Synthesis of both mRNA and peptide for gastrin-releasing peptide (GRP) has been demonstrated in the pregnant endometrium of sheep and women. However, it is not known whether GRP is synthesized in the sheep uterus during the oestrous cycle. Furthermore the cellular site of GRP mRNA synthesis in the uterus has not been determined. Therefore we examined the synthesis of GRP and determined the cellular location of GRP peptide and mRNA in sheep uterus taken at different times during the oestrous cycle (duration 17 days) and pregnancy (duration 145 days). Northern blot analysis of RNA isolated from ovine endometrium revealed low or no GRP mRNA at days 4, 10, 12 and 14 of the oestrous cycle and a 24-fold rise in GRP mRNA (normalized to glyceraldehyde-3-phosphate dehydrogenase (GAPDH) mRNA) between days 14 and 16. A similar pattern was observed during early pregnancy, with a 12-fold rise in GRP mRNA:GAPDH mRNA between days 17 and 20 of pregnancy. Levels of GRP peptide were determined by RIA and found to be low in endometrium isolated at days 4, 10, 12 and 14 of the oestrous cycle (1.0-1.6 pmol/g) and 4 to 5-fold higher at day 16. In situ hybridization localized GRP synthesis to the epithelial cells of the uterine glands at day 16 of the oestrous cycle and at days 17, 20, 40 and 50 of pregnancy. At day 140 of pregnancy diffuse hybridization to cells of the myometrium was also observed. Immunohistochemistry localized GRP peptide to the apical cytoplasm of uterine glandular epithelial cells at day 16 of the oestrous cycle. For samples obtained at day 20 of pregnancy, the area surrounding the glands also showed moderately strong staining. Further staining in the glandular lumen and the stromal tissue surrounding the glands was apparent at day 140 of pregnancy. No GRP immunoreactivity could be detected in the peripheral plasma during the oestrous cycle or the first 20 days of pregnancy. Sizing chromatography of GRP immunoreactivity extracted from endometrial tissue taken at day 10 of the oestrous cycle revealed two peaks that co-eluted with GRP(1-27) and GRP(18-27). However, during luteolysis and oestrus the major peak of GRP immunoreactivity extracted from endometrial tissue was larger than GRP(1-27) and similar to that seen previously in the gravid ovine endometrium. These studies demonstrate that a peptide similar to, but larger than, GRP is a major product of the glandular epithelium of the ovine uterus during the luteal regression phase of the oestrous cycle and post-blastocyst implantation in pregnancy and provide further evidence that GRP-related peptides have important regulatory roles in uterine function.
Endocrine tumors are useful sources for determining the synthesis and metabolism of secreted regulatory peptides. The present study was performed to compare the synthesis and metabolism of neurotensin (NT) in normal subjects and four patients with NT-producing tumors. NT mRNA was measured and characterized using oligonucleotide probes and Northern blots, while NT-like peptides were quantitated by RIA with region-specific antisera and high pressure liquid chromatography. Northern blot analysis of mRNA isolated from normal human ileum revealed two species of mRNA hybridizing to a heterologous canine oligonucleotide probe; the apparent sizes of the mRNA were 1.4 and 1.0 kilobases. An identical pattern was found in a pancreatic endocrine tumor, a prostatic adenocarcinoma, and a fibrolamellar hepatoma. The ratio of mRNA to peptide varied between the different tissues. For instance, the hepatoma was the richest source of NT mRNA, but the prostatic tumor contained the highest peptide concentration. Measurements with region-specific antisera showed that N-terminal immunoreactive fragments were more abundant than C-terminal fragments in pancreatic, prostatic, and carcinoid tumors (N/C-teminal ratios, 4.0, 1.6, and 5.0) and in equal concentrations in normal ileum. Reverse phase high pressure liquid chromatography revealed the presence of intact NT in addition to a variable number of smaller N-terminal peptides, presumed to be metabolites. In contrast the hepatoma contained a 5-fold excess of C-terminal immunoreactivity. The excess Cterminal immunoreactivity was also present in the circulation of this patient. The chromatographic properties, immunoreactivity, and unusual stability of the C-terminal fragment found in the hepatoma patient suggest that it is a substance distinct from NT itself and is released specifically by the fibrolamellar hepatoma.
The observations that the peptide hormone gastrin interacts with transferrin in vitro and that circulating gastrin concentrations are increased in the iron-loading disorder hemochromatosis suggest a possible link between gastrin and iron homeostasis. This study tested the hypothesis that gastrin and iron status are interrelated by measurement of iron homeostasis in mice and humans with abnormal circulating gastrin concentrations. Intestinal iron absorption was determined by 59 Fe uptake following oral gavage, and concentrations of duodenal divalent metal transporter-1 (DMT-1) and hepatic hepcidin mRNAs were determined by quantitative real-time PCR in agastrinemic (GasKO), hypergastrinemic cholecystokinin 2 receptor-deficient (CCK2RKO), or wild-type mice. Iron status was measured by standard methods in the same mice and in hypergastrinemic humans with multiple endocrine neoplasia type 1 (MEN-1). Iron absorption was increased sixfold and DMT-1 mRNA concentration fourfold, and transferrin saturation was reduced 0.8-fold and hepcidin mRNA expression 0.5-fold in juvenile GasKO mice compared with age-matched wild-type mice. In mature mice, few differences were observed between the strains. Juvenile CCK2RKO mice were hypergastrinemic and had a 5.4-fold higher DMT-1 mRNA concentration than wild-type mice without any increase in iron absorption. In contrast to juvenile GasKO mice, juvenile CCK2RKO mice had a 1.5-fold greater transferrin saturation, which was reflected in a twofold increase in liver iron deposition at maturity compared with wild-type mice. The correlation between transferrin saturation and circulating gastrin concentration observed in mutant mice was also observed in human patients with MEN, in whom hypergastrinemia correlated positively ( P = 0.004) with an increased transferrin saturation. Our data indicate that, in juvenile animals when iron demand is high, circulating gastrin concentrations may alter iron status by a CCK2R-independent mechanism.
Calcitonin gene-related peptide (CGRP) is a recently discovered peptide whose existence was first predicted following sequence analysis of the rat calcitonin gene. In the present study, plasma levels of CGRP were measured in patients with medullary thyroid carcinoma, both basally and following calcium or pentagastrin stimulation. Using a sensitive radioimmunoassay for CGRP, 19 of 21 patients with medullary thyroid carcinoma had elevated plasma levels of immunoreactive CGRP (median value 114 pmol/l) while 23 normal subjects had plasma CGRP levels below the detection limit of the assay (less than 10 pmol/l). Calcium or pentagastrin infusion in medullary thyroid carcinoma patients were potent stimuli to CGRP release, increasing plasma levels two- to five-fold. Chromatographic characterization using high pressure liquid chromatography of the CGRP immunoreactivity in plasma from two patients with medullary carcinoma of the thyroid demonstrated the presence of two molecular forms, neither of which co-eluted with synthetic human CGRP. The role of CGRP in the pathophysiology of medullary thyroid carcinoma is not clear but it may contribute to some of the clinical features associated with the disease. Furthermore, measurement of CGRP in conjunction with calcitonin could help in determining the prognosis of these patients.
Abstract Expression of hypoxia‐inducible factor ( HIF )1 α increases the risk of castrate‐resistant prostate cancer ( CRPC ) and metastases in patients on androgen deprivation therapy ( ADT ) for prostate cancer ( PC ). We aimed to investigate the effects of nonspecific HIF 1 α inhibitors (Digoxin, metformin, and angiotensin‐2 receptor blockers) on development of CRPC and metastases while on ADT . A retrospective review of prospectively collected medical records was conducted of all men who had continuous ADT as first‐line therapy for CRPC at the Austin Hospital from 1983 to 2011. Association between HIF 1 α inhibitor medications and time to develop CRPC was investigated using actuarial statistics. Ninety‐eight patients meeting the criteria were identified. Eighteen patients (21.4%) were treated with the nonspecific HIF 1 α inhibitors. Both groups had similar characteristics, apart from patients on HIF 1 α inhibitors being older (70 years vs. 63.9 years). The median CRPC ‐free survival was longer in men using HIF 1 α inhibitors compared to those not on inhibitors (6.7 years vs. 2.7 years, P = 0.01) and there was a 71% reduction in the risk of developing CRPC ( HR 0.29 [95% CI 0.10–0.78] P = 0.02) after adjustment for Gleason score, age, and prostate‐specific antigen ( PSA ). The median metastasis‐free survival in men on HIF 1 α inhibitors was also significantly longer compared to those on no inhibitors (5.1 years vs. 2.6 years, P = 0.01) with an 81% reduction in the risk of developing metastases ( HR 0.19 [ CI 0.05–0.76] P = 0.02) after adjustment for Gleason score, age, and PSA . Nonspecific HIF 1 α inhibitors appear to increase the progression‐free survival and reduce the risk of developing CRPC and metastases in patients on continuous ADT .
Amidated gastrin-releasing peptide (GRP) is the prototypical autocrine growth factor. Nonamidated peptides derived from the C terminus of pro-GRP are also biologically active in colorectal cancer (CRC) cell lines in vitro, via a receptor distinct from the GRP receptor. The aims of this study were to measure the amounts of pro-GRP-derived peptides in human CRC cell lines and tumors, characterize the immunoreactive peptide, and investigate its effect on proliferation in vitro and in vivo. Pro-GRP-derived peptides were quantitated by region-specific ELISA in extracts of five human CRC cell lines and 20 tumors. The immunoreactive material was purified by HPLC and its mass and sequence established by mass spectrometry. The concentration of GRPamide was determined by RIA. Proliferation of DLD-1 cells and murine gastrointestinal mucosa was measured by [(3)H]-thymidine incorporation and mitotic index, respectively. In CRC cell extracts, ELISA for pro-GRP-derived peptides detected 3-152 fmol/10(6) cells. The immunoreactive peptide was purified and identified as pro-GRP42-98. Resected stage III tumors contained significantly less pro-GRP immunoreactivity than stage II tumors, and no amidated GRP was detected in cell lines or tumors. Stable transfection of DLD-1 cells with pro-GRP short hairpin RNA, or treatment with a monoclonal anti-pro-GRP antibody, significantly reduced proliferation. Pro-GRP42-98, pro-GRP47-68, and pro-GRP80-97 significantly stimulated mitosis in colonic, but not small intestinal, mucosa of 10-wk-old mice. We conclude that nonamidated peptides derived from the C terminus of pro-GRP are expressed in significant quantities in CRC cell lines and tumors and stimulate the proliferation of CRC cells and of normal colonic mucosa. Such peptides are attractive targets for novel CRC therapies.
We have examined the coupling between somatostatin, gastrin, and gastric acidity, using sheep chronically immunized against somatostatin. All immunized sheep had high-titer (3.2 × 105 ± 1.1 × 104 M), high-affinity (1.5 × 1011± 1.2 × 1010 l/mol) antibodies. However, basal gastrin and gastric acidity were similar to those in control animals, indicating that an inhibitory somatostatin tone was not required for the maintenance of normal basal gastrin and gastric acidity. Omeprazole (a proton pump inhibitor) increased gastric pH to a similar extent in both the control and immunized groups but resulted in a smaller increase in plasma gastrin in the immunized sheep, thus calling into question the assumption that hypergastrinemia associated with hypochlorhydria is the result of somatostatin withdrawal. Pentagastrin- or histamine-stimulated somatostatin secretion reversed or attenuated the omeprazole-induced hypergastrinemia in control but not immunized sheep, demonstrating a functional role for somatostatin and the biological efficacy of the somatostatin immunization. In a separate series of omeprazole-treated sheep, restoration of an acidic gastric pH with intragastric HCl reversed the hypergastrinemia in both control and immunized animals. We conclude that somatostatin is not essential for the acid-mediated regulation of gastrin. The use of a chronically immunized model as opposed to the acute administration of somatostatin antibodies has important advantages in determining the steady-state regulatory role of somatostatin.
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