Characterization of the [125I]endomorphin-2 binding sites in the MCF7 breast cancer cell line

In the present study, the expression of the micro-opioid receptor on protein level has been demonstrated in MCF7 breast cancer cells. Binding of the [125I]-labeled micro-opioid receptor selective ligand endomorphin-2 (Tyr-Pro-Phe-Phe-NH2) was examined in vitro using a cross-linking assay followed by a Western blot technique. The radioactive complex had a molecular weight of about 65 kDa and was detectable by anti-micro-opioid receptor antibody, indicating the presence of micro-opioid receptors in MCF7 cell membranes. Characterization of endomorphin-2 binding to the membranes obtained from MCF7 cells was performed. Cold saturation experiments with [125I]endomorphin-2 showed biphasic binding curves in Scatchard coordinates. One component represents a high affinity and low capacity, and the other low affinity and higher capacity binding sites. The obtained Bmax values for [125I]endomorphin-2 binding to MCF7 membranes were much higher than those obtained for mouse brain. Pharmacological characterization of the [125I]endomorphin-2 binding sites was made using endomorphin-2 and two other micro selective ligands, morphiceptin, and [D-1-Nal3]morphiceptin on MCF7 cell membrane preparations and whole MCF7 cells. In both cases, the rank order of potency was [D-1-Nal3]morphiceptin>endomorphin-2>morphiceptin, but in case of whole MCF7 cells the IC50 values were about 40 times higher.     

Analgesic activity of morphiceptin, beta-casomorphin-4, and deltakephalin in normotensive Wistar-Glaxo and spontaneously hypertensive rats

The effects of intraventricular injection of beta-casomorphin-4, morphiceptin and deltakephalin (DTLET) on hot water tail flick and tail compression responses were investigated in Wistar Albino Glaxo (WAG) and spontaneously hypertensive rats (SHR). The effects of the mu agonist morphiceptin (20 nmol/rat), as assessed by the tail compression test, were significantly greater in SHR rats but did not differ between both strains when measured by tail flick latency. Opioid agonist deltakephalin (2 nmol/rat) in both tests elicited stronger analgesic effects in SHR as compared to WAG and these effects were blocked by naloxone in both tests used. beta-Casomorphin-4 exhibits moderate activity for mu receptors. In the tail flick test peptide (60 nmol/rat) produced an increase in latencies in SHR rats that was significantly greater than was observed in WAG rats. Naloxone pretreatment abolished the analgesic activity of beta-casomorphin-4 solely in the tail compression test in SHR. Analysis of the slopes of the dose-response curves seems to suggest that differences between the activity of these opioid peptides in SHR and WAG rats are based on a difference in the density and affinity of the subpopulation of the opioid receptors in these strains of rats.     

beta-Casomorphins induce apnea and irregular breathing in adult rats and newborn rabbits

Bovine beta-casomorphin, beta-casomorphin, morphiceptin or morphine were administered systemically (i.v. or i.p.) and intracerebroventricularly (lateral or IVth ventricles) to anesthetized adult rats and preterm newborn rabbits. All agents caused dose-related depressions of respiratory frequency and tidal volume. Morphiceptin and beta-casomorphin were approximately equipotent to morphine while beta-casomorphin was 10 times as potent after intracerebroventricular injection. The beta-casomorphins decreased inspiratory drive and prolonged the expiratory phase by delaying the setpoint for inspiration. A respiratory depression could be elicited by systemic administration of morphiceptin but not by beta-casomorphin or beta-casomorphin. All ventilatory effects induced by the beta-casomorphins could be readily reversed or prevented by naloxone. Intracerebroventricular but not intraperitoneal injection of beta-casomorphin depressed ventilation in preterm newborn rabbits in a similar pattern with apnoic periods to that seen in the adult rats. In addition, an irregular breathing pattern was elicited. Thus, the bovine beta-casomorphins possess potent central respiratory depressive effects. However, after systemic administration, only morphiceptin which is more metabolically stable induced a shortlasting effect on ventilation in adult rats.     

Selective activation of opioid receptors differentially affects lordosis behavior in female rats

The effects of opioid peptides that are highly selective ligands for mu receptors (morphiceptin). delta receptors (delta-receptor peptide), kappa receptors (dynorphin 1-9), and the mu/delta complex (beta-endorphin), were tested on lordosis behavior in ovariectomized rats primed with estrogen and progesterone. Intracerebroventricular infusions of beta-endorphin or morphiceptin both inhibited and facilitated lordosis in a dose-dependent fashion whereas all doses of delta-receptor peptide facilitated lordosis. Dynorphin 1-9 had no significant effect at any dose, although a trend toward increased lordosis quotients was observed 30 min after infusion. The effects of beta-endorphin, morphiceptin, and delta-receptor peptide were reversed with naloxone, although naloxone alone had no effect on lordosis behavior. These results indicate that the specific activation of opioid receptor subtypes differentially affects lordosis behavior. It appears that binding to high-affinity mu 1 receptors exerts an inhibitory influence on lordosis, whereas binding to low-affinity mu 2 receptors or delta receptors exerts a facilitatory influence. Binding to kappa receptors does not appear to affect lordosis behavior.     

Binding of the new morphiceptin analogs to human MCF-7 breast cancer cells and their effect on growth

In the present study, we reported on the synthesis of two new mu-opioid peptide analogs, [D-1-Nal3]morphiceptin and [D-1-Nal4]-morphiceptin [1-Nal=3-(1-naphthyl)-alanine] which expressed receptor binding affinities at least at the level of the primary opioid ligands. The new analogs also labeled mu-opioid receptors on the cells of human breast cancer MCF-7 cell line with affinity much higher than that of endomorphins and morphiceptin, the well-known mu-selective opioid peptides. However, none of the tested peptides significantly decreased cell proliferation of MCF-7 cells.     

Interactions between the antiopiate Tyr-MIF-1 and the mu opiate morphiceptin at their respective binding sites in brain

The interactions between Tyr-MIF-1, a brain peptide with antiopiate activity, and the beta-casomorphins, a family of peptides derived from milk protein with opiate activity, were investigated by in vitro binding assays. Specific binding of 125I-Tyr-MIF-1 to rat brain membranes was displaced with high potency by beta-casomorphin, morphiceptin, and the morphiceptin analog PL017 but not by the analgesically inactive analog D-Pro2-morphiceptin or by several other ligands for classical delta, kappa, or sigma opiate receptors. In addition, Tyr-MIF-1 displaced 125I-morphiceptin from its binding sites in brain with affinities similar to those of unlabeled morphiceptin and PL017. These results, which include the first demonstration of a binding site in brain for labeled morphiceptin, indicate that brain antiopiate Tyr-MIF-1 and the beta-casomorphin derived peptides with opiate activity may share a common binding site or cross-react at each other's site. This suggests a possible mechanism of action for endogenous antiopiate-opiate interactions.     

Binding of endomorphin-2 to mu-opioid receptors in experimental mouse mammary adenocarcinoma.

Endomorphin-2 (Tyr-Pro-Phe-Phe-NH2) binds with high affinity and selectivity to the mu-opioid receptor. In the present study, [125I]endomorphin-2 has been used to characterize mu-opioid-binding sites on transplantable mouse mammary adenocarcinoma cells. Cold saturation experiments performed with [125I]endomorphin-2 (1 nM) show biphasic binding curves in Scatchard coordinates. One component represents high affinity and low capacity (K(d) = 18.79 +/- 1.13 nM, B(max) = 635 +/- 24 fmol/mg protein) and the other shows low affinity and higher capacity (K(d) = 7.67 +/- 0.81 microM, B(max) = 157 +/- 13 pmol/mg protein) binding sites. The rank order of agonists competing for the [125I]endomorphin-2 binding site was [d-1-Nal3]morphiceptin > endomorphin-2 > [d-Phe3]morphiceptin > morphiceptin > [d-1-Nal3]endomorphin-2, indicating binding of these peptides to mu-opioid receptors. The uptake of 131I-labeled peptides administered intraperitoneally to tumor-bearing mice was also investigated. The highest accumulation in the tumor was observed for [d-1-Nal3)morphiceptin, which reached the value of 8.19 +/- 1.14% dose/g tissue.     

Conformational analysis of morphiceptin by NMR spectroscopy

Three exorphins, beta-casomorphin-5, morphiceptin and its D-Pro4 analog, were studied in DMSO by means of 1H and 13C NMR spectroscopy, with the aim of detecting conformational features of potential biological significance for the mu opioid activity since the presence of two Pro residues restricts the accessible conformational space more than in all other peptides. It is found that the conformational mixtures present in solution contain relevant fractions of folded conformers, a feature that assures the observation of four different Tyr OH signals in the 500 MHz spectrum of morphiceptin. The conformer distribution of (very active) (D-Pro4)-morphiceptin is different from those of its (less active) congeners.     

Isolation of a specific mu-opiate receptor peptide, morphiceptin, from an enzymatic digest of milk proteins

Specific radioimmunoassays have been developed for the measurement of naturally occurring morphiceptin and beta-casomorphin. These peptides and related exorphins were isolated from an enzymatic digest of caseins by chromatographic techniques including gel filtration, hydrophobic column and multiple-step high pressure liquid chromatography. Three exorphins were purified and characterized in their radioimmunological, biological, and chemical properties. They were identified as morphiceptin, beta-casomorphin, and 8-prolyl-beta-casomorphin. Since morphiceptin is a highly specific mu-agonist and can be derived from a milk protein, it is possible that morphiceptin is an exogenous opioid ligand specific for mu-receptors in the brain and gastrointestinal tract.     

Opiate peptide receptor types on cultured mouse spinal neurons

mu, delta and kappa opioid receptor agonists, morphiceptin, Leu-enkephalin and dynorphin reduced monosynaptic EPSPs evoked in spinal cord neurons by stimulation of spinal cord neurons in a mouse cell culture system. The incidence of the cell pairs which responded to morphiceptin, Leu-enkephalin and dynorphin was 3%, 63% and 37% respectively. Statistical analysis showed the effect of Leu-enkephalin was presynaptic. When tested with Leu-enkephalin and dynorphin, 6 cell pairs responded to both Leu-enkephalin and dynorphin, 5 cell pairs only responded to Leu-enkephalin, none of the cell pairs responded only to dynorphin (n = 18). It is suggested that some cells have only delta receptors, but kappa receptors coexist with delta receptors. Opiate receptors of the mu type are rare on SC neurons.     

Synthesis of novel morphiceptin analogues modified in position 3 and their binding to mu-opioid receptors in experimental mammary adenocarcinoma

Binding of the (125)I-labeled mu-opioid receptor selective ligands, morphiceptin (Tyr-Pro-Phe-Pro-NH(2)) and [D-Phe(3)]morphiceptin, to membranes isolated from experimental mouse mammary adenocarcinoma was examined in vitro using a cross-linking assay followed by a Western blot technique. The radioactive complex had a molecular weight of about 65 kDa and was detectable by anti-mu-opioid receptor antibody, indicating the presence of mu-opioid receptors in tumor membranes. A series of new morphiceptin analogues, modified at the pharmacophoric position 3, was synthesized in order to find the correlation between the lipophilicity, electronic and steric properties of the amino acid in this position and the in vitro affinity of new analogues for mu-opioid receptors on mouse brain and tumor membranes. In in vivo studies the uptake of (131)I-labeled analogues by experimental mammary adenocarcinoma was estimated. The highest affinity for mu-opioid receptors in both, in vitro and in vivo experiments was observed for [D-Phe(3)]morphiceptin and [D-ClPhe(3)]-morphiceptin.     

Opioid pharmacology in the rat hippocampal slice

The ability of several opioids in potentiating the synaptic activation of CA1 pyramidal cells in the rat hippocampal slice were compared. Morphine and the opioid peptides, (D-ala2, D-leu5)-enkephalin (DADL), morphiceptin, beta-endorphin, and Tyr-D-Ser-Gly-Phe-Leu-Thr (DSThr) caused a concentration-dependent, naloxone-reversible shift to the left in the input-output (IO) curve constructed by plotting the population spike as a function of the field EPSP. These opioids then produced an increase in the size of the population spike while leaving the EPSP unaffected. In contrast, the kappa agonist prototype, ethylketazocine, had no effect on the IO curve when perfused in concentrations up to 10 microM. The rank order of potency for the opioids in the CA1 region of the hippocampus was DADL greater than DSThr greater than beta-endorphin greater than morphiceptin greater than morphine much greater than ethylketazocine. Thus, opioids that are more specific for delta opiate receptors were the most potent and mu receptor agonists, the least potent in this action. Taken together with previous studies suggesting that morphine and DADL may interact with a common opiate receptor in the CA1 region, the results are consistent with the notion that these epileptiform effects may be primarily mediated by delta opiate receptors in this area although the potency of morphiceptin indicates that mu receptors play some role in this effect.     

Distinct signaling pathways regulate differential opioid effects on actin cytoskeleton in malignant MCF7 and nonmalignant MCF12A human breast epithelial cells

The mechanisms through which opioids regulate the activity of malignant breast epithelial cells are currently unknown. In the present study we report the differential actin cytoskeleton reorganization induced by opioids in malignant (MCF7) and nonmalignant (MCF12A) breast epithelial cells expressing functional opioid receptors. Exposure of MCF7 cells to the opioid agonist alpha(s1) casomorphin induced important actin assembly and reorganization, including the formation of filopodia and lamellipodia. In contrast, incubation of MCF12A cells with alpha(s1) casomorphin revealed a partial but transient disassembly of actin microfilaments. Immunoprecipitation and immunoblot analyses showed rapid phosphorylation of focal adhesion kinase (FAK) and vinculin in opioid-treated MCF7 cells. Moreover, FAK associates with phosphatidylinositol-3 (PI-3 kinase), the latter being subsequently phosphorylated and activated. In addition, a substantial activation of the small GTPase Rac1 was observed. Pretreatment of MCF7 cells with the specific PI-3 kinase inhibitor wortmannin abolished both the activation of Rac1 and actin reorganization, while the opioid-induced phosphorylation of FAK and vinculin remained unaffected. Interestingly, in opioid-treated MCF12A cells this signaling cascade remained inactive, while we identified rapid phosphorylation of actin regulating the protein villin. Finally, opioids differentially inhibited cell motility in each cell line. Our data suggest a distinct, opioid-induced, signaling pathway activated in malignant breast epithelial cells, leading to important actin reorganization. These findings may indicate a potential antineoplastic role of opiates, based on the activation of differential signaling mechanisms.     

Activation of FAK/PI3K/Rac1 signaling controls actin reorganization and inhibits cell motility in human cancer cells.

We have recently identified a specific signaling pathway that regulates actin reorganization in malignant human breast and prostate epithelial cells associated with FAK, PI-3K and Rac1 activation. Here we report that this pathway operates in MCF7 cells upon activation of membrane androgen receptors (mAR). Stimulation of mAR by the non-permeable testosterone-BSA conjugate resulted in early actin reorganization documented by quantitative measurements of actin dynamics and morphological analysis of microfilament organization. This effect was regulated by early phosphorylation of FAK and subsequent PI-3K and Rac1 activation. The functional role of this pathway was further shown in A375 melanoma cells. Treatment with the opioid antagonist alpha(s1) casomorphin resulted in rapid and potent actin remodeling in A375 cells, regulated by rapid activation of the FAK/PI-3K/Rac1 signaling. Pretreatment of both cell lines with the specific PI-3K inhibitor wortmannin blocked actin reorganization. Interestingly, wound healing assays revealed that testosterone-BSA and alpha (s1) casomorphin significantly inhibited MCF7 and A375 cell motility respectively. These effects were abrogated through blockade of PI-3K signaling by wortmannin. The results presented here indicate that actin reorganization through FAK/PI3-K/Rac-1 activation operates in various human cancer cell systems supporting a functional role for FAK/PI-3K/Rac1/actin signaling in controlling cell motility.     

Absorption of intact morphiceptin by diisopropylfluorophosphate-treated rabbit ileum

The amidated beta-casomorphin morphiceptin Tyr-Pro-Phe-Pro-NH2 is an opioid peptide isolated from bovine milk beta-casein digests whose physiological significance remains unclear. Opiates are known to modify intestinal electrolyte transport by acting on receptors located on the serosal side of the intestine. The aim of the present study was to determine under what conditions morphiceptin can act from the luminal side. When added to the serosal side of untreated rabbit ileum in an Ussing chamber in vitro, 10(-3) M morphiceptin acted through an opiate mechanism to reduce simultaneously short-circuit current (delta Isc = 0.33 +/- 0.07 muEq.hr-1.cm-2) and stimulate net Na and Cl absorption (delta JnetNa = 1.62 +/- 0.11 and delta JnetCl = 2.07 +/- 0.08 muEg.hr-1.cm-2). After mucosal addition under the same conditions, morphiceptin was degraded without any opiate action on electrolyte transport. Pretreatment of the ileum by 10(-3) M diisopropylfluorophosphate, which inhibited brush-border dipeptidylpeptidase IV, prevented mucosal degradation of morphiceptin. Under these conditions, morphiceptin was able, when added mucosally, to cross the epithelium intact (Jm----s = 1.8 +/- 0.16 nmole.hr-1.cm-2) and to stimulate electrolyte absorption by means of an opioid mechanism (delta Isc = 0.22 +/- 0.02 muEq.hr-1.cm-2). These results showed that the action of morphiceptin from the lumen depends on its transfer intact to the serosal side of the intestine where the opiate receptors are located. The limiting step in this transfer is at the brush-border membrane, where dipeptidylpeptidase IV in particular seems to play a major role.     

Diprotin A, an inhibitor of dipeptidyl aminopeptidase IV(EC 3.4.14.5) produces naloxone-reversible analgesia in rats

The dipeptidyl aminopeptidase IV (DP IV) inhibitor Diprotin A produces a full, dose-dependent, short-lasting and naloxone-reversible analgesia in the rat tail-flick test when given intracerebroventricularly, with an ED50 of 295 nmol/rat but it has no direct opioid agonist activity in the longitudinal muscle strip of guinea-pig ileum bioassay. Two of the potential DP IV substrates, morphiceptin and endomorphin 1, identified recently in bovine brain were also analgesic given by similar route. The action of endomorphin 1 was more potent (ED50 = 7.9 nmol/rat) and slightly but significantly more sustained than that of Diprotin A. Diprotin A neither potentiated nor prolonged the effect of a marginally analgesic dose of endomorphin 1. The distinct time course and the lack of potentiation indicate that in the analgesic effect of Diprotin A in rats the protection of a brain Tyr-Pro-peptide other than endomorphin 1 is involved.     

Motility effects of opioid peptides in dog intestine

Six opioid peptides, like morphine, were found to produce dose-dependent contractions of dog isolated intestine when administered as intraarterial boluses. The increases in incidence and amplitude of intestinal contractions were antagonized by naloxone. The rank order of potency of the opioid agonists tested was D-Ala2-met-enkephalinamide greater than D-Ala2-leu-enkephalinamide greater than met-enkephalin greater than beta-endorphin 1-31 greater than morphine greater than morphiceptin greater than dynorphin 1-13. The contractions induced by two opioid agonists displayed differential sensitivity to blockade by tetrodotoxin (TTX). Met-enkephalin was barely affected by concentrations of TTX that markedly reduced responses to morphiceptin. Some portion of the motility effect of metenkephalin may be exerted directly on intestinal smooth muscle.     

Dmt1, d-1-Nal3]morphiceptin, a novel opioid peptide analog with high analgesic activity

The morphiceptin-derived peptide [Dmt1, d-1-Nal3]morphiceptin, labeled mu-opioid receptor (MOP) with very high affinity and selectivity in the receptor binding assays. In the mouse hot plate test, [Dmt1, d-1-Nal3]morphiceptin given intracerebroventricularly (i.c.v.) produced profound supraspinal analgesia, being approximately 100-fold more potent than the endogenous MOP receptor ligand, endomorphin-2. The antinociceptive effect of this new analog lasted up to 120min. Thus, [Dmt1, d-1-Nal3]morphiceptin is an interesting and extraordinarily potent analgesic, raising the possibility of novel approaches in the design of clinically useful drugs for pain treatment.     

Partial and full agonism in endomorphin derivatives: comparison by null and operational model

The partial mu-opioid receptor pool inactivation strategy in isolated mouse vas deferens was used to determine partial agonism of endomorphins and their analogs (endomorphin-1-ol, 2',6'-dimethyltyrosine (Dmt)-endomorphin-1, endomorphin-2-ol and (D-Met2)-endomorphin-2) using morphine, normorphine, morphiceptin, (D-Ala2,MePhe4,Gly5-ol)-enkephalin (DAMGO) and its amide (DAMGA) as reference opioid agonists. Agonist affinities (KA) and efficacies were assessed both by the "null" and the "operational" method. The KA values determined by the two methods correlated significantly with each other and also with the displacing potencies against 3H-naloxone in the receptor binding assay in the presence of Na+. DAMGO and DAMGA were full agonist prototypes, morphine, endomorphin-1, endomorphin-1-ol, Dmt-endomorphin-1, endomorphin-2-ol and (D-Met2)-endomorphin-2 were found by both methods to be partial agonists whereas the parameters for normorphine, morphiceptin and endomorphin-2 were intermediate.     

The influence of opioid peptides on matrix metalloproteinase-9 and urokinase plasminogen activator expression in three cancer cell lines

Matrix metalloproteinases (MMPs) and urokinase plasminogen activator (uPA) regulate proteolysis of the extracellular matrix (ECM) and as a consequence are involved in a number of physiological and pathological states, including cancer. A crucial feature of cancer progression and metastasis is the disruption of the ECM and spreading of proliferating cancer cells. Over-expression of MMPs and uPA is common for most types of cancers and correlates well with the adverse prognosis. Compounds able to modulate the activity of these proteolytic enzymes may become important agents in cancer therapy. In the present study, we examined the effect of the ??-opioid receptor selective peptide, morphiceptin, and its two synthetic analogs on mRNA and protein levels of MMP-9 and uPA in three human cancer cell lines: MCF-7, HT-29, and SHSY5Y. Our findings indicate that in all three cell lines morphiceptin and its analogs attenuated MMP-9 expression and secretion and that this effect is not mediated by opioid receptors but is under control of the nitric oxide system. On the other hand, tested opioids up-regulated uPA levels through a mechanism that involved opioid-receptors. Different pathways by which opioid peptides exert their action in cancer cells can explain their contradictory influence on the level of cancer markers.