Abstract
Amh (anti-Müllerian hormone) is a single copy gene which is expressed strongly in Sertoli cells in the foetal testis and participates in the onset of sexual differentiation. Its promoter driving the expression of a reporter gene (d2EGFP) has been used to analyse the role of certain defined putative elements and a downstream enhancer element in gene expression. These experiments were carried out in vitro using a line of pre-pubertal mouse Sertoli cells, transienly transfected with circular DNA constructs with variously mutated promoter elements. A downstream enhancer element, situated immediately 3’ of the polyadenylation (PA) signal for Amh, has been inserted in an equivalent position in the d2EGFP construct. When the Amh promoter is unmodified, the downstream enhancer (DE) is positively associated with a large increase in EGFP expression. This is at least partly the consequence of an increased rate of expression by individual cells. Experiments using variously truncated Amh promoters indicate that an upstream region (-214 to -336) may play a minor role in facilitating enhancement. However mutation of the Wilms tumour factor-1 element, situated between the tata box and the start of translation, results in an almost complete suppression of enhancement.
Highlights
Amh, a member of the TGFbeta (BMP) family of transforming growth factor genes, plays a key role in early sexual differentiation in male mammals [1] and possibly a more subtle and protracted role in females [2]
Its promoter driving the expression of a reporter gene (d2EGFP) has been used to analyse the role of certain defined putative elements and a downstream enhancer element in gene expression
Understanding the way in which gene expression is controlled in pre-Sertoli cells in the foetal testis, may help in decyphering the differentiation cascade triggered by the initial expression of Sry [3]
Summary
A member of the TGFbeta (BMP) family of transforming growth factor genes, plays a key role in early sexual differentiation in male mammals [1] and possibly a more subtle and protracted role in females [2]. In the experiments to be described here the Amh promoter has been used to drive expression of a reporter gene (d2EGFP) in vitro, allowing a simple and quick way to investigate the role of constituent elements of the Amh promoter [4]. This approach largely confirms results obtained in vivo with an Amh promoter driving the expression of AMH [5,6,7,8,9]. JP45 runs from 15260 to 11973 in mouse genomic sequence X83733—the Amh enhancer sequence (DE) runs from 11106 to 11195
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