Using mice as experimental animals, proteins in the uterine luminal fluid (ULF) from both adults and diethylstilbestrol dipropionate (DES)-treated immature animals were resolved by 2D gel electrophoresis. Two of the protein spots, (a) and (b) around the positions of 18-20 kDa, in the adult ULF were not found in the DES-treated ULF. Automated Edman degradation established the same N-terminal sequences of AHQVPVKTKGKHVFP for the two protein spots. Two trypsin digests of spot (a) were analyzed using CID MS/MS to establish the peptide sequences DNQLGPLLPEPK and RPDAMTWVETEDILSHLR. These partial sequences were confirmed in the cDNA-deduced mouse proline rich acidic protein (PRAP). Using human Ishikawa cell line as a surrogate endometrial model, we demonstrated rapid entrance of exogenous PRAP into the cells and its ability to enhance alkaline phosphatase activity of the E(2) -stimulated cells. Further, the transcripts of five estrogen-responsive genes, including ALPP (Placental alkaline phosphtase), ALPPL (placental alkaline phosphatase-like 2), TGF (transforming growth factor), PR (progesterone receptor), and Wnt7a, were measured after the cell incubation in modified Eagle medium containing 0.1 nM E(2) , or 0-25 µM PRAP, or both together at 37°C for 48 h. As compared with the control, E(2) alone increased the transcripts of ALPP, ALPPL, TGF-α, and PR, and reduced the transcript of Wnt7a, whereas PRAP alone had a slight impact on their expression. E(2) together with PRAP greatly increased the E(2) -stimulated transcriptions of ALPP, ALPPL, TGF-α, and PR, and markedly reduced the E(2) -suppressed transcription of Wnt7a.
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