase (CAT) transgenes was strictly restricted to the liver, kidney, and small intestine; no ectopic expression was detected in other tissues tested
Among 16 lines harboring a transgene with deletion of enhancer element 7, only one expressed CAT activity in the liver and, very weakly, in the kidney (Fig. 2)
Summary
The aldolase B enzyme catalyzes the reversible cleavage of fructose 1-phosphate into dihydroxyacetone phosphate and glyceraldehyde and is involved in two opposite metabolic pathways, glycolysis and gluconeogenesis. The expression of the aldolase B gene is subject to tissue-specific, hormonal, and metabolic regulation. Even in the liver, the expression of the aldolase B gene is never completely abolished The aldolase B gene proximal promoter (Ϫ194 to ϩ14) is sufficient to direct cell type-specific expression in cultured hepatoma cells, but in mice a distal intronic enhancer fragment (ϩ1916 to ϩ2324) is required for transgene expression [5]. The objective of the current study was to assess, in a chromosomal in vivo context, the contribution of the different DNA elements of the intronic enhancer to the tissue-specific expression and metabolic regulation of the transgenes
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