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Department of Clinical Research (V.C.-L.L., S.E.A., M.G.-K.T.)
Department of General Surgery (E.H.N., E.H.-L.N) Singapore General
Hospital Republic of Singapore 169608
Department of
Anatomy (B.H.B.) National University of Singapore Republic of
Singapore 169608
Since the effects of progesterone are mediated
mainly via estrogen-dependent progesterone receptor (PR), the
expression of the effects of progesterone may be masked or overridden
by the influence of estrogen under conditions in which priming with
estrogens is required. We have established a PR-positive but estrogen
receptor-
(ER-) negative breast cancer cell model by transfecting
PR cDNA into ER-- and PR-negative MDA-MB-231 cells in order that the
functions of progesterone can be studied independently of estrogens. We
have demonstrated using this model that progesterone markedly inhibited
cell growth. We have also discovered that progesterone induced
remarkable changes in cell morphology and specific adhesion structures.
Progesterone-treated cells became considerably more flattened and well
spread than vehicle-treated control cells. This was associated with a
striking increase of stress fibers, both in number and diameter, and
increased focal contacts as shown by the staining of focal adhesion
proteins paxillin and talin. There were also distinct increases in
tyrosine phosphorylation of focal adhesion protein paxillin and focal
adhesion kinase in association with increased focal adhesion.
The staining of tyrosine-phosphorylated proteins was concentrated at
focal adhesions in progesterone-treated cells. More
interestingly, monoclonal antibody (Ab) to ß1 integrin was able to
inhibit progesterone-induced cell spreading and formation of actin
cytoskeleton. To our knowledge, this is the first report describing a
direct effect of progesterone in inducing spreading and adhesion of
breast cancer cells, and ß1-integrin appeared to play an essential
role in the effect. It is known that the initial step of tumor
metastasis is the breakaway of tumor cells from primary tumor mass when
they lose the ability to attach. Hence, progesterone-induced cell
spreading and adhesion may have significant implications in tumor
metastasis.
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