Endocrinology, Vol 96, 861-868, Copyright © 1975 by Endocrine Society

ARTICLES

Differential responses of prelactating and lactating mammary gland to similar tissue concentrations of progesterone

RT Chatterton Jr, WJ King, DA Ward and JL Chien

Serum and mammary tissue concentrations of progesterone and 20alpha- hydroxy-4-pregnen-3-one (20alpha-OHP) were measured by competitive protein-binding assays and gas-liquid chromatography, respectively, in pregnant and lactating rats. The concentration of progesterone in mammary tissue of pregnant rats closely paralleled the serum concentration, particularly when tissue concentration was expressed as ng/mg DNA. The variability in tissue progesterone on the last day of pregnancy was relatively great, but there was a good inverse relation between the appearance of lactose and the progesterone concentration. Serum progesterone levels declined to their lowest values at 1-3 days of lactation (10 plus or minus 1 ng/ml); the tissue concentration declined even more rapidly after parturition. The tissue 20alpha-OHP concentration, which was more closely related to serum progesterone among animals than to serum 20alpha-OHP, remained high after parturition suggesting that the presence of 20alpha-OHP has no effect on lactogenesis and that progesterone is decreased in the tissue by 20alpha-reduction. Following postpartum ovulation, serum progesterone increased to 74 plus or minus 6 ng/ml at 6-9 days of lactation; tissue progesterone also increased to levels found in rats pregnant 14-19 days, yet no change in lactose content of the glands of suckled rats occurred, and the biosynthetic capacity in terms of the RNA/DNA ratio increased. Serum 20alpha-OHP also rose, but the tissue concentration was unchanged, suggesting that saturating levels were present throughout pregnancy and lactation. Since no rapid increase in DNA was associated with lactogenesis, differentiation of nonsecretory parenchymal cells into daughter cells with the secretory capacity must occur earlier in pregnancy. Progesterone, therefore, must inhibit lactogenesis by preventing expression of the genetic potential of daughter cells. Once differentiation has been completed, however, the presence of progesterone in the tissue has no effect on the biosynthesis of milk constituents.