Endocrine communication between conceptus and mother: placental lactogen stimulation of maternal behavior.

The possible role of the conceptus in stimulating the onset of maternal behavior through its secretion of placental lactogens and their passage into the brain was investigated in female rats. In the first study, significant mitogenic activity in the Nb2 lymphoma cell bioassay was detected in cerebrospinal fluid (CSF) samples collected by push-pull perfusion from rats on days 12-21 of pregnancy, coincident with the establishment of placental function. In contrast, mitogenic activity was absent from CSF in lactating and gonadectomized, virgin females. In a second study the mitogenic activity in day 12 pregnant samples was neutralized 71% with antibodies to rat placental lactogen-I (rPL-I) and > 90% with a combination of antibodies to rPL-I plus rPL-II. In contrast, activity on day 21 of pregnancy, 1 day prepartum, was reduced by antibodies to rPL-II (> 85%), but not by antibodies to rPL-I, indicating that the predominant lactogen in the CSF prepartum is rPL-II. The behavioral actions of placental secretions were assessed in the third experiment by infusing recombinant rPL-I and purified rPL-II directly into the medial preoptic area of the brain of steroid-primed, nulliparous rats. Latencies to respond maternally to foster young were significantly reduced in rPL-I- and rPL-II-treated rats (2- to 3-day latencies) when compared with latencies in control females (5- to 6-day latencies). Thus, the conceptus through its secretion of rPLs which apparently gain access to the CSF helps to prime the pregnant female's brain to respond maternally at the end of gestation. This endocrine communication between the developing conceptus and pregnant female appears to be an important part of the biological system which helps to establish successful maternal care.

Plasma clearance, tissue uptake and expression of pituitary peptide 23/pancreatitis-associated protein in the rat.

The secretion of peptide 23 by rat pituitary cells is stimulated by growth hormone-releasing hormone and inhibited by somatostatin. Recent cloning of the cognate cDNA for peptide 23 revealed that it is identical to pancreatitis-associated protein (PAP). In the present study, the clearance and tissue uptake of recombinant peptide 23/PAP in normal adult male rats was assessed. The plasma half-life of recombinant peptide 23/PAP was 4.8 +/- 1.4 (S.D.) min. Maximal accumulation of radio-labelled peptide 23/PAP was observed in the kidney, stomach, small intestine and pancreas whereas negligible uptake was seen in the liver, lung or heart. Peptide 23/PAP was detected in a variety of tissue extracts using a radioimmunoassay. Extracts of ileum contained the highest concentrations of peptide 23/PAP. In situ hybridization analysis showed that peptide 23/PAP mRNA was highly expressed in the columnar epithelial cells of ileum, jejunum and duodenum. These observations demonstrate that peptide 23/PAP, a protein previously thought to be of pituitary origin, is widely expressed in the gastrointestinal tract and that it is rapidly removed from the circulation by the kidney and by tissues which express peptide 23/PAP.

Age-related changes in peptide-23/pancreatitis-associated protein and pancreatic stone protein/reg gene expression in the rat and regulation by growth hormone-releasing hormone.

Peptide-23 is a 16-kilodalton protein secreted by rat pituitary cells that was first identified because it was regulated by GRF and somatostatin in a similar fashion to GH. Cloning of peptide-23 complementary DNA revealed that it is identical to pancreatitis-associated protein (PAP) and a member of the c-lectin gene family. We examined the expression of peptide-23/PAP and a structurally related protein, pancreatic stone protein (PSP/reg), in the rat gastrointestinal tract. Here we report age-related changes in the expression and GRF regulation of peptide-23. Both peptide-23/PAP messenger RNA (mRNA) and PSP/reg mRNA were virtually undetectable in the small intestine of newborn and 1- and 2-week-old rats. A dramatic increase in the expression of both genes was seen at the time of weaning in the third week postpartum. The abundance of both of these mRNA decreases after 3 and 6 months of age. Peptide-23/PAP mRNA is most abundant in the ileum, whereas PSP/reg is maximally expressed in the pancreas and duodenum. Human GRF analog pellets were implanted sc into adult male rats for 2 weeks to study the chronic effects of GRF on the expression of these genes. Both peptide-23/PAP and PSP/reg mRNA levels in duodenum and jejunum were increased in these rats compared with levels in control rats. However, no increase in peptide-23/PAP mRNA in response to GRF treatment was seen in the ileum, where the level of expression of this gene is very high, and GRF had no effect on peptide-23/PSP expression in the heart, pituitary, or hypothalamus, where expression is normally undetectable. In situ hybridization was used to localize peptide-23/PSP in the small intestine and pancreas of GRF-treated rats. An increase in peptide-23/PAP mRNA was restricted to acinar cells close to islets, whereas little expression was seen in acinar cells distant from islets, suggesting that either peptide-23/PAP may have some paracrine action on the islets, or alternatively, an islet-derived factor may function as a paracrine modulator of peptide-23/PAP expression. These data demonstrate that GRF modulates peptide-23/PAP expression in the gastrointestinal tract in a similar fashion to that previously reported for pituitary cells in primary culture.

Molecular cloning and expression of peptide 23, a growth hormone-releasing hormone-inducible pituitary protein.

Peptide 23 is a newly identified protein secreted by rat pituitary cells in primary culture. Although the secretion of this protein is stimulated by GH-releasing hormone and inhibited by somatostatin, the N-terminal amino acid sequence of peptide 23 shows no homology to rat GH. Using the polymerase chain reaction technique, we cloned and sequenced the peptide 23 complementary DNA (cDNA). By means of the mixed oligonucleotide-primed amplification of cDNA technique, primers corresponding to the NH2-amino acid sequence of peptide 23 were used to amplify, clone, and sequence a 74-basepair cDNA of peptide 23. This polymerase chain reaction product was then used as a primer to amplify the complete peptide 23 cDNA by means of the rapid amplification of cDNA ends procedure. The cDNA of peptide 23 obtained by the rapid amplification of cDNA ends procedure contained 777 nucleotides and encoded a 175-amino acid protein with a 26-amino acid putative signal peptide. The calculated mol wt of the mature protein (16,613 daltons) was in good agreement with that estimated by polyacrylamide gel electrophoresis (16 kilodaltons). Northern blot analysis revealed a major messenger RNA species of about 0.9 kilobase and a minor species of about 1.7 kilobases in cultured rat anterior pituitary cells. In rats, peptide 23 was most abundant in the pancreas and gastrointestinal tract. A GenBank sequence search revealed complete sequence identity between peptide 23 cDNA and pancreatitis-associated protein cDNA, an approximately 73% homology with human hepatocellular carcinoma cDNA from human hepatocellular carcinoma, 64% homology with bovine pancreatic thread protein cDNA, and 55% homology with rat and human reg cDNAs, which have been reported to be expressed in regenerating pancreatic islets. Therefore, peptide 23 is identical to pancreatitis-associated protein and a member of the C-type lectin supergene family.

Expression of pituitary peptide 23 in the rat uterus: regulation by estradiol.

Peptide 23 was first identified in pituitary cell conditioned medium as a secreted protein which was regulated in a similar fashion to growth hormone. It was subsequently found to be a member of the C-type lectin gene superfamily and identical to pancreatis associated protein (PAP). It is widely expressed in the gastrointestinal tract. Our present study demonstrates that peptide 23 gene is also expressed in the uterus. Peptide 23/PAP mRNA was at highest levels during estrus and was not detectable in the immature rat uterus. A single injection of 17 beta-estradiol resulted in a transient induction of peptide 23/PAP mRNA in ovariectomized rats whereas a sustained induction was seen with diethylstilbestrol implants. In situ hybridization localized peptide 23/PAP mRNA to the luminal epithelial cells. During gestation, peptide 23/PAP mRNA was detected only in the uterine samples from day 12 to 18 of pregnancy with maximal expression on day 12. Peptide 23 expression was confined to the uterus itself and not expressed in either the decidua or the fetal tissues. PSP/reg, another closely related member of the C-lectin gene family was not expressed in any of these uterine tissues. These results indicate that estrogen may act as a physiological regulator of peptide 23 in the uterus and suggests that this protein may have some role in estrogen action.

The discovery of human prolactin: a very personal account.

Although prolactin was discovered in the early 1930's in sheep, cows, birds etc., no human form had been because it was thought to be identical to human growth hormone (HGH). In fact, prior to 1970, most endocrinologists doubted human prolactin even existed. Prolactin-like effects could be demonstrated from a homogenate of human pituitary but attempting to purify it identified only growth hormone. Independent histological studies had identified prolactin-secreting "pregnancy cells" fuelling the conviction that prolactin was a distinct and separate pituitary hormone. A search was begun for prolactin through protein synthesis studies using pituitaries from pregnant and postpartum monkeys. Proteins obtained in a radioactive peak were similar to, but not identical with, growth hormone by molecular weight and electrophoretic mobility. The hypothesis that the unknown protein peak represented synthesis of prolactin rather than growth hormone proved correct. Evidence was then obtained confirming that in the human pituitary prolactin and growth hormone synthesis could be distinguished using antibodies to human growth hormone or to sheep prolactin. Human prolactin purified from pituitary glands using immunological tools capable of distinguishing between the two hormones provided ultimate proof of a separate and distinct human prolactin, a hormone which has its major impact today in endocrinology and reproductive medicine. This discovery represented an exciting and truly international collaborative effort.

Circulating fibroblast growth factor-like autoantibodies in two patients with multiple endocrine neoplasia type 1 and prolactinoma.

Basic fibroblast growth factor (bFGF) is a potent endothelial cell mitogen found in a variety of normal and tumor tissues. bFGF lacks a classical amino-terminal signal sequence and is not readily detectable in plasma from normal subjects. In earlier studies we showed increased bFGF-like mitogenic activity for parathyroid-derived endothelial cells and (increased) bFGF immunoreactivity (0.24-1.28 ng/mL) in plasma of subjects with multiple endocrine neoplasia type 1 (MEN-1). In the present study we examined the proliferative activity of MEN-1 and normal plasmas (applied to protein-A columns) in calf pulmonary artery endothelial cells. Protein-A-eluted activity in plasma from MEN-1 prolactinoma plasma exceeded activity from normal and MEN-1 nonprolactinoma plasma in three of eight MEN-1 subjects with untreated or recurrent prolactinoma. Protein-A-eluted active fractions from MEN-1 prolactinoma plasma had several properties of an immunoglobulin G, including affinity for antihuman immunoglobulin G (IgG) agarose, sensitivity to thiols, and (prepared by sodium dodecyl sulfate-polyacrylamide gel electrophoresis under reducing conditions) apparent mol wt corresponding to those of the heavy and light chains of IgG. The IgG fraction of MEN-1 prolactinoma plasma had far more activity in endothelial cells than did optimal concentrations of known growth factors or conditioned medium from prolactinoma cells. Endothelial cell bioactivity in protein-A-eluted fractions from MEN-1 prolactinoma plasma was neutralized 70% by rabbit antibodies to intact bFGF. These results imply novel growth stimulatory bFGF-like autoantibodies in a subset of MEN-1 patients with prolactinoma.

Role of government in cardiovascular research.

Despite some major advances, cardiovascular disease remains the leading cause of death globally and here in Canada. Support of research in this area has always been a key thrust of the Medical Research Council's (MRC) efforts and remains so today. Public knowledge about the causes of heart disease and its prevention remains low, requiring implementation of a comprehensive, multifaceted approach to the reduction of disease risk. Some reform of the health care system is coming, and it is vital that it be done properly in order to improve efficiency and control costs while not doing harm. This reform should be based on a solid foundation of research based findings. Dramatic changes in sources of research funding, with government providing less and the private sector increasing more, are bound to have an impact on the kinds and location of research activities carried out in Canada in the future. Academia must increasingly seek support from the private sector to maintain and strengthen academic research. Partnerships and alliances, such as those being pursued by the MRC, offer enormous opportunities for the development of new technologies and products with resulting benefits to the health and wealth of Canadians.

Expression, purification, and characterization of recombinant rat placental lactogen-I: a comparison with the native hormone.

Rat placental lactogen-I (rPL-I), a member of the PRL/GH gene family, is produced by giant cells in the early trophoblast. The small amount of early placental tissue has limited the purification of rPL-I from this source. To obtain sufficient material for in vitro studies we have used a rPL-I cDNA to express this protein in Chinese hamster ovary (CHO) cells and in these studies have compared the recombinant protein with the native rPL-I. Using an affinity column composed of monoclonal antibody to rPL-I coupled to Sepharose 4B, we have purified rPL-I from four sources: 1) recombinant rPL-I produced and secreted in rPL-I-transfected CHO cells, 2) nonglycosylated recombinant PL-I produced by adding tunicamycin (10 microM/ml medium) to rPL-I-transfected CHO cells, 3) native rPL-I secreted by rat choriocarcinoma (RCHO) cells, and 4) serum rPL-I isolated from day 12 pregnant rats. Analysis by two-dimensional polyacrylamide gel electrophoresis and Western blotting revealed nine subforms with increasing mol wt [approximately 34 kilodaltons (kDa)] and acidic pI for recombinant rPL-I and RCHO-derived rPL-I. Four major species of lower mol wt (approximately 23 kDa) were evident in the nonglycosylated rPL-I, suggesting additional peptide cleavage sites. Serum rPL-I contained four additional forms of higher mol wt (approximately 37 kDa) and more acidic pI. When analyzed by the Nb2 lymphoma cell bioassay, RCHO rPL-I, serum rPL-I, and nonglycosylated rPL-I were equipotent with ovine and human PRL. Recombinant rPL-I was 1.5-2.0 times as active as ovine PRL in the Nb2 assay. A RIA was established for rPL-I. The variant rPL-Iv, displayed nonparallel displacement of [125I]rPL-I from the antibody. There was no cross-reactivity with other pituitary or placental members of the GH/PRL family. Measurement of serum levels of rPL-I by RIA after the injection of recombinant-rPL-I into adult female Sprague-Dawley rats revealed a half-life of 9 min for the recombinant protein compared to 7.8 min for the choriocarcinoma-derived hormone. In conclusion, we have shown that although CHO cells will glycosylate the recombinant protein differently than normal placental cells, the biological properties of our recombinant rPL-I are similar to those of the native, placenta cell-derived hormone.

Estrogen regulation and localization of galanin gene expression in the rat uterus.

To determine whether galanin is a target for estrogenic regulation in the rat uterus, we measured the effects of estrogen on galanin mRNA expression in the uterus of ovariectomized rats and compared the results with the regulation of galanin in the anterior pituitary. Treatment of the animals with a single dose of 17 beta-estradiol resulted in a rapid transient increase of galanin mRNA, similar to that in the pituitary of the same animals, with a peak at 3 h after stimulation and a return to prestimulation levels after 24 h. No galanin mRNA was detected in ovariectomized control animals in either tissue. By in situ hybridization of rat uterus 3 h after estrogen stimulation, we found that galanin mRNA was localized in the endometrium in stromal cells that are close to the lumen. There was no hybridization in the myometrium of the estrogen-treated animals. Surprisingly, and strikingly different from results in the pituitary, in the uterus with a constant and prolonged exposure to estrogen by diethylstilbestrol (DES) implants, the induction of galanin mRNA was only transient, with return to baseline levels by 24 h despite the continued presence of DES. On the other hand, in the pituitary there was a rapid and sustained increase of galanin mRNA. These data demonstrate that 1) one of the initial steps in the mechanism of estrogen stimulation in the rat uterus involves galanin gene expression; 2) in the uterus galanin mRNA is expressed in stromal cells of the endometrium; and 3) the regulation of galanin mRNA expression by estrogen in the pituitary and the uterus is markedly different.

Rat prolactin-like protein A partial gene and promoter structure: promoter activity in placental and pituitary cells.

Rat prolactin-like protein A (rPLP-A) is a member of a rapidly expanding family of prolactin-related proteins that are expressed during pregnancy by the rat placenta according to specific developmental patterns. Although the factors involved in the pituitary-specific expression of the prolactin and growth hormone genes themselves have been extensively studied, essentially nothing is known of the factors responsible for the placental expression of these new family members. In this paper we describe the isolation of rPLP-A genomic clones, analyze a portion of the 5' flanking sequence of this gene and use the recently described rat choriocarcinoma cell line, Rcho, in transient transfection studies to show that a 975 base-pair (bp) fragment of 5' flanking sequence is sufficient to specify placental expression of the rPLP-A gene.

Increased basic fibroblast growth factor in plasma from multiple endocrine neoplasia type 1: relation to pituitary tumor.

Multiple endocrine neoplasia type 1 (MEN1) is an autosomal dominant disorder characterized by tumors of the parathyroids, pancreatic islets, and anterior pituitary. We previously reported a basic fibroblast growth factor (bFGF)-like substance in the plasma of subjects with MEN1. In the present study we used a novel sensitive specific 2-site immunoradiometric assay to test for bFGF in plasma. The assay employs immobilized affinity-purified N-terminal-specific anti-bFGF antibodies (antigen capture) and high affinity binding to radioiodinated heparin. bFGF-like immunoreactivity was undetectable (< 0.2 ng/mL) in normal subjects and in most unaffected relatives of MEN1 subjects. We found detectable bFGF ranging from 0.24-1.28 ng/mL in 21 of 50 subjects with MEN1. Seven of 8 MEN1 subjects with untreated pituitary tumors had detectable plasma bFGF-like immunoreactivity. Plasma bFGF-like immunoreactivity decreased after surgery for pituitary tumor in 4 patients and after initiation of bromocryptine therapy in 4 patients. bFGF was increased in the plasma of several subjects with sporadic endocrine disorders, including 3 with untreated or persistent acromegaly. We conclude that pituitary tumor is a possible source of high circulating bFGF immunoreactivity in MEN1 plasma.

Effect of homologous placental lactogens, prolactins, and growth hormones on islet B-cell division and insulin secretion in rat, mouse, and human islets: implication for placental lactogen regulation of islet function during pregnancy.

Up-regulation of maternal islet function is essential to accommodate the increased demand for insulin during pregnancy. Previously, we suggested that lactogenic activity regulates islet function during pregnancy. However, this hypothesis was based on the effect of homologous PRLs on islets, since the homologous placental lactogens (or islets) were unavailable. In this study we examine the direct effects of homologous placental lactogens (PL), PRL, and GH on insulin secretion and B-cell division in rat, mouse, and human islets in vitro. Neonatal rat islets were cultured for 8 days in the presence of 0-1000 ng/ml rat PL-I (rPL-I), rPRL, or rGH. Media were changed daily, and the insulin concentration was determined. rPL-I and rPRL (500 ng/ml) treatment resulted in a 2-fold increase in insulin secretion. rGH (1000 ng/ml) elicited a 30% increase in insulin secretion. Similarly, cell replication, as indicated by BrdU incorporation into B-cells, was increased 4-fold in the presence of rPL-I and rPRL. The ED50 for insulin secretion and 5'-bromo-2'-deoxyuridine (BrdU) incorporation was 70 ng/ml for rPL-I and 150 ng/ml for rPRL. Similarly, in adult rat islets, insulin secretion was increased 1.6-fold, and B-cell replication increased 3-fold in the presence of the lactogenic hormones. Neonatal mouse islets were cultured for 8 days in the presence of 500 ng/ml mouse (m) PL-I, mPL-II, mPRL, or mGH. mPL-I, mPL-II, and mPRL treatment resulted in a 2-fold increase in insulin secretion. mGH elicited a 30% increase in insulin secretion. BrdU incorporation into B-cells was increased 3-fold in the presence of mPL-I and mPRL and 2-fold in the presence of mPL-II. Adult human islets were cultured for 8 days in the presence of 1 microgram/ml human (h) PL, hPRL, or hGH. For human islets isolated from six pancreata obtained from females, hPL (138 +/- 10%), hPRL (133 +/- 9%), and hGH (117 +/- 3%) significantly increased insulin secretion compared to that from control islets. This study compares the direct effects among homologous PLs, PRLs, and GHs on insulin secretion and B-cell division in rat, mouse, and human islets. The results indicate that placental lactogen directly regulates islet function in several species and is probably the principal hormone responsible for the increased islet function observed during normal pregnancy.

Growth hormone expression in human Burkitt lymphoma serum-free Ramos cell line.

A human nonpituitary cell line grown under serum-free (sf) conditions (sfRamos Burkitt lymphoma cell line) has been reported to secrete a 29K PRL-like peptide which acts as an autocrine growth factor. Conditioned medium from these cells was examined for lactogenic activity using the Nb2 bioassay and RIAs specific for human GH (hGH) and hPRL. SfRamos conditioned medium stimulated the growth of Nb2 cells. Anti-hGH monoclonal antibodies but not anti-hPRL inhibited the mitogenic effect of sfRamos conditioned medium on Nb2 cells. Immunoreactive hGH but not hPRL was detected by RIA. Immunoprecipitation with anti-hGH polyclonal antibody followed by Western blot analysis with anti-hGH monoclonal antibody revealed a specific 22K band with the same mobility as pituitary hGH. Northern blot analysis with an hGH complementary DNA (cDNA) probe revealed a 1.0-kilobase transcript migrating coincident with pituitary hGH messenger RNA. A less abundant, 1.6-kilobase transcript was also observed. Reverse transcriptase-polymerase chain reaction using specific primers for the hGH cDNA generated the predicted 248-base pair band. Polymerase chain reaction sequencing of this fragment revealed sequence identity to the hGH-N cDNA, demonstrating conclusively the expression of the hGH-N gene in the sfRamos cell line.

In situ detection and distribution of stanniocalcin mRNA in the corpuscles of Stannius of sockeye salmon, Oncorhynchus nerka.

Stanniocalcin (STC) gene expression was examined in the corpuscles of Stannius of sockeye salmon by in situ hybridization. Generally, the STC gene was not expressed uniformly in all cells of the corpuscles of Stannius. However, in cases where gene expression was uniform throughout a gland, it appeared that virtually all cells contained STC mRNA, thereby supporting the 'one cell type' hypothesis for the corpuscles of Stannius. Correlative immunocytochemistry on adjacent tissue sections indicated that cellular levels of stored hormone paralleled the distribution of STC mRNA. Stanniocalcin mRNA was undetectable in numerous other salmon tissues, thereby further supporting the notion that the STC gene is expressed exclusively in the corpuscles of Stannius.