Publication: Modulation of EGFR gene transcription by secondary
structures, a polymorphic repetitive sequence and
mutations - a link between genetics and epigenetics
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Date
2000
Authors
Gebhardt, F. ; Bürger, H. ; Brandt, B.
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Publisher
F. Hernández y Juan F. Madrid. Universidad de Murcia: Departamento de Biología Celular e Histología
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DOI
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info:eu-repo/semantics/article
Description
Abstract
The epidermal growth factor receptor
(EGFR) plays a crucial role in growth, differentiation
and motility of normal as well as tumor cells. The
transduction of extracellular signals to the cytoplasm via
the receptor not only depends on ligand binding, but is
also determined by the receptor density on the cell
surface. Therefore , in terms of cancer diagnosis and
therapeutic approaches targeting EGFR it is decisive to
know how the expression level of EGFR is controlled.
We found that transcription activity declines with
increasing numbers of CA dinucleotides of a highly
polymorphic CA repeat in the first intron epidermal
growth factor receptor gene. In vivo data from cultured
cell lines support these findings, although other
regulation mechanisms can compensate this effect. In
addition, we showed that RNA elongation terminates at
a site closely downstream of the simple sequence repeat
(SSR) and that there are two separate major transcription
start sites. Model calculations for the helical DNA
conformation revealed a high bend ability in the EGFR
polymorphic region, es pecially if the CA stretch is
extended. These data suggest that the CA-SSR can act
like a joint bringing the promoter in proximity to a
putative repressor protein bound downstream of the CASSR. The data suggest that this polymorphism is a
marker for cancer linking genetic and epigenetic risk.
Furthermore in breast cancer, heterozygous tumours with
short CA-SSR showed an elevated EGFR-expression in
contrast to tumours with longer CA-SSR. Tumours with
loss of heterozygosity in intron 1 of egfr revealed an
increased EGFR expression if the longer allele was lost.
Moreover, deceased egfr gene dosages were significantly
correlated to poor prognosis in breast cancer.
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Citation
Histology and histopathology, Vol. 15, nº 3 (2000)
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