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Inhibition of protein kinase C and calmodulin by the geometric isomers cis- and trans-tamoxifen

✍ Scribed by Catherine A. O'Brian; Constantin G. Ioannides; Nancy E. Ward; Rob M. Liskamp

Publisher: Wiley (John Wiley & Sons)
Year: 1990
Tongue: English
Weight: 648 KB
Volume: 29
Category: Article
ISSN: 0006-3525
DOI: 10.1002/bip.360290114

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✦ Synopsis

SYNOPSIS

The triphenylethylene antiestrogen trans-tamoxifen is an effective antitumor agent used in the treatment of human breast cancer. While the antiestrogenic activity of trans- tamoxifen clearly plays an important role in its tumoricidal action, some of the biological effects of trans-tamoxifen are independent of estrogen. Therapeutic concentrations of trans-tamoxifen inhibit protein kinase C (PKC) and calmodulin-dependent enzymes. PKC and calmodulin play critical roles in growth regulation, and there is evidence that inhibition of PKC and calmodulin by trans-tamoxifen may contribute to the antitumor activity of the drug in vivo.

The geometric isomers cis-and trans-tamoxifen have a number of opposing biological activities that have been attributed to their interactions with the estrogen receptor. Cis-tamoxifen is generally estrogenic, whereas trans-tamoxifen is generally antiestrogenic. In this report, we compared the effects of cis-and truns-tamoxifen on PKC activity and on calmodulin-dependent CAMP phosphodiesterase activity. Cis-and trans-tamoldfen inhibited the Ca2'-and phosphatidylserine-(PS-) dependent activity of purified rat brain PKC with indistinguishable potencies, but cis-tamoxifen was somewhat more potent than the trans isomer in the inhibition of the Ca2'-and PS-independent activity of PKC. In addition, cis-tamoxifen was the more potent isomer in the inhibition of T lymphocyte activation, an event that entails a PKC-requiring signal transduction pathway. A modest preference for the cis isomer was also observed in the inhibition of a calmodulin-dependent CAMP phosphodiesterase. These results suggest a congruence between triphenylethylene binding sites on PKC and on the activated calmodulin-CAMP phosphodiesterase complex. We conclude that the interactions of cis-and truns-tamoxifen with PKC and the activated calmodulin-CAMP phosphodiesterase complex offer a criterion for distinguishing biological effects of triphenylethylenes that are due to interactions with the estrogen receptor from the biological effects resulting from their inhibitory activities against PKC and calmodulin-dependent processes.

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