Radiolabeled peptides for targeting cholecystokinin-B/gastrin receptor-expressing tumors

The high sensitivity of pentagastrin stimulation in detecting primary or metastatic medullary thyroid cancer (MTC) suggests widespread expression of the corresponding receptor type on human MTC. Indeed, autoradiographic studies have demonstrated cholecystokinin (CCK)-B/gastrin receptors not only in more than 90% of MTCs but also in a high percentage of small cell lung cancers, some ovarian cancers, astrocytomas and potentially a variety of adenocarcinomas. The aim of this study was to systematically screen and optimize, in a preclinical model and a pilot clinical study, suitable radioligands for targeting CCK-B receptors in vivo.

METHODS

A variety of CCK/gastrin-related peptides, all bearing the C-terminal CCK receptor-binding tetrapeptide sequence Trp-Met-Asp-PheNH2 or derivatives thereof, were studied. They were radioiodinated by the lodogen or Bolton-Hunter procedures. The peptides were members of the gastrin or CCK families, which differ by the intramolecular position of a tyrosyl moiety. Their stability and affinity were studied in vitro and in vivo; their biodistribution and therapeutic efficacy were tested in nude mice bearing subcutaneous human MTC xenografts. Diethylenetriamine pentaacetic acid (DTPA) derivatives of suitable peptides were synthesized successfully, and their preclinical and initial clinical evaluations were performed, labeled with 111In.

RESULTS

All members of the CCK or gastrin families were stable in serum (with half-lives of several hours at 37 degrees C); nevertheless, the stability of those peptides bearing N-terminal pGlu residues or D-amino acids was significantly higher. In accordance with their comparably low affinity, nonsulfated members of the CCK family showed fairly low uptake in the tumor and other CCK-B receptor-expressing tissues. Sulfated CCK derivatives performed significantly better but also displayed a comparably high uptake in normal CCK-A receptor-expressing tissues. This effect was probably due to their similar affinity for both CCK-A and CCK-B receptors. Best tumor uptake and tumor-to-nontumor ratios were obtained with members of the gastrin family because of their selectivity and affinity for the CCK-B receptor subtype. Pilot therapy experiments in MTC-bearing animals showed significant antitumor efficacy compared with untreated controls. DTPA derivatives of minigastrin were successfully developed. In a pilot clinical study, radioiodinated and 111In-labeled derivatives showed excellent targeting of physiological CCK-B receptor-expressing organs, as well as all known tumor sites.

CONCLUSION

CCK/gastrin analogs may be a useful new class of receptor-binding peptides for diagnosis and therapy of CCK-B receptor-expressing tumors, such as MTC or small cell lung cancer. Nonsulfated gastrin derivatives may be preferable because of their CCK-B receptor selectivity, hence lower accretion in normal CCK-A receptor-expressing organs.

Receptor autoradiographic evaluation of cholecystokinin, neurotensin, somatostatin and vasoactive intestinal peptide receptors in gastro-intestinal adenocarcinoma samples: where are they really located?

Receptors for cholecystokinin (CCK), gastrin, neurotensin, somatostatin and vasoactive intestinal peptide (VIP) are over-expressed in several human tumors, where they have diagnostic and therapeutic implications. Since reports on the expression of these peptide receptors in primary gastric and colonic adenocarcinomas are either non-existent or conflicting, a detailed evaluation with particular emphasis on the tissue localization was undertaken. CCK-A, CCK-B, neurotensin, somatostatin and VIP receptors were localized by in vitro receptor autoradiography with iodinated radioligands on histological sections of surgical samples of 27 gastric and 25 colonic adenocarcinomas. CCK-A, CCK-B and neurotensin-1 receptors were found in a minority of both tumor types. Somatostatin receptors were found in 18/27 gastric and 2/25 colonic cancers. VIP receptors were found in 14/26 gastric and 23/25 colonic cancers; subtype characterization suggests VIP1 receptors. In addition, resected tumor samples contained non-malignant tissues (mucosa, smooth muscle, nerves or vessels) with high amounts of the various peptide receptors. Therefore, regulatory peptide receptors are expressed differentially in gastric and colonic cancers but also very frequently in "contaminating" non-malignant tissues. Since results using morphological techniques are superior to those using homogenates, we recommend that localization of these receptors to the tissues should always be attempted, to minimize receptor over-estimation in tumors and to prevent spurious results.

High gastrin and cholecystokinin (CCK) gene expression in human neuronal, renal, and myogenic stem cell tumors: comparison with CCK-A and CCK-B receptor contents

Gastrin and cholecystokinin (CCK) are two major regulatory peptides synthesized by human gut and brain tissues as well as by selected tumors, in particular gastrin-producing neuroendocrine tumors. In the present study we have evaluated gastrin and CCK gene expression in a group of primary human tumors, including neuronal, renal, and myogenic stem cell tumors, using in situ hybridization techniques. In addition, CCK-A and CCK-B receptors were evaluated in the same group of tumors with receptor autoradiography. Most tumors had gastrin messenger ribonucleic acid (mRNA): 10 of 11 medulloblastomas, 5 of 5 central primitive neuroectodermal tumors, 11 of 11 Ewing sarcomas, 8 of 10 neuroblastomas, 4 of 4 Wilms' tumors, 5 of 5 rhabdomyosarcomas, and 10 of 10 leiomyosarcomas. CCK mRNA was restricted predominantly to Ewing sarcomas (9 of 11) and leiomyosarcomas (5 of 10). CCK-A and CCK-B receptors were not frequently found in these tumors, except for leiomyosarcomas. These data suggest that gastrin and CCK may play a previously unrecognized role in this group of human stem cell tumors. If the increased gastrin mRNA indeed translates into increased gastrin production, measurement of gastrinemia may have a diagnostic significance in the early detection of these tumors. As these two hormones have been reported to act as potent growth factors, they may be of pathophysiological relevance for patients with such stem cell tumors.

Expression of CCKB/gastrin receptor isoforms in gastro-intestinal tumour cells

Anti-serum raised against the human cholecystokinin B (CCKB)/gastrin receptor was used in Western blotting to differentiate the cellular locations of receptor isoforms expressed by human gastro-intestinal (GI) tumour cell lines. Using anti-serum directed against the amino-terminal extracellular tail of the CCKB/gastrin receptor, 8/9 cell lines were shown to express immunoreactive proteins of either m.w. 70 or 40 kDa, or both. Both isoforms were found to be associated with intracellular, non-nuclear membranes, whereas only the 70 kDa protein was expressed in the plasma membrane. Receptor expression was related to gastrin production and secretion. Both progastrin and glycine-extended gastrin-17 were produced and secreted by the tumour cell lines; however, carboxy amidated gastrin was not detected by radioimmunoassay. A CCKB/gastrin receptor transfectant NIH3T3 cell line did not produce detectable gastrin and showed exclusive expression of the 70 kDa receptor on the plasma membrane. One cell line had <50 pg/ml cell-associated progastrin and no detectable receptor form. Cell lines expressing 50-150 pg/ml had both 40 and 70 kDa receptor forms. Those expressing >150 pg/ml progastrin had only the 40 kDa isoform, which was shown to be exclusively expressed on intracellular, non-nuclear membranes, in one of the cell lines. Of the 4 cell lines exclusively expressing the lower m.w. receptor, 3 had gastrin present within the cell, which was not secreted. Thus, if cell-associated gastrin induces a proliferative effect, it may be by an intracrine pathway. Our study has identified the presence of CCKB/gastrin receptor isoforms in different cellular locations and may help toward understanding the complex autocrine and intracrine pathways mediated by gastrin peptides.

Gastrin/cholecystokinin type B receptors in the kidney: molecular, pharmacological, functional characterization, and localization

BACKGROUND

Gastrin/cholecystokinin type B receptors (CCKBRs) can be found on parietal cells and smooth muscle cells and are the predominant brain CCK receptors. Recent cloning studies indicate that this is receptor type might also be expressed in the kidney.

MATERIALS AND METHODS

We used Northern blot analysis in guinea pig. kidney and reverse transcriptase polymerase chain reaction (RT-PCR) in several murine kidney cells lines to evaluate this organ for the expression of the CCKBRs. The receptor was pharmacologically characterized by displacement experiments using [125I]-BH-CCKs and various agonists and antagonists. Polyclonal antibodies vs. the CCKBRs were raised in chicken, and immunohistochemistry on tissue sections was used to localize the receptor within the organ. The effect of gastrin on renal cell growth was measured using proximal tubulus (MCT) cells, which were cultured with gastrin (10-9 M) for 24-72 h. Cell counts and [3H]-thymidine incorporation experiments were performed.

RESULTS

CCKBR transcripts can be detected in kidney RNA (tubules > glomeruli > interstitium). RT-PCR revealed CCKBR transcripts in proximal tubules (MCT cells) and in mesangium (MMC). The medullary thick ascending limb of Henle's loop and several control tissues such as liver and muscle were negative. Displacement experiments using [125I]-BH-CCK and various agonists and antagonists identified binding sites with typical CCKBR pharmacology. CCKBRs were localized in the proximal tubulus, distal collecting ducts and mesangium cells. Treatment of rested MCT cells with gastrin 17-1 induced cell proliferation and [3H]-thymidine incorporation by at least 40% compared with normal growth (P < 0.05).

CONCLUSION

These results show for the first time that CCKBRs are present in selected areas of the kidney, and strongly confirm our previous observation that this organ expresses binding sites for [125I]-gastrin. Furthermore, gastrin might act as a growth factor in the kidney.

Unsulfated DTPA- and DOTA-CCK analogs as specific high-affinity ligands for CCK-B receptor-expressing human and rat tissues in vitro and in vivo

Receptors for regulatory peptides such as somatostatin or vasoactive intestinal polypeptide are expressed by a number of human neoplasms and can be visualized in vivo with peptide receptor scintigraphy. Recently, the CCK-B receptor, which binds both gastrin and cholecystokinin with high affinity, was shown using in vitro methods to be overexpressed in a number of human tumor tissues, including medullary thyroid carcinomas, small cell lung cancers, astrocytomas, gastrointestinal tumors, and stromal ovarian cancers. In the present study, we have designed novel, unsulfated CCK octapeptide analogs linked to the metal chelating DTPA and DOTA, and have tested them for their binding affinity to CCK-B receptor-positive tissue from human tumors: The most potent compounds assayed were DTPA-[Nle28, 31]-CCK(26-33) (MP2286) and DTPA-[d-Asp26,Nle28,31]-CCK(26-33) (MP2288) with an IC50 of 1.5 nM. For comparison, analogs with C-terminal DTPA, such as [Nle28,31,Aphe33(p-NH-DTPA)]-CCK(26-33) and CCK-(26-33)-NH(CH2)2 NH-DTPA, had an IC50 of >100 nM. DOTA-[D-Asp26, Nle28,31]-CCK(26-33) had an IC50 of 3.9 nM. The compounds were selective for CCK-B receptors as they did not bind with high affinity to CCK-A receptors expressed in human tumors (meningiomas or gastroenteropancreatic tumors). In vivo rat biodistribution studies with indium-111 labeled MP2286 and MP2288 showed that the primary mode of clearance was renal, and the primary sites of uptake (% ID/g 24 h p.i.) were kidneys (0.270 and 0.262, respectively) and the gastrointestinal tract. The CCK-B receptor-expressing gastric mucosa showed specific in vivo accumulation of 111In-labeled MP2288 which could be blocked in the presence of excess unlabeled MP2288. 111In-labeled MP2286 and MP2288 were also found to be stable in human plasma whereas both compounds were degraded in urine (>40% after 3 h at 37 degrees C). The affinity, specificity, biodistribution, and stability of these two DTPA-CCK analogs indicate that these compounds have substantial promise for use in the in vivo visualization of CCK-B receptor-expressing tumors.

Localization of CCK receptors in thalamic reticular neurons: a modeling study

In an earlier experimental study, intracellular recording suggested that cholecystokinin (CCK) suppresses a K+ conductance in thalamic reticular (RE) neurons, yet the reversal potential of the CCK response, revealed using voltage clamp, was hyperpolarized significantly relative to the K+ equilibrium potential. Here, biophysical models of RE neurons were developed and used to test whether suppression of the K+ conductance, gK, can account for the CCK response observed in vitro and also to determine the likely site of CCK receptors on RE neurons. Suppression of gK in model RE neurons can reproduce the relatively hyperpolarized reversal potential of CCK responses found using voltage clamp if the voltage clamp becomes less effective at hyperpolarized potentials. Three factors would reduce voltage-clamp effectiveness in this model: the nonnegligible series resistance of the voltage-clamp electrode, a hyperpolarization-activated mixed cation current (Ih) in RE neurons, and the dendritic location of CCK-sensitive K+ channels. Although suppression of gK in the dendritic compartments of model RE neurons simulates both the magnitude and reversal potential of the CCK response, suppression of gK in just the somatic compartment of model RE neurons fails to do so. Thus the model predicts that CCK should effectively suppress K+ conductance RE neuron dendrites and thereby regulate burst firing in RE neurons. This may explain the potent effects of CCK on intrathalamic oscillations in vitro.

Targeting of cholecystokinin-B/gastrin receptors in vivo: preclinical and initial clinical evaluation of the diagnostic and therapeutic potential of radiolabelled gastrin

The outstanding sensitivity of pentagastrin in detecting the presence of primary, recurrent or metastatic medullary thyroid cancer (MTC) suggests widespread expression of the corresponding receptor type in human MTC. Indeed, recent autoradiographic studies have demonstrated the presence of cholecystokinin (CCK)-B (= gastrin) receptors not only in more than 90% of MTCs but also in a high percentage of small cell lung cancers, stromal ovarian cancers, astrocytomas and several other tumour types. The aim of this study was to evaluate whether radiolabelled gastrin may be suitable for targeting CCK-B receptor-expressing tumours in vivo. For this purpose, the biodistribution of the radioiodinated human heptadecapeptide gastrin-I was studied in nude mice bearing subcutaneous xenografts of the human MTC cell line, TT. Initial therapy experiments were undertaken. Finally, the biodistribution of iodine-131- labelled gastrin-I was studied in a patient with metastatic MTC. At a peptide amount of approximately 1 microg, maximum tumour uptake (8.9+/-2.9%ID/g) was observed in animals at 1 h post injection, with tumour-to-blood ratios as high as 6.3+/-1.9. Physiological CCK-B receptors in the stomach, gallbladder and pancreas of the mice were targeted as well. The major route of excretion was renal, but strong evidence for a biliary excretion pathway also exists. Pilot therapy studies with 131I-labelled gastrin showed significant anti-tumour efficacy as compared with untreated controls. In accordance with the preclinical data, good receptor targeting was observed in the tumour sites, stomach, gallbladder and pancreas of a patient with metastatic MTC. These data suggest that gastrin and its analogues may represent a useful new class of receptor binding peptides for diagnosis and therapy of a variety of tumour types, including MTC and small cell lung cancer. Future preclinical and clinical studies will address in more detail the molecular features that render CCK-B receptor binding agents potentially useful candidates for in vivo scintigraphy and radionuclide therapy.

Autoradiographic identification of a gastrin receptor on the human parietal cell

Gastrin plays an important role in regulating gastric acid secretion and gastrointestinal mucosal growth but its cellular sites of action in man have not been determined. Using cryostat sections of gastric mucosal tissue we have identified (125I-gastrin binding followed by fixation-wet emulsion autoradiography) and characterized (125I-gastrin binding followed by counting) a gastrin receptor binding site in the human stomach. This site displayed binding characteristics similar to those observed in isolated cell systems: specifically, 125I-gastrin binding was rapid (t1/2 approximately 10 min at 37 degrees C), temperature-dependent (3.5 fold more radioligand bound at 22 degrees C than at 4 degrees C) and saturable. The binding of the radioligand was also tissue specific and was five-fold greater in the gastric body than in the gastric antrum and duodenum. In the autoradiographs, silver grains were localized only to parietal cells and not to other epithelial cell types. In the presence of 40 nM gastrin grains were no longer present over parietal cells demonstrating that these sites were both saturable and of high affinity. These data provide the first demonstration of gastrin binding sites (putative receptors) on parietal cells in the human stomach and suggest that gastrin acts directly on these cells to help regulate gastric acid secretion and/or mucosal growth.

Altered cholecystokinin binding site density in the supraoptic nucleus of morphine-tolerant and -dependent rats

The processes underlying the development of neuronal tolerance to and dependence upon opiates are not yet fully understood. To evaluate a possible role for cholecystokinin (CCK) in these processes, quantitative receptor autoradiography and in situ hybridisation histochemistry were used to study both the density and distribution of sulphated CCK octapeptide (CCK8S) binding sites and preproCCK peptide mRNA levels within the dorsal (oxytocin neurone-rich) supraoptic nuclei of rats given an intracerebroventricular (i.c.v.) infusion of morphine over 5 days, which is known to induce tolerance and dependence in mechanisms regulating oxytocin neurones. Specific CCK8S binding was significantly increased in the supraoptic nuclei of both morphine-dependent and salt-loaded (2% sodium chloride to drink for 48 h) rats compared to their respective controls (P < 0.05). In situ hybridisation histochemistry revealed no difference in preproCCK mRNA levels within supraoptic neurones of (i.c.v.) morphine-treated compared with either i.c.v. vehicle-treated or untreated control animals. These results suggest that CCK receptor mechanisms involved in the control of magnocellular oxytocin neurone activation are upregulated during chronic morphine treatment, and this may favour increased sensitivity to CCK, thereby offsetting the inhibitory actions of morphine, contributing to tolerance and perhaps to the withdrawal excitation characteristic of dependence.

Glycine-extended gastrin acts as an autocrine growth factor in a nontransformed colon cell line

BACKGROUND & AIMS

The hypothesis that progastrin-derived peptides act as autocrine growth factors for colorectal carcinomas has generated considerable interest. However, the influence of autocrine gastrins on nontumorigenic colonic cells has not been investigated. This study tested the above hypothesis in the nontumorigenic, conditionally immortalized mouse colon cell line YAMC.

METHODS

The effects of expression of antisense or sense gastrin messenger RNA, treatment with antibodies against progastrin-derived peptides, or treatment with gastrin receptor antagonists on YAMC cell proliferation were measured.

RESULTS

YAMC clones expressing antisense gastrin messenger RNA had reduced levels of immunoreactive progastrin-derived peptides and a reduced rate of proliferation, relative to vector only-transfected cells. Glycine-extended gastrin17, but not amidated gastrin17, reversed the antisense-induced inhibition of proliferation and stimulated the proliferation of sense- or vector only-transfected cells. YAMC cells bound 125I-glycine-extended gastrin17 (Kd, 0.36 nmol/L, 1810 sites/cell), but not 125I-amidated gastrin17, and binding was unaffected by gastrin receptor antagonists including benzotript. Proliferation of all YAMC clones was partially inhibited either by an antibody selective for glycine-extended gastrin or by preincubation with benzotript, and the inhibitory effects were additive.

CONCLUSIONS

YAMC cells use nonamidated progastrin-derived peptides as autocrine growth factors, partly through binding to an extracellular receptor selective for glycine-extended gastrin, and partly through an intracellular mechanism.

Gastrin receptor expression and function during rapid transformation of the enterochromaffin-like cells in an African rodent

The enterochromaffin-like cell (ECL) cells of the stomach are principally regulated by gastrin via a gastrin/CCK(B) receptor (G[R]) which modulates both histamine secretion and cell proliferation. In the African rodent (mastomys) hypergastrinemia generated by the histamine-2 receptor antagonist (loxtidine) results in ECL cell hyperplasia and neoplasia at 8 and 16 weeks respectively. The expression, structure and function of the G(R) during transformation is however unknown. We utilized a pure (approximately 90%) preparation of ECL cells to evaluate alterations in the G(R) utilizing immunocytochemistry, Western blot analysis, reverse transcription polymerase chain reaction (RT-PCR), 5-bromo-2-deoxyuridine uptake and phosphorylation site analysis. Although the expression of ECL cell G(R) was upregulated at both mRNA (PT-PCR) and protein (Western analysis) level, its affinity to gastrin was decreased in the hyperplastic phase and lost during transformation. The coding sequence of the G(R) of mastomys tumor ECL cells was identical to that of normal ECL cells, parietal cells and the brain. However, the mRNA sequence of the third introcytoplasmic loop of the G(R) was significantly different to other species. In addition, the G(R) exhibited phosphorylation site on serine residue(s). We have thus noted a direct correlation between hypergastrinemia and G(R) alteration and function during ECL cell transformation. It is possible that the unique mastomys gastrin receptor mediated ECL cell transformation involves the novel phosphorylation sites and a divergence in the introcytoplasmic domain.

Differential expression of the CCK-A and CCK-B/gastrin receptor genes in human cancers of the esophagus, stomach and colon

The expression of cholecystokinin (CCK) and gastrin (G) receptors in human gastrointestinal cancers remains poorly documented and is still of a controversial nature. We have measured the levels of mRNA for CCK-A and CCK-B/gastrin receptors using quantitative reverse transcription-polymerase chain reaction (RT-PCR) in primary digestive cancers and hepatic metastases. CCK-A-receptor mRNA was detected in 5 out of 8 esophageal cancers (0.1-1 fg/microg), in 5 out of 8 gastric cancers (0.05-4.2 fg/microg) and in 5 out of 12 colon cancers (0.1-1 fg/microg RNA). CCK-B/gastrin mRNA was not detected in esophageal cancers but was detected in 7 out of 8 gastric cancers (0.05-5.2 fg/microg), and in only 2 out of 12 colon adenocarcinomas (0.05-1 fg/microg RNA). The expression of the CCK-A receptor in esophageal, gastric and colon cancers and of the CCK-B/gastrin receptor in the majority of gastric adenocarcinomas screened may be an important indicator of the influence of CCK and gastrin of local or systemic origin on the growth of these cancers.

Immunohistochemical localization of gastrin/CCK-B receptors in the dog and guinea-pig stomach

Gastrin/CCK-B receptors are involved in the regulation of several types of cells of the gastric mucosa, including the parietal cells, the ECL cells and the D cells. In this study, we aimed at localizing such receptors in the gastric mucosa. For this purpose, we prepared monospecific antibodies against two sequences of the canine gastrin/CCK-B receptor. Sections of formalin-fixed, paraffin-embedded corpus and antrum from dog and guinea-pig were immunostained with these antibodies. In parallel, sections were stained with antibodies against somatostatin. Staining with gastrin/CCK-B receptor antibodies was observed in a few, small epithelial cells in the bottom part of the corpus mucosa. Immunoreactive cells of the antral mucosa were structurally similar, but more frequent. The same cells also stained with somatostatin antibodies. In addition one of the gastrin/CCK-B antibodies reacted with canine submucosal smooth muscle cells. No staining was observed in sections exposed to antibodies that were pre-absorbed with the corresponding antigen. We conclude that gastrin/CCK-B receptors are present in D cells of the gastric mucosa and in submucosal smooth muscle cells.

Cholecystokinin, dopamine D2 and N-methyl-D-aspartate binding sites in the nucleus of the solitary tract of the rat: possible relationship to ingestive behavior

Receptor autoradiography was used to investigate the distribution of brainstem binding sites for cholecystokinin, dopamine and N-methyl-D-aspartate with particular reference to the nucleus of the solitary tract of the rat, an area involved in the control of ingestive behavior. Binding sites for the A and B subtypes of the cholecystokinin receptor, labeled with [(125)I]cholecystokinin octapeptide sulfate in the presence or absence of antagonists for the devazepide (A) or L-365,260 (B) receptor, were present throughout the caudal rostral extent of the nucleus of the solitary tract, the A type predominating in the commissural, medial and gelatinous part and the B type in the lateral part. In the most rostral part of the medial nucleus of the solitary tract, both A and B receptors were present. Dopamine D2 receptors, labeled with [(125)I]NCQ-298, were found in all parts of the nucleus of the solitary tract. No binding to the dopamine D1 receptor, labeled with [(125)I]SCH-23982, was found in the brainstem. N-Methyl-D-aspartate receptors, labeled with [(3)H]dizocilpine maleate, were also present in the entire caudorostral extent of the nucleus of the solitary tract. Binding to cholecystokinin A receptors was co-distributed with [(125)I]NCQ-298 and [(3)H]dizocilpine maleate binding in the caudal and rostral parts of the nucleus of the solitary tract, and binding to cholecystokinin B receptors overlapped with [(125)I]NCQ-298 and [(3)H]dizocilpine maleate binding in the rostral nucleus of the solitary tract. These results are consistent with the hypothesis that cholecystokinin, dopamine and glutamate interact in the nucleus of the solitary tract in the control of ingestive behavior.

Transfected cholecystokinin receptors mediate growth inhibitory effects on human pancreatic cancer cell lines

BACKGROUND & AIMS

Cholecystokinin (CCK) acting via CCK(A) receptors and gastrin acting via CCK(B) receptors exert trophic effects on a variety of nontransformed tissues. However, their role as hormonal regulators of pancreatic cancer is controversial. The aim of this study was to determine the effects of activation of CCK(A) and CCK(B) receptors on the growth of human pancreatic cancer cells in vitro.

METHODS

Two human pancreatic cell lines MiaPaca-2 and Panc-1 were transfected stably with both CCK receptor subtypes. Effects of CCK on various growth parameters including DNA synthesis, nuclear labeling, and colony formation were evaluated.

RESULTS

Cells expressing either receptor subtype, but not untransfected cells, bound ligand and mobilized Ca2+ in response to CCK. CCK treatment caused a sustained pronounced inhibition of anchorage-independent growth. Similarly, CCK treatment inhibited anchorage-dependent growth. Receptor activation caused a concentration and time-dependent reduction in [3H]thymidine incorporation and nuclear labeling in cells cultured anchored to a plastic substrate. However, these effects on anchorage-dependent growth were transient, suggesting cellular desensitization.

CONCLUSIONS

These data indicate that both CCK receptor subtypes can mediate growth inhibitory responses in pancreatic cancer cell lines and raise the possibility that CCK exerts a predominant growth inhibitory action on human pancreatic cancer cells.

Effects of C-terminal fragments of cholecystokinin on plasma insulin and glucagon concentrations in sheep

The effects of three C-terminal fragments of cholecystokinin (CCK) (CCK-8-sulphated form [SF], CCK-8-non-sulphated form [NSF] and CCK-4) on insulin and glucagon secretion were examined in sheep in vivo. Each CCK fragment was injected intravenously at a wide range of doses (1 pmol to 3 x 10(5) pmol kg-1). CCK-8(SF) had the lowest threshold dose (10 pmol kg-1) and a maximal response dose of 10(3) pmol kg-1 for increasing plasma insulin concentration; the respective threshold doses of CCK-8(NSF) and CCK-8 for increasing plasma insulin were 30 and 100 times greater than that of CCK-8(SF). A maximal insulin response was not obtained at the highest doses of CCK-8(NSF) or CCK-4 tested (3 x 10(3) and 3 x 10(5) pmol kg-1, respectively). These results indicate that CCK-A type receptors rather than CCK-B receptors may be involved in CCK-induced insulin secretion in sheep. None of the CCK fragments affected plasma glucagon concentration. The lack of a glucagon response to exogenous CCK-fragments may be one of the characteristics of the endocrine pancreatic responses of ruminant species.

Cholecystokinin peptides in cerebrospinal fluid: a study in healthy male subjects

The clinical reliability of measuring cholecystokinin (CCK) peptides in the cerebrospinal fluid (CSF) has not been fully elucidated. Therefore, we have assayed CCK-8S and CCK-4 in CSF obtained from 14 healthy male subjects, lumbar-punctured at the L4-5 level following a strictly standardised procedure. CSF concentrations of free CCK-8S and free CCK-4 were used as dependent variables while age, height, body weight, atmospheric pressure and some other factors served as independent variables. It was shown that the CCK-8S ratio between the second (7-12 ml) and first (0-6 ml) CSF fractions, correlated significantly with the atmosphere pressure at the time of puncture. Neither CCK-8S nor CCK-4 displayed concentration gradients in CSF. The CCK-4 levels, expressed as pmol l-1 in the total amount of CSF were found to be positively correlated with the neuraxis distance in the lying position and negatively with the neuraxis distance in the sitting position. Furthermore, CCK-4, expressed as pmol l-1 per min of tapping-time (pmol l-1 min-1), showed a negative correlation with storage time, presumably mirroring a proteolytic process. CCK-8S and CCK-4 intercorrelated positively independently of whether expressed as pmol l-1 or pmol l-1 min-1. In conclusion, the results of this exploratory study indicate that the neuraxis distance (in the sitting and lying positions) and storage-time have to be accounted for when interpreting data on CSF levels of CCK-4. Attention has to be paid to the potential influence of atmospheric pressure on the concentration ratio of CCK-8S.

Cholecystokinin receptors in human pancreas and gallbladder muscle: a comparative study

BACKGROUND & AIMS

Cholecystokinin (CCK) receptors mediate pancreatic secretion and gallbladder contraction. Hitherto, little information on characteristics of CCK receptors in the human pancreas was available. This study identifies CCK receptors in the human pancreas and compares their characteristics with the CCK receptors in the human gallbladder.

METHODS

Visualization and quantification of 125I-Bolton-Hunter sulfated CCK octapeptide (125I-BH-CCK-8) binding to tissue sections of the human pancreas and gallbladder were performed by storage phosphor autoradiography.

RESULTS

Specific bindings for CCK were visualized in pancreatic tissue and the smooth muscle layer of the gallbladder. Binding of 125I-BH-CCK-8 to the pancreas was inhibited by agonists with the affinities (dissociation constant) of CCK (0.11 nmol/L) approximately gastrin (0.15 nmol/L) and by antagonists with the affinities of CCK-B receptor antagonist (L365,260, 0.18 nmol/L) > CCK-A receptor antagonist (lorglumide, 8.1 nmol/L). In contrast to the pancreas, binding of 125I-BH-CCK-8 to the gallbladder muscle was inhibited with high affinity by CCK-8 and lorglumide but was replaced to a small degree by gastrin and L365,260.

CONCLUSIONS

The sub-types of receptors for CCK in the human pancreas and gallbladder are different. The human pancreas predominantly expresses CCK-B receptors, whereas only CCK-A receptors were localized in the human gallbladder muscle.

On the distribution of cholecystokinin B receptors in monkey brain

In view of recent evidence for a role for the B subtype of cholecystokinin (CCKB) receptor in panic and anxiety, the distribution of CCKB receptors in the forebrain of a Rhesus macaca monkey was examined by receptor autoradiography employing [125I]D-Tyr25(Nleu28,31)-CCK25-33S. CCKB receptors were widely and topographically distributed in cortex. Other structures with notable labelling included the basal ganglia, presubiculum, amygdala, mamillary bodies, cerebellar cortex and pineal gland. The distribution of CCKB receptors further supports roles for this peptide in behavioural processes.

Autoradiographic localization of cholecystokinin (CCK) receptor expression during the development of azaserine-induced rat pancreatic carcinoma

The peptide hormone cholecystokinin (CCK) has been shown to stimulate the growth of azaserine-induced preneoplastic nodules in the rat pancreas. Previously, our labortory demonstrated by classical binding studies that CCK receptors are overexpressed in azaserine-induced rat pancreatic neoplasms. In the present study, we utilized autoradiography to determine the temporal course of this increased receptor binding. Male Lewis rats were given azaserine or saline injections and sacrificed at 2, 4, 8, 12, and 18 months of age. Pancreatic tissue was harvested and autoradiography using 125l-labeled. CCK-8 was performed. Densitometry measurements of azaserine-induced pancreatic nodules, internodular pancreas, and normal pancreatic tissue (from saline-treated controls) of each age group were taken with an image analyzer. There was no statistically significant difference in CCK binding to internodular pancreas and normal pancreas at any age. At 2 months of age, there was no significant increase in CCK binding to azaserine-induced pancreatic nodules. However, at 4, 8, 12, and 18 months of age there was significantly greater CCK binding to azaserine-induced pancreatic nodules than to both internodular pancreas and normal pancreas (p < 0.001 for all groups). At 18 months of age, one azaserine-treated animal developed a pancreatic acinar cell carcinoma, which likewise exhibited significantly greater CCK binding than internodular pancreas or normal pancreas (p < 0.001 for both). These findings demonstrate increased CCK binding in azaserine-induced preneoplastic pancreatic nodules and pancreatic acinar cell carcinoma, compatible with our previous demonstration of receptor overexpression in these tissues. Increased CCK binding first becomes apparent by 4 months following exposure to azaserine. These result suggest that overexpression of CCK receptors, located specifically on preneoplastic and neoplastic pancreatic lesions, results in increased CCK binding and is involved in the mediation of CCK-stimulated growth during azaserine-induced pancreatic carcinogenesis.

Visualization and characterization of CCK receptors in exocrine pancreas of rat with storage phosphor autoradiography

Studies on cholecystokinin (CCK) receptors in rat pancreas are usually performed on homogenates. Using storage phosphor autoradiography, a new imaging technique with a high sensitivity and large linear dynamic range, we visualized and characterized CCK receptors in tissue sections of normal rat pancreas. The density of CCK receptors in pancreatic tissue sections from 10 normal rats appeared to be unevenly distributed and variable in serial sections. The binding of labeled CCK-8 was markedly inhibited by CCK-8 and CCK-A receptor antagonists, but it was only weakly affected by gastrin and CCK-B receptor antagonists. At room temperature the CCK-8 dose-inhibition curve was fitted by a two-site model: one with a high-affinity but low-capacity site and another with a low-affinity but high-capacity site. The CCK-8 dose-inhibition curve showed that the inhibition of the variable high-density receptors took place at a low concentration of CCK-8, while the diffuse low-density receptors were inhibited at the high concentration of 1 microM CCK-8. Binding of labeled CCK-8 at 37 degrees C was homogeneous with a low affinity and comprised only 4% of that found at room temperature. In summary, an uneven density of CCK receptors in the rat exocrine pancreas was observed and attributed to the variable expression of high-affinity CCK receptors in pancreatic acini.

Unexpected high incidence of cholecystokinin-B/gastrin receptors in human medullary thyroid carcinomas

The 2 gastrointestinal peptides cholecystokinin (CCK) and gastrin, which act through CCK-A receptors (having high affinity for CCK) or CCK-B/gastrin receptors (having high affinity for CCK and gastrin), are considered to be important tumor growth factors. We have evaluated CCK-A and CCK-B/gastrin receptors in 34 human thyroid cancers using in vitro receptor autoradiography with 2 different radioligands. We demonstrate high-affinity CCK-B/gastrin receptors in medullary thyroid carcinomas, present at very high incidence (92%) but the absence of these receptors in non-medullary thyroid carcinomas or in normal thyroid glands. CCK-B/gastrin receptors are therefore likely to be the molecular substrate for the pentagastrin-stimulation test, widely used in medullary thyroid carcinomas; moreover, they represent the targets for physiologically secreted gastrin or CCK which, as growth factors, may stimulate the growth of medullary thyroid carcinomas. Furthermore, these results have diagnostic as well as therapeutic implications: radiolabeled gastrin and CCK analogs may be used for scintigraphic tumor localization in vivo, whereas CCK-B-selective antagonists may be of therapeutic value.

Pancreatic endocrine dysfunction in rats not expressing the cholecystokinin-A receptor

Cholecystokinin (CCK) has been suggested to modulate insulin output. We have shown that Otsuka Long-Evans Tokushima Fatty (OLETF) rats show little or no expression of the CCK-A receptor gene in the pancreas. We examined whether the CCK-A and CCK-B receptor genes are expressed in the islets and the role of CCK-A receptor in insulin secretion. Gene expressions of CCK receptors were determined by the reverse-transcriptase polymerase chain reaction (RT-PCR) followed by Southern blot hybridization and Northern transfer analysis using LETO rats as controls. Pancreatic endocrine function was examined in perfusion (exogenous CCK stimulation) and meal ingestion (endogenous CCK stimulation) studies. CCK-A receptor mRNA was detected in the islets of LETO rats but not OLETF rats. Expression of the CCK-B receptor gene was detected in both strains by RT-PCR. Insulin secretion was impaired in OLETF rats, but the insulin contents of OLETF and LETO rats were not different. No abnormalities were detected histologically in either strain. These results suggest that the occurrence of pancreatic endocrine dysfunction in OLETF rats may be due to a defect in expression of the CCK-A receptor gene, not to insulin deficiency.