In vivo and in vitro characterization of CCK8 bearing a histidine-based chelator labeled with 99mTc-tricarbonyl

The development of receptor targeting radiolabeled ligands has gained much interest in recent years for diagnostic and therapeutic applications in nuclear medicine. Cholecystokinin (CCK) receptors have been shown to be overexpressed in a subset of neuroendocrine and other tumors. We are evaluating binding and biodistribution properties of a CCK8 peptide derivative labeled with (99m)Tc(I)-tricarbonyl. The CCK8 peptide was modified at its N-terminus by adding to its N-terminus two lysine-histidine modules (KH), where histidine is coupled to the side chain of the lysine ((KH)(2)-CCK8). (99m)Tc(I)-tricarbonyl was generated with the IsoLinktrade mark kit. A431 cells stably transfected with a cDNA encoding for the human CCK2 receptor were utilized to determine binding affinity, internalization, and retention of the labeled peptide, in comparison with wild-type A431 cells. A nude mouse tumor model was obtained by generating A431-CCK2R and A431-control tumors in opposite flanks of the animals. High specific activity labeling with (99m)Tc was achieved. In A431-CCK2R cells, specific saturable binding was observed as well as evident internalization of the radiolabeled peptide after binding. Biodistribution experiments showed rapid, specific localization of (KH)(2)-CCK8 on A431-CCK2R xenografts compared with control tumors, although absolute uptake values were not markedly higher compared with background activity. Clearance of unbound radioactivity was both urinary and hepatobiliary. In imaging experiments, while targeting to CCK2R positive tumors could be appreciated, there was poor contrast between target and nontarget areas. (KH)(2)-CCK8 shows adequate in vitro and in vivo properties for CCK2R targeting although improvement of biodistribution warrant further development.     

External pancreatic secretion in the rat: supramaximal inhibition induced by the cholecystokinin octapeptide [CCK(26-33)] and analogs altered on the 28-29 bond

Supramaximal doses of cholecystokinin induce in vitro submaximal biological responses, desensitization and residual stimulation. In vivo, supramaximal inhibition and oedematous pancreatitis have been reported. The aim of this study was to analyze the in vivo response of the pancreatic secretion of the rat to a wide range of doses of CCK8 and analogs prepared by alterations of the Met(28)-Gly(29) bond, a modification that may lead to potent agonists. We used Boc-[Nle28-Nle31]-CCK(26-33) (1) and derivatives of (1) with the 28-29 peptide bond replaced by CH2-NH (2), CO-CH2 (3), CH2-CH2 (4), NH-CO (5). On infusions, the ED50's (pmol/kg.min) for protein output were 4 for CCK8 and (1), 11 for (3), 40 for (2) and (4), and 860 for (5). The relative order of the in vivo potencies was near to the one determined in vitro on isolated rat acini. On bolus injections, the maximal response was observed with 300 pmol/kg of CCK8, and peaked 10-15 min after the injection. With higher doses of CCK8, the secretory peak was smaller, and was delayed relative to the moment of the injection. Supramaximal doses of CCK analogs induced the same pattern of response; however, the peak injection delay was in some cases smaller than after CCK8. Determination of the plasma CCK levels indicated that the time of peak effect after supramaximal doses of CCK8 was delayed relative to the time of effective maximal plasma CCK levels. This suggests a slow dissociation of CCK8 from one of its pancreatic binding sites in vivo.(ABSTRACT TRUNCATED AT 250 WORDS)     

Receptor fragment approach to the binding between CCK8 peptide and cholecystokinin receptors: a fluorescence study on type B receptor fragment CCK(B)-R (352-379)

Fluorescence titrations in a membrane mimetic solvent system allowed us to estimate that the dissociation constant of the bimolecular complex between CCK8 peptide and cholecystokinin type B receptor fragment CCK(B)-R (352-379) is in the micromolar range. When considered in the context of the full receptor/ligand model, these experiments demonstrate that the receptor fragment chosen on the basis of previous structural studies represents a reliable model system to monitor the ability of CCK8 or CCK8 analogs to bind the cholecystokinin receptor. Together with previous studies, this confirms that the receptor fragment approach adopted to define the binding mode of the CCK8 fragment of cholecystokinin with its two receptors, CCK(A) and CCK(B,) can be used to characterize the binding from the equilibrium standpoint. In this context, fluorescence spectroscopy proves to be the favored technique to measure dissociation constants in the nanomolar to micromolar range.     

A synthetic peptide derivative that is a cholecystokinin receptor antagonist

So far, there are no known peptidic effective receptor antagonists of both peripheral and central effects of cholecystokinin (CCK). Here, we describe a synthetic peptide derivative of CCK, t-butyloxycarbonyl-Tyr(SO3-)-Met-Gly-D-Trp-Nle-Asp 2-phenylethyl ester 1 (where Nle is norleucine), which is a potent CCK receptor antagonist. In rat and guinea pig dispersed pancreatic acini, this peptide derivative did not alter amylase secretion, but was able to antagonize the stimulation caused by cholecystokinin-related agonists. It caused a parallel rightward shift in the dose-response curve for the stimulation of amylase secretion with half-maximal inhibition of CCK-8-stimulated amylase release at a concentration of about 0.1 microM. Compound 1 was able to inhibit the binding of labeled CCK-9 (the C-terminal nonapeptide of CCK) to rat and guinea pig pancreatic acini (IC50 = 5 X 10(-8) M) as well as to guinea pig cerebral cortical membranes (IC50 = 5 X 10(-7) M). These results indicate that Compound 1 is a potent competitive CCK receptor antagonist.     

The first nonsulfated sulfakinin activity reported suggests nsDSK acts in gut biology

Invertebrate sulfakinins are structurally and functionally homologous to vertebrate cholecystokinin (CCK) and gastrin. To date, sulfakinins are reported to require a sulfated tyrosine for activity; sulfated and nonsulfated CCK and gastrin are active. This is the first nonsulfated sulfakinin activity reported. Nonsulfated Drosophila melanogaster sulfakinins or drosulfakinins (nsDSK I; PheAspAspTyrGlyHisMetArgPheNH2) and (nsDSK II; GlyGlyAspAspGlnPheAspAspTyrGlyHisMetArgPheNH2) decreased the frequency of contractions of adult D. melanogaster foregut (crop) in vivo. The EC50's for nsDSK I and nsDSK II were approximately 2 x 10(-9)M and approximately 3 x 10(-8)M, respectively. Nonsulfated DSK peptides also decreased the frequency of larval anterior midgut contractions. Sulfated DSK peptides decreased both adult and larval gut contractions. Whether sulfation is required for sulfakinin activity may depend on where the peptide is applied, what tissue is analyzed, or what preparation is used. D. melanogaster contains two sulfakinin receptors, DSK-R1 and DSK-R2; vertebrates contain two CCK receptors, CCK-1 and CCK-2. A sulfated DSK I analog, [Leu7] sDSK I, binds to expressed DSK-R1; the corresponding nonsulfated analog does not bind to DSK-R1. No DSK-R2 binding data are reported. Sulfated and nonsulfated CCK peptides preferentially bind to CCK-1 or CCK-2, respectively. Sulfated and nonsulfated sulfakinins may bind to DSK-R1 or DSK-R2, respectively. Sulfakinin activities, spatial and temporal distribution, and homology to CCK and gastrin suggest sulfated and nonsulfated DSK peptides act in diverse roles in the neural and gastrointestinal systems including gut emptying and satiety.     

Regulation of free cytosolic Ca2+ in the isolated guinea pig gastric chief cells

Stimulation with COOH-terminal octapeptide of cholecystokinin (CCK8) or carbachol resulted in a rapid increase in Quin-2 fluorescence of isolated guinea pig gastric chief cells, whereas histamine, vasoactive intestinal peptide, secretin or forskolin had no effect. The minimum effective dose of CCK8 or carbachol to elicit the rise in Quin-2 fluorescence was almost similar to that for pepsinogen secretion. Removal of Ca2+ from extracellular medium or Ca2+ channel blockers did not affect CCK8- or carbachol-induced increase in Quin-2 fluorescence. Moreover, following addition of CCK8, carbachol was unable to stimulate a second increase in Quin-2 fluorescence. These results suggest that CCK8 and carbachol share common Ca2+ pools and an increase in free cytosolic Ca2+ concentration may mediate CCK8- or carbachol-induced pepsinogen secretion from gastric chief cells.     

Synthesis and solution characterization of a porphyrin-CCK8 conjugate.

In this paper we report the synthesis and a detailed NMR solution characterization of a new CCK8 analogue and its indium(III) complex, PK-CCK8 and In-PK-CCK8. The new compounds contain a porphyrin moiety covalently bound through an amide bond to the side chain of a Lys residue introduced at the N-terminus of CCK8. A molecular dynamics simulation, based on the NMR structure of the complex between CCK8 and the N-terminal extracellular arm of the CCK(A) receptor, is also reported. Both the NMR study and the molecular dynamics simulation indicate that the porphyrin-peptide conjugate might be able to bind to the CCK(A) receptor model. The results of the molecular dynamics calculations show that the conformational features of the CCK8/CCK(A) receptor model complex and of the PK-CCK8/CCK(A) receptor-model complex are similar. This evidence supports the view that the introduction of the porphyrin-Lys moiety does not influence the mode of ligand binding to the CCK(A) receptor model. The NMR structure of PK-CCK8 in DMSO consists of a well defined pseudo-helical N-terminal region, while the C-terminal region is flexible. Moreover, the absence of NOE contacts between the porphyrin and the peptide indicates that the macrocyclic ring is directed away from the peptide region involved in the binding with the receptor.     

Effects of exogenous cholecystokinin octapeptide on acquisition of naloxone precipitated withdrawal induced conditioned place aversion in rats

Cholecystokinin octapeptide (CCK-8), a gut-brain peptide, regulates a variety of physiological behavioral processes. Previously, we reported that exogenous CCK-8 attenuated morphine-induced conditioned place preference, but the possible effects of CCK-8 on aversively motivated drug seeking remained unclear. To investigate the effects of endogenous and exogenous CCK on negative components of morphine withdrawal, we evaluated the effects of CCK receptor antagonists and CCK-8 on the naloxone-precipitated withdrawal-induced conditioned place aversion (CPA). The results showed that CCK2 receptor antagonist (LY-288,513, 10 μg, i.c.v.), but not CCK1 receptor antagonist (L-364,718, 10 μg, i.c.v.), inhibited the acquisition of CPA when given prior to naloxone (0.3 mg/kg) administration in morphine-dependent rats. Similarly, CCK-8 (0.1-1 μg, i.c.v.) significantly attenuated naloxone-precipitated withdrawal-induced CPA, and this inhibitory function was blocked by co-injection with L-364,718. Microinjection of L-364,718, LY-288,513 or CCK-8 to saline pretreated rats produced neither a conditioned preference nor aversion, and the induction of CPA by CCK-8 itself after morphine pretreatments was not significant. Our study identifies a different role of CCK1 and CCK2 receptors in negative affective components of morphine abstinence and an inhibitory effect of exogenous CCK-8 on naloxone-precipitated withdrawal-induced CPA via CCK1 receptor.     

Solid phase synthesis of a fully active analogue of cholecystokinin using the acid-stable Boc-Phe (p-CH2) SO3H as a substitute for Boc-Tyr(SO3H) in CCK8

Substitution of the -OSO3H group in the sulfated-tyrosine by the non-hydrolyzable-CH2SO3H group was the first described modification of the sulfate ester that does not affect CCK8 activity. In addition to its capacity to mimic the sulfated tyrosine residue, the amino acid Phe(p-CH2SO3Na) was shown to be stable in acidic media, including HF containing mixtures. The synthesis of Boc-Phe(p-CH2SO3Na)-OH in racemic and resolved forms and its introduction into the sequence of CCK8 by solid phase using standard Boc/benzyl synthesis conditions and BOP as coupling reagent is now reported. The two CCK8 analogues containing the L- or the D-Phe(p-CH2SO3Na) residue, obtained in satisfactory yields, were separated by HPLC and the stereochemistry of Phe(p-CH2SO3Na) residue in each peptide was established by NMR spectroscopy and confirmed by a separate solid phase synthesis in which the pure L isomer was used. Both CCK8 analogues displayed high affinities for peripheral and central receptors (KI approximately 1 nM) and proved to be full agonists in the stimulation of pancreatic amylase secretion. The "stabilized-CCK8 peptide", easily prepared by solid phase, could replace the native peptide in biochemical and pharmacological studies. Moreover the modified amino acid Phe (p-CH2SO3Na) could also be used in solid phase synthesis to prepare a wide variety of CCK analogues and more generally, peptides analogues containing the acid-labile O-sulfated tyrosine.     

Amphiphilic CCK peptides assembled in supramolecular aggregates: structural investigations and in vitro studies

Supramolecular aggregates obtained by self-aggregation of five new cationic amphiphilic CCK8 peptides have been obtained in water solution and characterized for: (i) aggregate structure and stability; (ii) CCK8 peptide conformation and bioavailability on the external aggregate surface; and (iii) for their cell binding properties. The cationic amphiphilic CCK8 peptides self-aggregate giving a combination of liposomal and micelle structures, with radii ranging between ~60 nm and ~90 nm, and between ~5 and ~10 nm, respectively. The presence of CCK8 peptide well-exposed on the aggregate surface is demonstrated by fluorescence measurements. Peptide conformation changes in the five supramolecular aggregates: the CCK8 conformational behaviour is probably induced by the presence of three charged lysine residues close to the bioactive peptide sequence. Only aggregates in which the CCK8 peptide presents a structural arrangement similar to that found for the same peptide in DPC micelles give promising binding properties to CCK2-R receptors overexpressed by transfected A431 cells. Chemical modifications on the CCK8 N-terminus seem to play an important role in stabilizing the peptide active conformation, either when the peptide derivative is in monomeric or in aggregate form. For their easy preparation procedures and their binding properties, supramolecular aggregates based on cationic peptide amphiphiles can be considered as promising candidates for target selective drug carriers on cancer cells.     

Recombinant prohormone convertase 1 and 2 cleave purified pro cholecystokinin (CCK) and a synthetic peptide containing CCK 8 Gly Arg Arg and the carboxyl-terminal flanking peptide

Purified recombinant prohormone convertase 1 and 2 (PC1 and PC2) cleave a peptide containing cholecystokinin (CCK) 8 Gly Arg Arg and the carboxyl-terminal peptide liberating CCK 8 Gly Arg Arg. PC1 and PC2 also cleave purified pro CCK, liberating the amino terminal pro-peptide while no carboxyl-terminal cleavage was detected. Under the conditions of the in vitro cleavage assay, it appears that the carboxyl-terminal cleavage site of pro CCK is not accessible to the enzymes while this site is readily cleaved in a synthetic peptide. Additional cellular proteins that unfold the prohormone may be required to expose the carboxyl-terminal site for cleavage.     

Cellular action of cholecystokinin-8S-mediated excitatory effects in the rat periaqueductal gray

The peptide cholecystokinin (CCK) is one of the major neurotransmitters modulating satiety, nociception, and anxiety behavior. Although many behavioral studies showing anti-analgesic and anxiogenic actions of CCK have been reported, less is known about its cellular action in the central nervous system (CNS). Therefore, we examined the action of CCK in rat dorsolateral periaqueductal gray (PAG) neurons using slice preparations and whole-cell patch-clamp recordings. Application of CCK-8S produced an inward current accompanied by increased spontaneous synaptic activities. The CCK-8S-induced inward current (I(CCK)) was recovered after washout and reproduced by multiple exposures. Current-voltage plots revealed that I(CCK) reversed near the equilibrium potential for K(+) ions with a decreased membrane conductance. When several K(+) channel blockers were used, application of CdCl(2), TEA, or apamin significantly reduced I(CCK). I(CCK) was also significantly reduced by the CCK(2) receptor antagonist, L-365,260, while it was not affected by the CCK(1) receptor antagonist, L-364,718. Furthermore, we examined the effects of CCK-8S on miniature excitatory postsynaptic currents (mEPSCs) in order to determine the mechanism of CCK-mediated increase on synaptic activities. We found that CCK-8S increased the frequency of mEPSCs, but had no effect on mEPSC amplitude. This presynaptic effect persisted in the presence of CdCl(2) or Ca(2+)-free bath solution, but was completely abolished by pre-treatment with BAPTA-AM, thapsigargin or L-365,260. Taken together, our results indicate that CCK can excite PAG neurons at both pre- and postsynaptic loci via the activation of CCK(2) receptors. These effects may be important for the effects of CCK on behavior and autonomic function that are mediated via PAG neurons.     

Mutual dependence of VIP/PACAP and CCK receptor signaling for a physiological role in duck exocrine pancreatic secretion

Unlike in rodents, CCK has not been established as a physiological regulator in avian exocrine pancreatic secretion. In the isolated duck pancreatic acini, 1 nM CCK was required for stimulation of amylase secretion, maximal effect being achieved at 10 nM; picomolar CCK was without effect. Vasoactive intestinal peptide (VIP)/pituitary adenylate cyclase activating peptide (PACAP) receptor (VPAC) agonists PACAP-38 and PACAP-27 (10(-12)-10(-7) M) alone had no effect, but made picomolar CCK effective. VPAC agonist VIP 10(-10)-10(-7) M stimulated amylase secretion marginally, but made CCK 10(-12)-10(-10) M effective also. PACAP-27 and VIP both shifted the maximal CCK concentration from 10(-8) to 10(-9) M. This sensitizing effect was mimicked by forskolin. CCK dose dependently induced intracellular Ca2+ concentration ([Ca2+]i) oscillations. PACAP-38 (1 nM), PACAP-27 (1 nM), VIP (10 nM), or forskolin (10 microM) alone did not stimulate [Ca2+]i increase, neither did they modulate CCK (1 nM)-induced oscillations; but when they were added to cells simultaneously exposed to subthreshold CCK (10 pM), calcium spikes emerged. Amylase secretion induced by the simultaneous presence of 10 pM CCK and VPAC agonists was completely blocked by removing extracellular calcium, but the protein kinase C inhibitor staurosporine (1 microM) was without effect. CCK (10 nM)-induced secretion was inhibited by CCK1 receptor antagonist FK480 (1 microM). Gastrin from 10(-12) to 10(-6) M did not stimulate amylase secretion nor did it (100 nM) induce [Ca2+]i increase. The above data suggest that duck pancreatic acini possess both CCK1 and VPAC receptors; simultaneous activation of both is required for each to play a physiological role.     

Cholecystokinin octapeptide purified from brains of Australian marsupials

Cholecystokinin octapeptides (CCK8s) have been purified from methanol extracts of two brains from each of two Australian marsupials, Tammar Wallaby and Eastern Quoll, containing 3 nmol and 2 nmol of the peptides, respectively. Immunoreactive CCK was concentrated on QMA SepPak cartridges and purified by two successive HPLC steps on Nova C18 radial-pak cartridges. The sequence of each of the peptides is identical with that previously reported for Old World mammals (DYMGWMDF). This is in contrast to the previously reported sequence for CCK8 from the South American hystricomorphs, guinea pig and chinchilla, which differs in a substitution of valine for methionine in position 3 from the NH2-terminus. Although evolutionary history suggests that marsupials migrated from South America into Australia before the two continents separated, this peptide resembles that found in Old World mammals rather than that of South American hystricomorphs. Such molecular data are useful in assessing phylogenetic relationships among taxa.     

Synthesis and biological evaluation of cyclic and branched peptide analogues as ligands for cholecystokinin type 1 receptor

A library of cyclic CCK8 analogues, containing unnatural amino acids in the peptide sequence, is prepared using solid-phase synthesis. The structure of these cyclic peptides is based on a previously synthesised compound, cyclo-CCK8, selective for CCK(1) receptor. Structure-activity investigations are performed by evaluating the binding properties of the new analogues. In particular, the binding ability of the cyclic CCK8 analogues is tested by nuclear medicine studies on cell line transfected with CCK(1) receptor. Compounds named cyclo-A4-cyclo-A7 show binding constant in the range 6.0-8.0 microM, with an improved affinity over the previous described cyclo-CCK8, but almost comparable IC(50) values among new analogues towards CCK(1) were obtained.     

Inhibitory effect of a long-acting somatostatin analogue on EGF-stimulated cell proliferation in Capan-2 cells.

Numerous studies have reported diverse effects of gut-derived regulatory peptides on growth of the normal pancreas, pancreatic neoplasms induced experimentally in animals, and pancreatic cancer cell lines, but the results of these investigations are rather controversial. The stimulatory effect of epidermal growth factor (EGF) on cell proliferation of pancreatic cell lines is well established. Whether this action can be modulated by somatostatin is not clear. Furthermore, it is not certain whether another regulatory peptide, cholecystokinin (CCK), affects the proliferation of these cells. In the present study we investigated the presence of CCK-A and CCK-B, as well as somatostatin-2 (SSTR2) receptors by RT-PCR, and studied the actions of EGF, CCK and octreotide on DNA synthesis in the human pancreatic adenocarcinoma cell line Capan-2. Octreotide, a long-acting somatostatin analogue was used as somatostatin agonist. Cells were cultured in RPMI-1640 medium. They were incubated in serum free medium containing 0.2% BSA in the absence (control) or the presence of the peptides. [3H]-thymidine incorporation into DNA was measured after 48 h of incubation. By means of RT-PCR analysis we were able to demonstrate SSTR2 expression, but not CCK-A or CCK-B receptor mRNA in Capan-2 cells. DNA synthesis evaluated by [3H]-thymidine incorporation was found to be increased by 45.2 +/- 5.6% in response to EGF (10(-8) M) and decreased by 11.7 +/- 2.6% to octreotide (10(-8) M) compared to controls (P < 0.01). The increase in [3H]-thymidine incorporation was significantly lower when EGF treatment was combined with octreotide administration (10.1 +/- 2.5% over control). In the concentration range of 10(-11)-10(-8) M, CCK did not alter significantly the incorporation of [3H]-thymidine into DNA in Capan-2 cells. In conclusion, these data support a role for EGF as a growth factor for the human pancreatic cancer cell Capan-2. Somatostatin may play an important role in regulating cell proliferation in Capan-2 cells both under basal, and growth factor-stimulated conditions. Our results suggest, however, that CCK receptors are not expressed, and CCK does not affect cell proliferation in this transformed pancreatic cell line.     

Two technetium-99m-labeled cholecystokinin-8 (CCK8) peptides for scintigraphic imaging of CCK receptors

A broad spectrum of radiolabeled peptides with high affinity for receptors expressed on tumor cells is currently under preclinical and clinical investigation for scintigraphic imaging and radionuclide therapy. The present paper evaluates two (99m)Tc-labeled forms of the C-terminal octapeptide of cholecystokinin (CCK8): sulfated (s)CCK8, with high affinity for CCK1 and CCK2 receptors, and nonsulfated (ns)CCK8, with high affinity for CCK2 receptors but low affinity for CCK1 receptors. Peptides were conjugated with the bifunctional chelator N-hydroxysuccinimidyl hydrazino niconitate (s-HYNIC). (99m)Tc-labeling, performed in the presence of nicotinic acid and tricine, was highly efficient (approximately 95%) and yielded products with a high specific activity (approximately 700 Ci/mmol) and good stability (approximately 5% release of radiolabel during 16 h incubation in phosphate buffered saline at 37 degrees C). Chinese hamster ovary cells stably expressing the CCK1 receptor (CHO-CCK1 cells) internalized approximately 3% of added (99m)Tc-sCCK8 per confluent well during 2 h at 37 degrees C. Internalization was effectively blocked by excess unlabeled sCCK8. CHO-CCK1 cells did not internalize (99m)Tc-nsCCK8. Displacement of (99m)Tc-sCCK8 and -nsCCK8 by unlabeled CCK-8 (performed at 0 degrees C to prevent internalization) revealed 50% inhibitory concentrations (IC(50)) of 8 nM and >1 microM, respectively. CHO-CCK2 cells internalized approximately 25% and approximately 5% of added (99m)Tc-sCCK8 and -nsCCK8, respectively. In both cases internalization was blocked by excess unlabeled peptide. IC(50) values for the displacement of (99m)Tc-sCCK8 and -nsCCK8 were 3 nM and 10 nM, respectively. CHO-CCK1 cell-derived tumors present in one flank of athymic mice accumulated 2.0% of injected (99m)Tc-sCCK8 per gram tissue at 1 h postinjection. This value decreased to 0.6% following coinjection with excess unlabeled peptide. Uptake of (99m)Tc-nsCCK8 was low (0.2%) and not did change by excess unlabeled peptide (0.3%). Accumulation of (99m)Tc-sCCK8 and -nsCCK8 by CHO-CCK2 cell-derived tumors (present in the other flank) amounted to 4.2% and 0.6%, respectively. In both cases uptake was significantly reduced by excess unlabeled peptide to 1.0% and 0.4% for sCCK8 and nsCCK8, respectively. Accumulation of (99m)Tc-sCCK8 was also high in pancreas (11.7%), stomach (2.0%), and kidney (2.1%), whereas uptake of (99m)Tc-nsCCK8 was high in stomach (0.7%) and kidney (1.4%). Both radiolabeled peptides showed a rapid blood clearance. In conclusion, these data show that CCK8 analogues can be efficiently labeled with (99m)Tc using s-HYNIC as chelator and nicotinic acid/tricine as coligand system without compromising receptor binding. Furthermore, the present study demonstrates that CCK1 tumors hardly accumulate (99m)Tc-nsCCK8, CCK2 tumors accumulate 2 times more (99m)Tc-sCCK8 than CCK1 tumors, and CCK2 tumors accumulate 15 times more (99m)Tc-sCCK8 than (99m)Tc-nsCCK8. Although accumulation in some nontarget organs was also higher with (99m)Tc-sCCK8, this may not reflect the human situation due to a different receptor expression pattern in humans as compared to mice. Therefore, further studies are warranted to investigate the possible use of (99m)Tc-sCCK8 for scintigraphic imaging of CCK receptor-positive tumors in humans.     

Progastrin1-80 stimulates growth of intestinal epithelial cells in vitro via high-affinity binding sites

Proliferation and carcinogenesis of the large intestinal epithelial cells (IEC) cells is significantly increased in transgenic mice that overexpress the precursor progastrin (PG) peptide. It is not known if the in vivo growth effects of PG on IEC cells are mediated directly or indirectly. Full-length recombinant human PG (rhPG(1-80)) was generated to examine possible direct effects of PG on IEC cells. Surprisingly, rhPG (0.1-1.0 nM) was more effective than the completely processed gastrin 17 (G17) peptide as a growth factor. Even though IEC cells did not express CCK(1) and CCK(2) receptors (-R), fluorescently labeled G17 and Gly-extended G17 (G-Gly) were specifically bound to the cells, suggesting the presence of binding proteins other than CCK(1)-R and CCK(2)-R on IEC cells. High-affinity (K(d) = 0.5-1.0 nM) binding sites for (125)I-rhPG were discovered on IEC cells that demonstrated relative binding affinity for gastrin-like peptides in the order PG >or= COOH-terminally extended G17 >or= G-Gly > G17 > *CCK-8 (* significant difference; P < 0.05). In conclusion, our studies demonstrate for the first time direct growth effects of the full-length precursor peptide on IEC cells in vitro that are apparently mediated by the high-affinity PG binding sites that were discovered on these cells.     

Micelles by self-assembling peptide-conjugate amphiphile: synthesis and structural characterization

The chemical synthesis by solid-phase methods of a novel amphiphilic peptide, peptide-conjugate amphiphile (PCA), containing in the same molecule three different functions: (i) the N,N-bis[2-[bis(carboxy-ethyl)amino]ethyl]-L-glutamic acid (DTPAGlu) chelating agent, (ii) the CCK8 bioactive peptide, and (iii) a hydrophobic moiety containing four alkyl chains with 18 carbon atoms each, is reported. In water solution at pH 7.4, PCA self-assembles in very stable micelles at very low concentration [critical micellar concentration (cmc) values of 5 x 10(-7) mol kg(-1)] as confirmed by fluorescence spectroscopy. The structural characterization, obtained with small-angle neutron scattering (SANS) measurements, indicates that the aggregates are substantially represented by ellipsoidal micelles with an aggregation number of 39 +/- 2 and the two micellar axes of about 52 and 26 A.     

High affinity binding of cholecystokinin to small cell lung cancer cells

The binding of 125I-Bolton Hunter-cholecystokinin octapeptide (125I-BH-CCK-8) to small cell lung cancer cell lines was investigated. 125I-BH-CCK-8 bound with high affinity (Kd = 2.4 nM) to an apparent single class of sites (1700/cell) using cell line NCI-H209. Binding was time dependent and the ratio of specific/nonspecific binding was 8/1. Pharmacology studies indicated that gastrin, caerulein, CCK-33 and nonsulfated CCK-8 were potent inhibitors of specific 125I-BH-CCK-8 binding whereas CCK-26-32-NH2 was not. Because CCK receptors are present on small cell lung cancer cells, CCK may function as a regulatory peptide in this disease.