Gestational Profiles of Rat Placental Lactogen-Il (rPL-ll) and Growth Hormone (GH) in Maternal and Fetal Serum, Amniotic fluid, and Placental Tissue

Abstract

Rat placental lactogen-II (rPL-II) and growth hormone (rGH) in maternal and fetal serum, amniotic fluid, and placental tissue were measured by a homologous radioimmunoassay during the last half of pregnancy. rPL-II appeared first in maternal circulation and the placental tissue on day 11 of pregnancy. The maternal serum rPL-II concentration increased progressively and reached the peak value (684±76 ng/ml) on day 19, and declined thereafter up to term. rPL-II content in the tissue had a similar pattern to the maternal serum profile of rPL-II, while its concentration in the tissue increased dramatically on day 12 and remained high until day 19. Fetal serum rPL-II was detected on days 17 and 18, though its concentration was much lower (ranged between 3-10ng/ml) than that of maternal serum. rPL-II in amniotic fluid was also detectable only on days 12-14 of pregnancy, and the peak value on day 13 was 22% of the maternal serum rPL-II concentration. The rGH concentration increased gradually as pregnancy advanced with. a decline on the day before parturition. Although rGH in fetal serum increased on day 20 with a decline on the following day, it was slightly detectable in amniotic fluid on the last two days of pregnancy. The molecular profile of rPL-II in amniotic fluid and maternal serum of day 13 pregnant rats were examined by Western blotting. Anti-rPL-II serum detected two proteins with molecular weights (mol wt) of 19.5K and 20.5K in amniotic fluid and one protein with a mol wt of 20.5K in maternal serum under nonreducing conditions. Their migrations coincided with those of purified rPL-II, which migrated as three components of proteins with mol wts of 19.5K, 20.0K, and 20.5K under nonreducing conditions. These results indicate that gestational profiles of rPL-II in maternal serum and the placental tissue were different in their overall pattern and the absolute concentration of rPL-II from those in fetal serum and amniotic fluid, in which rPL-II consisted of monomeric forms of variants.