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Abstract
The cis- and trans-acting factors that are critical for
placenta-specific expression of the human syncytin gene
are unknown. We identified a 146-bp region of the
5'-flanking region of the human syncytin gene from
nt -294 to -148 that is essential for basal gene
expression in human BeWo and JEG3 choriocarcinoma
cell lines but not in hepatoblastoma and kidney cell
lines. Ligation of the 146-bp fragment to a SV40 promoter
or a human 
-globin minimal promoter markedly
enhanced promoter activity in the placenta cells but not
in the liver and kidney cells. DNase I footprint assays
indicated that nuclear extracts from BeWo cells but not
HepG2 cells protected four regions (FP1 to FP4) of the
146-bp fragment. Site-directed mutagenesis of an
SP1-binding site in FP3 and a GATA binding
site in FP4 significantly repressed promoter activity in
the placenta cells. Overexpression of SP1 (Sp1
transcription factor) and GATA2 (GATA binding
protein 2) and GATA3 induced syncytin promoter
activity, but had little or no effect on the activities of
syncytin promoter fragments containing mutations in the
SP1 and GATA binding sites. GATA2 and
3 mRNA levels increased markedly during spontaneous
in vitro differentiation of human cytotrophoblast cells
when the cytotrophoblast cells fused to form a syncytium.
These findings strongly suggest that the 146-bp region of
the 5'-flanking region (nt -294/-148) of the
human syncytin gene acts as a placenta-specific enhancer.
Binding of SP1 and GATA family members to
this enhancer is critical for cell-specific expression of
the syncytin gene.
Key words:
Developmental biology •
Gene regulation •
Placenta •
Syncytiotrophoblast •
Trophoblast
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