K. Higashi et H. Ogawara, DAIDZEIN INHIBITS INSULIN OR INSULIN-LIKE GROWTH FACTOR-1-MEDIATED SIGNALING IN CELL-CYCLE PROGRESSION OF SWISS 3T3 CELLS, Biochimica et biophysica acta. Molecular cell research, 1221(1), 1994, pp. 29-35
An isoflavone compound, daidzein, inhibits the cell proliferation of S
wiss 3T3 cells. Analysis of entry in S phase of Swiss 3T3 cells reveal
s that daidzein blocked cell cycle G(1) phase progression 4.6 h after
stimulation by bombesin plus insulin. After removal of daidzein, insul
in or insulin-like growth factors (IGFs) reinitiate cell cycle progres
sion of daidzein-blocked cells without further addition of bombesin. T
he order in the mitogenic action of insulin or IGFs is as follows: IGF
-1 (5 ng/ml)much greater than IGF-2 (0.5 mu g/ml)similar or equal to i
nsulin (1 mu g/ml). Studies in vivo of protein kinase activation by mi
togenic stimulation reveal that the treatment with daidzein decreased
the activation of a MAP2 phosphorylating protein kinase (MAP2 kinase).
In vitro kinase assays showed that daidzein inhibits casein kinase II
activity, but does not inhibit MAP2 kinase activity. Activation of ca
sein kinase II by polylysine augments the activity of MAP2 kinase in d
igitonin-permeabilized 3T3 cells. These results suggest that daidzein
blocked G(1) phase cell cycle progression of Swiss 3T3 by inhibiting t
he activity of casein kinase II which is required for the commitment o
f mitogenic signal by insulin or IGF-1 in G(1) phase.