Transcriptional upregulation of hepatic GH receptor and GH-binding protein expression during pregnancy in the mouse.

In the mouse, GH-binding protein (GHBP) and GH receptor (GHR) are encoded by a single gene via alternative splicing. We previously demonstrated that the steady-state levels of the GHR and GHBP mRNAs are significantly elevated in mouse liver during pregnancy. Hepatic GHR and GHBP mRNAs are associated primarily with one of two different 5' untranslated regions (5' UTRs), designated 5' UTR Liver1 (L1) and Liver2 (L2). Distinct promoters associated with each of these 5' UTRs have recently been characterized. In the present study, we have investigated the role of transcriptional activation in the pregnancy-induced upregulation of GHR and GHBP mRNAs in liver. We also report on the relative contribution of the 5' UTR L1 and 5' UTR L2 promoters to the hepatic expression of the GHR/GHBP gene in the liver. Our approach was to compare, by ribonuclease protection assay (RPA), GHR/GHBP transcript levels in hepatic nuclear and total cellular RNA samples from virgin and late-pregnant mice. In these RPAs we utilized riboprobes that were complementary to the coding region of GHR/GHBP transcripts, as well as to the two noncoding, alternative first exons 5' UTR L1 and L2. When employing the coding region probe, RPAs revealed that the gestational increase in the levels of nuclear GHR/GHBP transcripts were statistically comparable with the increase in GHR/GHBP transcript levels in total cellular RNA. This finding suggests that enhanced transcriptional activity, rather than increased cytoplasmic half-life, is responsible for the upregulation of GHR/GHBP RNA in the pregnant liver. In RPAs utilizing the noncoding region probes, both nuclear and total cellular GHR/GHBP transcripts associated with 5' UTR L1 were significantly upregulated in late-pregnant as compared with virgin mice. In contrast, the levels of both nuclear and total GHR/GHBP transcripts associated with 5' UTR L2 were comparable between nonpregnant and pregnant animals. Moreover, 5' UTR L2-containing transcripts were present at levels that were only 3-5% of the 5' UTR L1-associated transcripts in the late-pregnant liver. Thus, we conclude that the gestational upregulation of the GHR/GHBP gene in the mouse liver can be ascribed to the significantly enhanced transcriptional activity of the 5' UTR L1 promoter.

Differential expression of the growth hormone receptor and growth hormone-binding protein in epithelia and stroma of the mouse mammary gland at various physiological stages.

Increasing evidence suggests that GH is important in normal mammary gland development. To investigate this further, we studied the distribution and levels of growth hormone receptor (GHR) and GH-binding protein (GHBP) in the mouse mammary gland. At three weeks of age, the epithelial component of the right fourth inguinal mammary gland of female mice was removed. These animals were then either maintained as virgins until they were killed or they were mated. One group of the mated mice was killed on day 18 of pregnancy and the remaining mated animals were allowed to carry their pups until term and were killed on day 6 of lactation. At the time of death, both the intact left and the de-epithelialized right mammary glands were collected from all three groups. Some of the intact glands served as a source of epithelial cells, free of stroma. The mRNA levels for GHR and GHBP were measured in intact glands, epithelia-cleared fat pads, and isolated mammary epithelial cells. GHR and GHBP mRNAs were expressed in both the mammary epithelium and stroma. However, the levels of both GHR and GHBP mRNAs were significantly higher in the stroma as compared with the epithelium component. This increase for both mRNAs was from 3- to 12-fold at each physiological state examined. In the intact gland, both GHR and GHBP transcripts were highest in virgins, declined during late pregnancy, and the lowest levels were found in the lactating gland. GHBP and GHR protein concentrations were also assessed in intact glands and epithelia-free fat pads. Similar to the mRNAs, GHR and GHBP protein levels (means+/-s.e.m.) in intact glands were highest in virgin mice (0.891+/-0.15 pmoles/mg protein and 0.136+/-0.26 pmoles/mg protein respectively), declined during late pregnancy (0. 354+/-0.111 pmoles/mg protein and 0.178+/-0.039 pmoles/mg protein respectively), and were lowest during lactation (0.096+0.037 pmoles/mg protein and 0.017+0.006 pmoles/mg protein respectively). Immunocytochemistry utilizing specific antisera against mouse (m) GHR and mGHBP revealed that the two proteins are localized to both the stroma and parenchyma of mouse mammary glands, with similar patterns of immunostaining throughout the different physiological stages analyzed. GHR immunolocalized to the plasma membrane and cytosol of mammary epithelial cells and adipocytes, whereas the GHBP immunostaining was nuclear and cytosolic. In conclusion, we report here that GHR and GHBP mRNAs and proteins are expressed in both the epithelium and the stroma of mammary glands of virgin, pregnant, and lactating mice. In intact glands, GHR and GHBP proteins, as well as their transcripts are higher in abundance in virgin relative to lactating mice. At all physiological stages, GHR and GHBP mRNA levels are higher in the stroma compared with the parenchyma. These findings indicate that the actions of GH in the mammary gland are both direct through its binding to the epithelia, and indirect by binding to the stroma and stimulation of IGF-I production which, in turn, affects mammary epithelial development.

Development of a homologous radioimmunoassay for mouse growth hormone receptor.

A RIA for mouse GH receptor (mGHR) was developed. A synthetic peptide corresponding to the carboxyl-terminal 14 amino acids of the mGHR (GHR-2 peptide) was used as the antigen for antiserum production. The synthetic peptide was also used as the standard and radioligand in the RIA. The ability of the antiserum to recognize the mGHR was demonstrated by quantitating receptor concentrations in liver and mammary gland from virgin and 15-day-pregnant mice. Serial dilutions of these samples yielded displacement curves parallel to the synthetic peptide. No significant cross-reactivity was seen with serum from virgin or 15-day-pregnant mice, mGH, recombinant mGH-binding protein (mGHBP), a synthetic peptide identical to the hydrophilic tail of mGHBP, or a 14-amino acid synthetic peptide corresponding to amino acids 338-351 of mGHR (GHR-1 peptide). The concentration range of the mGHR RIA was 0.5-200 nM, and the intra- and interassay coefficients of variation were 6.5% and 6.1%, respectively. The concentration of liver GHR increased significantly during pregnancy compared with that in virgin mice, from 0.246 +/- 0.045 pmol/mg protein (mean +/- SEM; n = 5) in the virgin animals to 1.015 +/- 0.159 pmol/mg protein (n = 5) in pregnant mice. In contrast, the mGHR concentration in the mammary gland decreased significantly during pregnancy from 0.606 +/- 0.201 pmol/mg protein (mean +/- SEM; n = 5) to 0.299 +/- 0.027 pmol/mg protein (n = 5). Comparison of the total number of binding sites in livers from virgin and pregnant mice using the GH RRA and the combined results of the mGHR and mGHBP RIAs showed that the two methods gave almost identical results for livers from virgin animals, or 0.363 +/- 0.063 pmol/mg protein (mean +/- SEM; n = 3) and 0.371 +/- 0.008 pmol/mg protein (n = 3) for the GH RRA and the mGHR plus mGHBP RIAs, respectively. However, in livers from pregnant animals, the combined results from the mGHR and mGHBP RIAs were approximately 1.8 times higher than those obtained by the GH RRA, or 6.732 +/- 0.612 pmol/mg protein (mean +/- SEM; n = 3) and 3.693 +/- 0.67 pmol/mg protein (n = 3) for the mGHR plus the mGHBP RIAs and the GH RRA, respectively. The increase in the total GH binding capacity in livers from pregnant mice compared with those from virgin animals was largely due to an increase in the GHBP content. The increase in GHR was only 2.4-fold, or from 0.153 +/- 0.01 pmol/mg protein (mean +/- SEM; n = 3) in virgin mice to 0.364 +/- 0.03 pmol/mg protein (n = 3) in the 15-day-pregnant mice, whereas GHBP increased almost 30-fold during pregnancy, or from 0.218 +/- 0.003 pmol/mg protein (mean +/- SEM; n = 3) in virgin animals to 6.369 +/- 0.607 pmol/mg protein (n = 3) in pregnant mice.

Expression and distribution of messenger ribonucleic acids for growth hormone (GH) receptor and GH-binding protein in mice during pregnancy.

The GH-binding protein (GHBP) in rodents consists of a ligand-binding domain, which is identical to the extracellular portion of the GH receptor (GHR), and a hydrophilic carboxyl-terminal domain, in place of the transmembrane and intracellular domains of the GHR. The two proteins are encoded by separate messenger RNAs (mRNAs), which are believed to be derived from a single gene by alternative splicing. In the present study, we report the gestational profiles of mouse GHR (mGHR) and mGHBP mRNAs in adipose tissue, brain, heart, kidney, liver, lung, mammary gland, muscle, ovary, and pituitary and describe the ontogeny of both messages in the liver of late gestational fetuses and newborns. A ribonuclease protection assay was used to simultaneously detect the two transcripts with an antisense RNA probe complementary to the extracellular domain- and hydrophilic tail-encoding regions of the mRNAs. Levels of hepatic GHR and GHBP mRNAs increased with fetal age. In the maternal liver, the abundance of both messages increased during pregnancy, with GHR mRNA levels rising less than GHBP mRNA. Also, the ratio between the two messages in this tissue increased during pregnancy in favor of mGHBP mRNA. In maternal mammary tissue, however, expression levels of both transcripts decreased gradually throughout pregnancy starting on day 8 of gestation and declining further during lactation, reaching a minimum 7-fold reduction on day 6 of lactation relative to nonpregnant values. Although there were no pregnancy-related changes in the remaining tissues we examined, the ratio of the abundance of GHR mRNA to that of GHBP mRNA varied tissue specifically. In the maternal brain, heart, liver, and mammary gland, mGHBP mRNA levels were higher than mGHR mRNA levels. In the maternal muscle and adipose tissue, the abundance of the two mRNA species was comparable. These observations indicate a gestational, developmental, and tissue-specific regulation of the expression of mGHR and mGHBP species.