Endocrinology, Vol 117, 1253-1258, Copyright © 1985 by Endocrine Society

ARTICLES

Maternal and fetal production rates of progesterone in rhesus macaques: placental transfer and conversion to cortisol

CA Ducsay, FZ Stanczyk and MJ Novy

Maternal and fetal progesterone (P4) metabolism and placental transfer were examined in vivo. Via a femoral vein, 3.2 microCi[14C]P4 were infused at a constant rate for 2 h into five rhesus macaques on days 131-137 of gestation. Simultaneously, 12 microCi[3H]P4 were infused into the fetuses via a placental bridging vein. Measurement of steady state concentrations of [14C]- and [3H]P4 in the maternal and fetal circulations permitted calculation of the MCRs, production rates (PRs), and transfer rates (Vs) of P4. The maternal MCR (533 liters/day) was higher than the fetal MCR (93 liters/day), whereas the maternal PR did not differ significantly from the fetal PR (2.3 and 1.0 mg/day, respectively). Placental transfer of P4 from the fetal to maternal circulation (VFM) was greater than that from the maternal to fetal circulation (VMF). Values were 0.23 and 0.07 mg/day, respectively. The utilization of circulating P4 as a substrate for fetal cortisol (F) production was examined in three additional monkeys for whom the amount of isotopically labeled P4 infusate was increased 5-fold. By determining the ratio of specific activities of [3H]F and [3H]P4 in the fetal circulation, we found the maximum contribution of circulating fetal P4 as a precursor of fetal F to be less than 1%. Our results indicate that: 1) higher fetal than maternal plasma P4 concentrations (11.3 and 4.3 ng/ml, respectively) are most likely the result of 5-fold lower fetal MCR, since the PRs are similar in the fetal and maternal compartments, and the VFM is greater than the VMF; and 2) fetal F production using circulating P4 as a substrate is minimal.

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