Effects of genistein on cell proliferation and cell cycle arrest in nonneoplastic human mammary epithelial cells: involvement of Cdc2, p21(waf/cip1),p27(kip1), and Cdc25C expression
Rs. Frey et al., Effects of genistein on cell proliferation and cell cycle arrest in nonneoplastic human mammary epithelial cells: involvement of Cdc2, p21(waf/cip1),p27(kip1), and Cdc25C expression, BIOCH PHARM, 61(8), 2001, pp. 979-989
Genistein, a soy isoflavone, has been reported to inhibit the multiplicatio
n of numerous neoplastic cells, including those in the breast. However, the
re is limited information on the effect of genistein on nonneoplastic human
breast cells. In the present studies, genistein inhibited proliferation of
, and DNA synthesis in, the nonneoplastic human mammary epithelial cell lin
e MCF-10F with an IC50 of similar to 19-22 muM, and caused a reversible G2/
M block in cell cycle progression. Genistein treatment (45 muM) increased t
he phosphorylation of Cdc2 by 3-fold, decreased the activity of Cdc2 by 70%
after 8 hr, and by 24 hr reduced the expression of Cdc2 by 70%. In additio
n, genistein enhanced the expression of the cell cycle inhibitor p21(waf/ci
p1) by 10- to 15-fold, increased p21(waf/cip1) association with Cdc2 by 2-f
old, and increased the expression of the tumor suppressor p53 by 2.8 fold.
Genistein did not alter the expression of p27(kip1) significantly. Furtherm
ore, genistein inhibited the expression of the cell cycle-associated phosph
atase Cdc25C by 80%. From these results, we conclude that genistein inhibit
s the growth of nonneoplastic MCF-10F human breast cells by preventing the
G2/M phase transition, induces the expression of the cell cycle inhibitor p
21(waf/cip1) as well as its interaction with Cdc2, and inhibits the activit
y of Cdc2 in a phosphorylation-related manner. Down-regulation of the cell
cycle-associated phosphatase Cdc25C combined with up-regulation of p2(waf/c
ip1) expression appear to be important mechanisms by which genistein decrea
ses Cdc2 kinase activity and causes G2 cell cycle arrest. (C) 2001 Elsevier
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