The biochemical mechanisms of the stimulating action of estradiol on the growth of mammary tumours.

The mechanisms of stimulating effect of estradiol on the growth of hormone-dependent mammary tumours in experimental animals were studied. Estradiol receptors were detected in plasmatic membranes of estradiol-dependent tumour cells. Estradiol-independence of tumours was found to be a result of the impairment of the estradiol receptors in the plasmatic membranes, intracellular receptors, or of their ability to interact with the chromatin of the target cells. It was shown that the interaction of receptors of plasmatic membranes of hormone-dependent tumour cells with estradiol results in activation of the membrane adenylate cyclase and in a short-term rise of a cAMP content. A treatment of the hormone-dependent tumours with ovarian hormones brings about an increase in the activity of the cAMP-dependent protein kinases in cell nuclei, which points to their translocation from cytosol. Under effect of estradiol the phosphorylation of nuclear proteins at the serine, threonine and tyrosine residues increases.

[Activation of protein kinase C and cAMP-dependent protein kinase in hormone-dependent mammary gland tumors during stimulation of their growth with progesterone and estrone]. / Aktivatsiia proteinkinazy C i cAMP-zavisimykh proteinkinaz v gormonzavisimykh opukholiakh molochnykh zhelez pri stimuliatsii ikh rosta progesteronom i éstronom.

GR mouse mammary tumour growth is stimulated by simultaneous administration of progesterone and estrone. These hormones strongly activate cAMP-dependent protein kinases both in the cytosol and in humour cell nuclei by causing the elevation of PK-1 and PK-2 activities. Ovarian hormone action on the proliferation is similar to that of growth factors, i.e., the hormones significantly stimulate the calcium-activated, phospholipid-dependent protein kinase C. Protein kinase C has been discovered is growing tumour cell nuclei. In early periods after ovarian hormone administration protein kinase C is activated in a greater degree as compared to cAMP-dependent protein kinases. A hypothesis on the feasibility of simultaneous activation by steroid hormones of both second messenger systems, namely the cAMP system and the system of production of diacylglycerol from phosphtidylinositol diphosphate is proposed.