Identification, characterization, and expression of a new prolactin-like molecule in the hamster placenta

In the hamster, serum total lactogenic activity increases during the latter half of gestation (Days 8-16). On Days 10 and 12 a substantial amount of lactogenic activity cannot be attributed to prolactin (PRL) and hamster placental lactogen-ii (haPL-II); therefore, the presence of a molecule similar to placental lactogen-I (PL-I), as found in the rat and mouse at midpregnancy, has been hypothesized for the hamster. The objectives of this study were to identify PRL-like molecules synthesized by the hamster placenta and to determine the temporal and cellular synthesis of identified molecules. Oligonucleotides (20-23 bp) corresponding to regions of nucleotide homology between mouse PL-I (mPL-I) and rat PL-I (rPL-I) along with midgestation hamster placental RNA were used in 3' rapid amplification of cDNA ends (RACE) methodology to generate PRL-like cDNA. A 444-bp cDNA fragment that had nucleotide sequence similarity with members of the prolactin-growth hormone (PRL-GH) gene family was generated. This cDNA fragment was utilized to screen a Day 16 hamster placental bacteriophage cDNA library, and a clone containing the entire coding region was identified and sequenced. The molecule had 77% nucleotide sequence homolog with mouse proliferin-related protein (mPRP) and somewhat less homology (similar to 60%) with hamster, rat, and mouse PRL or placental lactogens (PL). The derived amino acid sequence of the identified molecule contained a 15-residue signal sequence and a 219-residue peptide with a calculated molecular weight of 25 477. The peptide shared 58% amino acid sequence identity with mPRP. Placental expression of the PRL-like molecule during the latter half of gestation was evaluated by Northern and slot-blot analyses using the 444-bp cDNA fragment as a hybridization probe. A l-kb transcript was detected on Days 9-15 with peak expression on Days 10 and 11. Messenger RNA for the PRL-like molecule was localized to cytotrophoblast but not giant trophoblast cells of the placental trophospongium region. In addition, specific immunostaining using an antibody to mPRP was confined to cytotrophoblast cells.