HNF-4 increases activity of the rat Apo A1 gene.

Apolipoprotein A1 (Apo A1) is the major protein component of high density lipoprotein (HDL) particles. HDL particles mediate the removal of cholesterol from extra-hepatic tissues via a process known as reverse cholesterol transport. Augmented production of Apo A1 will likely be beneficial to those who suffer from the consequences of hypercholesterolemia. One approach to increase expression of the protein is to identify nuclear factor(s) that enhance Apo A1 promoter activity. Therefore, we have used transient transfection to study a limited portion (-474 to -7) of the gene and showed that a cis-regulatory element, site C had a permissive effect on the ability of an adjacent site B to increase promoter activity by 30-fold. The importance of element C prompted us to identify the factor(s) that interact with this site. Results showed that HNF-4, a new member of the thyroid/steroid hormone receptor superfamily interacts with site C to enhance activity of the promoter. Based on this observation and that of the known inhibitory effects of ARP-1 on site C, we postulate a model which may account for the tissue-specific expression of the rat Apo A1 gene.     

Alx4 binding to LEF-1 regulates N-CAM promoter activity.

During murine embryogenesis, expression of the paired-like homeodomain protein Alx4 is restricted to tissues whose development depends on the expression of lymphoid enhancer factor-1 (LEF-1). Given the defects seen in hair follicle development in both LEF-1 and Alx4 knockout and mutant animals and the overlapping expression patterns, we predicted that LEF-1 and Alx4 might form physical complexes. We demonstrate here the interaction between LEF-1 and Alx4. This interaction is mediated through a specific proline-rich domain in the N-terminal region of Alx4 and requires the DNA-binding domain (HMG-box) of LEF-1. We also demonstrate that LEF-1 and Alx4 can bind simultaneously to adjacent sites on the neural cell adhesion molecule (N-CAM) promoter and that this binding alters N-CAM promoter activity. Furthermore, when expressed in primary mammary stromal cells, Alx4 decreases the expression of endogenous N-CAM protein. These results reveal a potential mechanism that gives rise to mesenchymal-specific activities of LEF-1.