Subunit structure of the high and low affinity human interleukin-15 receptors

Radio-iodinated cytokines and monoclonal antibodies directed at the IL-2R beta- and gamma-chains were used to analyze the structure of the cell-surface IL-15 and IL-2 receptors expressed by the human lymphoma cell clone YT-2C2. YT-2C2 cells are IL-2R alpha negative and express IL-2R gamma (15,000 molecules/cell) in excess of IL-2R beta (11,000 molecules/cell). Accordingly, they display a number of beta/gamma complexes of intermediate affinity for IL-2 and IL-15 which is equivalent to the number of beta-chains. Both cytokines compete for binding to this beta/gamma complex. There are about 800 high affinity IL-15 receptors, suggesting the presence of a similar number of IL-15R alpha-chains. Within the common intermediate affinity beta/gamma-complex, the anti-beta-chain A41 mAb defines an epitope which is similarly engaged in IL-2 and IL-15 binding, whereas the anti-beta-chain 284 mAb defines an epitope which does not display similar interaction with either cytokines. Thus, although IL-2 and IL-15 compete for binding to this beta/gamma-complex, they do not use similar binding areas. Cross-linking and immunoprecipitation experiments have shown that the high affinity IL-15 receptors comprises IL-2R beta/gamma, in association with IL-15R alpha and that the three chains can be efficiently cross-linked to IL-15 and co-immunoprecipitated. Contrary to the intermediate affinity situation, high affinity IL-15 binding and subunit cross-linking were not affected by excess amounts of IL-2, A41 or 284 mAb, suggesting that when engaged in the IL-15 high affinity complex, the beta- and gamma-chains adopt different conformations, at least with respect to IL-15 binding. Finally, we provide evidence for the participation of a novel 35 kDa component within the high affinity structure. This component is immunoprecipitated with anti-IL-2R gamma mAb but not with anti-IL-2R beta mAb and might correspond to a truncated form of IL-2R gamma-chain.     

Characterization of interleukin-8 receptors in non-human primates

Interleukin-8 is a chemokine with a potent neutrophil chemoatractant activity. In humans, two different cDNAs encoding human IL8 receptors designated IL8RA and IL8RB have been cloned. IL8RA binds IL8, while IL8RB binds IL8 as well as other α-chemokines. Both human IL8Rs are encoded by two genes physically linked on chromosome 2. TheIL8RA andIL8RB genes have open reading frames (ORF) lacking introns. By direct sequencing of the polymerase chain reaction products, we sequenced theIL8R genes of cell lines from four non-human primates: chimpanzee, gorilla, orangutan, and macaca. TheIL8RB encodes an ORF in the four non-human primates, showing 95%–99% similarity to the human IL8RB sequence. TheIL8RA homologue in gorilla and chimpanzee consisted of two ORF 98%–99% identical to the human sequence. The macaca and orangutanIL8RA homologues are pseudogenes: a 2 base pair insertion generated a sequence with several stop codons. In addition, we describe the physical linkage of these genes in the four non-human primates and discuss the evolutionary implications of these findings. The nucleotide sequence data reported in this paper have been submitted to the EMBL/GenBank nucleotide sequence databases and have assigned the accession numbers X91109 (PTIL8RA), X91110 (GGIL8RA), X91111 (PPIL8Ra), X91112 (MMIL8RA), X91113 (PTIL8RB), X9114 (GGIL8RB), X91115 (PPIL8RB), and X91116 (MMIL8RB)     

Characterization of a powerful high affinity antagonist that inhibits biological activities of human interleukin-13

Interleukin-13 (IL-13), a predominantly Th2-derived cytokine, appears to play a central pathological role in asthma, atopic dermatitis, allergic rhinitis, some parasitic infections, and cancer. We hypothesized that an IL-13 antagonist may have profound therapeutic utility in these conditions. We, therefore, mutagenized human IL-13 in which Glu at position 13 was substituted by a Lys residue. This highly purified recombinant IL-13 variant, IL-13E13K, bound with 4-fold higher affinity to the IL-13 receptor than wild-type IL-13 but retained no detectable proliferative activity on the TF-1 hematopoietic cell line. IL-13E13K competitively inhibited IL-13- and IL-4-dependent TF-1 proliferation. It also inhibited IL-13-induced STAT-6 (signal transduction and activator of transducer-6) activation in immune cells and cancer cells and reversed IL-13-induced inhibition of CD14 expression on human primary monocytes. These results demonstrate that high affinity binding and signal generation can be uncoupled efficiently in a ligand receptor interaction. These results also suggest that IL-13E13K may be a useful antagonist for the treatment of allergic, inflammatory, and parasitic diseases or even malignancies in which IL-13 plays a central role.     

Characterization of specific high affinity receptors for human tumor necrosis factor on mouse fibroblasts

Mouse L-929 fibroblasts, an established line of cells, are very sensitive to lysis by human lymphotoxin (hTNF-beta). Specific binding of a highly purified preparation of hTNF-beta to these cells was examined. Recombinant DNA-derived hTNF-beta was radiolabeled with [3H]propionyl succinimidate at the lysine residues of the molecule to a specific activity of 200 microCi/nmol of protein. [3H]hTNF-beta was purified by high performance gel permeation chromatography and the major fraction was found to be monomeric by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The labeled hTNF-beta was fully active in causing lysis of L-929 fibroblasts and bound specifically to high affinity binding sites on these cells. Scatchard analysis of the binding data revealed the presence of a single class of high affinity receptors with an apparent Kd of 6.7 X 10(-11) M and a capacity of 3200 binding sites/cell. Unlabeled recombinant DNA-derived hTNF-beta was found to be approximately 5-fold more effective competitive inhibitor of binding than the natural hTNF-beta. The binding of hTNF-beta to these mouse fibroblasts was also correlated with the ultimate cell lysis. Neutralizing polyclonal antibodies to hTNF-beta efficiently inhibited the binding of [3H]hTNF-beta to the cells. We conclude that the specific high affinity binding site is the receptor for hTNF-beta and may be involved in lysis of cells.     

Evidence for two distinct phosphorylation pathways activated by high affinity immunoglobulin E receptors.

The high affinity receptor for immunoglobulin (Ig) E on mast cells, along with the antigen receptors on T and B cells and Fc receptors for IgG, belongs to a class of receptors which lack intrinsic kinase activity, but activate non-receptor tyrosine and serine/threonine kinases. Receptor engagement triggers a chain of signaling events leading from protein phosphorylation to activation of phosphatidylinositol-specific phospholipase C, an increase in intracellular calcium levels, and ultimately the activation of more specialized functions. IgE receptor disengagement leads to reversal of phosphorylation by undefined phosphatases and to inhibition of activation pathways. Here we show that phenylarsine oxide, a chemical which reacts with thiol groups and has been reported to inhibit tyrosine phosphatases, uncouples the IgE receptor-mediated phosphorylation signal from activation of phosphatidyl inositol metabolism, the increase in intracellular calcium levels, and serotonin release. Phenylarsine oxide inhibits neither the kinases (tyrosine and serine/threonine) phosphorylating the receptor and various cellular substrates nor, unexpectedly, the phosphatases responsible for the dephosphorylation following receptor disengagement. By contrast, it abolishes the receptor-mediated phosphorylation of phospholipase C-gamma 1, but not phospholipase C activity in vitro. Therefore the phosphorylation and activation of phospholipase C likely requires a phenylarsine oxide-sensitive element. Receptor aggregation thus activates at least two distinct phosphorylation pathways: a phenylarsine oxide-insensitive pathway leading to phosphorylation/dephosphorylation of the receptor and of various substrates and a sensitive pathway leading to phospholipase C-gamma 1 phosphorylation.     

Characterization of a 95 kDa high affinity human high density lipoprotein-binding protein

A new human 95 kDa high density lipoprotein (HDL)-binding protein (HBP) corresponding to a high affinity HDL-binding site with K(d) = 1.67 microg/mL and a capacity of 13.4 ng/mg was identified in human fetal hepatocytes. The HDL binding with the 95 kDa HBP plateaus at 2.5-5 microg/mL under reducing and nonreducing conditions. The association of HDL(3) with the 95 kDa HBP plateaued in 15-30 min while dissociation was complete in 30 min. HDL(3), apoA-I, and apoA-II were recognized by the 95 kDa HBP while low density lipoproteins (LDL) and tetranitromethane-modified HDL were not. The 95 kDa HBP predominantly resides on the surface of cells since trypsin treatment of HepG2 cells eliminated nearly 70% of HDL binding. All studied human cells and cell lines (HepG2, Caco-2, HeLa, fibroblasts, SKOV-3, PA-I) demonstrated the presence of the 95 kDa protein. Both RT-PCR and Western blotting for HB-2/ALCAM were negative in human fetal hepatocytes while Gp96/GRP94 was clearly differentiated from the 95 kDa HBP by two-dimensional electrophoretic mobility. Moreover, deglycosylation of HepG2 membrane preparations did not affect either HDL binding to the 95 kDa HBP or its size, while in contrast it affected the molecular weights of HB-2/ALCAM and SR-BI/CLA-1. We conclude that the 95 kDa HBP is a new HDL receptor candidate widely expressed in human cells and cell lines.     

Specific, high affinity relaxin-like factor receptors.

The relaxin-like factor (RLF) is a circulating hormone that binds to specific membrane-bound uterine receptors in the mouse. Mono-iodinated RLF tracers were produced and characterized specifically to study the properties of the RLF receptor. The tracers bound to the RLF receptor in uterine crude membrane preparations with high affinity (73 nM for (125)I-Tyr(A9) RLF and 90 nM for (125)I-Tyr(A26) RLF) as determined by Scatchard analysis. The specificity of binding was confirmed by chemical cross-linking experiments. Binding of (125)I-Tyr(A9) RLF to the putative receptor was inhibited in the presence of a 640-fold excess of unlabeled human RLF but not by the same excess of human relaxin. SDS-gel electrophoresis of the RLF-receptor complex revealed a molecular mass of >200 kDa, which remained unchanged upon reduction. The size and the lack of subunit structure of the receptor is similar to the features reported for the relaxin receptor. In this regard both, the RLF and the relaxin receptor are different from the insulin- and the insulin-like growth factor-type 1 receptors. This observation supports the relaxin-likeness of this new factor not only toward potential target tissues but also as regards receptor features.     

Isolation of cDNAs for two distinct human Fc receptors by ligand affinity cloning.

Two cDNA clones encoding different but related receptors for immunoglobulin G constant domains were isolated from cDNA expression libraries by a ligand-mediated selection procedure ('affinity cloning'). Because both of the receptors encoded by the cDNAs react with CDw32 monoclonal antibodies, and both show the appropriate IgG binding affinity, both appear to be forms of the receptor formerly thought to be a single species called FcRII. The extracellular domains encoded by the isolated clones are closely related to the murine IgG2b/1 beta receptor extracellular domains, but the intracellular domains are unrelated. The receptors expressed in COS cells show a preference for IgG1 among IgG subtypes and no affinity for IgM, IgA or IgE. Abundant expression of the RNAs was detected in myeloid cell lines and placenta.     

Two distinct functional high affinity receptors for mouse interleukin-3 (IL-3).

The human interleukin-3 receptor (IL-3R) is composed of an IL-3 specific alpha subunit (IL-3R alpha) and a common beta subunit (beta c) that is shared by IL-3, granulocyte/macrophage colony stimulating factor (GM-CSF) and IL-5 receptors. In contrast to the human, the mouse has two distinct but related genes, AIC2A and AIC2B, both of which are homologous to the human beta c gene. AIC2B has proved to encode a common beta subunit between mouse GM-CSF and IL-5 receptors. AIC2A is unique to the mouse and encodes a low affinity IL-3 binding protein. Based on the observation that the AIC2A protein is a component of a high affinity IL-3R, we searched for a cDNA encoding a protein which conferred high affinity IL-3 binding when coexpressed with the AIC2A protein in COS7 cells. We obtained such a cDNA (SUT-1) encoding a mature protein of 70 kDa that has weak homology to the human IL-3R alpha. The SUT-1 protein bound IL-3 with low affinity and formed high affinity receptors not only with the AIC2A protein but also with the AIC2B protein. Both high affinity IL-3Rs expressed on a mouse T cell line, CTLL-2, showed similar IL-3 binding properties and transmitted a growth signal in response to IL-3. Thus, the mouse has two distinct functional high affinity IL-3Rs, providing a molecular explanation for the differences observed between mouse and human IL-3Rs.     

Characterization of human interleukin-3 receptors on a multi-factor-dependent cell line

Recombinant human interleukin-3 (hIL-3) was radioiodinated by Bolton-Hunter method with maintenance of biological activity. Using 125I-hIL-3, hIL-3 receptors were characterized on a multi-factor-dependent cell line TF-1. Equilibrium binding studies revealed the existence of a single class of binding sites (667 +/- 306 sites/cell) with a Kd of 173 +/- 25 pM. Affinity labeling of TF-1 cells with 125I-IL-3 yielded two bands of 150 kDa and 85 kDa, implying molecular weights of 135 kDa and 70 kDa for the hIL-3 receptors.     

The expression of interleukin-8 and interleukin-8 receptors in endometrial carcinoma

Interleukin-8 (IL-8) is a pro-inflammatory cytokine which exerts its effects via binding to 2 receptors, CXCR1 and CXCR2 and is known to promote angiogenesis, mitogenesis and motogenesis in cancer. IL-8 is over expressed in endometrial carcinoma, but the expression of CXCR1 and CXCR2 in endometrial carcinoma has not been previously investigated. The aim of this study was to determine the expression of IL-8 receptors in endometrial carcinoma. The expression of CXCR1 and CXCR2 was studied in endometrial carcinomas and normal endometrium by immunohistochemistry in 101 tumours. IL-8 and IL-8 receptor expression was also studied by Real-time quantitative PCR (RT-qPCR) in 17 tumours in comparison to normal endometrium. The expression profile was correlated to the clinico-pathological features of the tumours. Immunohistochemistry showed CXCR1 and CXCR2 were expressed in all cases of endometrial carcinoma, with CXCR1 showing stronger expression. There was a statistically significant correlation between CXCR2 staining intensity and tumour grade (P=0.012) and disease free survival (P=0.015) independently. On RT-qPCR, 14/17, 15/17 and 16/17 tumours showed significant increase in IL-8, CXCR1 and CXCR2 expression levels in comparison to normal endometrium, with median fold increase of 42-fold, 51-fold and 27-fold, respectively. This is the first report of the expression of IL-8 receptors in endometrial carcinoma and the results show an association between IL-8 and IL-8 receptors and the pathogenesis of endometrial carcinoma, and represent potential prognostic biomarkers and therapeutic targets.     

Phytohemagglutinin induced proliferation by aged lymphocytes: reduced expression of high affinity interleukin-2 receptors and interleukin-2 secretion

Human lymphocytes from elderly and young donors were cultured with phytohemagglutinin. Cultures from two groups of aged donors, recruited respectively from our ambulatory clinic and a nursing home, incorporated less tritiated thymidine (3H-TdR) and secreted less interleukin-2 than did young donors. Furthermore, as determined for the first time by a radioligand binding receptor assay, the aged lymphoblasts possessed significantly fewer high affinity IL-2 receptors per cell. Despite a decrease in the number of high affinity receptor cells the dissociation constant (Kd) was comparable for the three groups. It was also shown that the amounts of soluble IL-2 receptors that were released into the supernatants by mitogen stimulated cells did not differ for the aged and young donors. These data suggest that defects in IL-2 production and high affinity IL-2 receptor generation may both be responsible for immune deficiency in the elderly.     

Identification of high affinity receptors for human monocyte chemoattractant protein-1 on human monocytes

The binding of human monocyte chemoattractant protein-1 (MCP-1) to human monocytes was studied. MCP-1 was radioiodinated with Iodo-beads (Pierce Chemical Co., Rockford, IL) without significant loss of biologic activity. 125I-MCP-1 binding to PBMC occurred within 5 min at 0 degrees C and the binding was inhibited by unlabeled MCP-1 dose dependently but not by neutrophil attractant/activation protein-1 or FMLP. 125I-MCP-1 bound to monocytes; no significant binding to either neutrophils or lymphocytes was observed. Scatchard plot analysis indicated that monocytes had a minimum of 1700 +/- 600 binding sites per cell with a Kd of 1.9 +/- 0.2 x 10(-9) M. For analysis of binding by flow cytometry, MCP-1 was biotinylated. In contrast to radioiodination, biotinylation resulted in loss of activity; potency was 10-fold less, but the efficacy was retained. Detection by flow cytometry of bound biotinylated MCP-1 with avidin-FITC confirmed results obtained with 125I-MCP-1. Biotinylated MCP-1 bound to monocytes but not to lymphocytes; and the binding was inhibited by a 100-fold excess of unlabeled MCP-1.     

Molecular basis of a high affinity murine interleukin-5 receptor.

The mouse interleukin-5 receptor (mIL-5R) consists of two components one of which, the mIL-5R alpha-chain, binds mIL-5 with low affinity. Recently we demonstrated that monoclonal antibodies (Mabs) recognizing the second mIL-5R beta-chain, immunoprecipitate a p130-140 protein doublet which corresponds to the mIL-3R and the mIL-3R-like protein, the latter chain for which so far no ligand has been identified. In this study we show that a high affinity mIL-5R can be reconstituted on COS1 cells by co-expression of the mIL-5R alpha-chain with the mIL-3R-like protein (beta-chain). Cross-linking of 125I-labeled mIL-5 to the COS1 cells co-transfected with both cDNAs revealed the same pattern as in B13 cells, i.e. two proteins of 60 and 130 kd which correspond to the low affinity mIL-5R alpha-chain and the mIL-3R-like protein, respectively. The dissociation rate of mIL-5 from this reconstituted high affinity site was lower than that of the low affinity site, whereas the association rate was unchanged. Nonetheless, the apparent dissociation constant (Kd) for this reconstituted receptor was still 10-fold higher than the Kd observed for B13 cells. Although the mIL-3R is greater than 90% homologous to the mIL-3R-like protein, no increase in affinity for mIL-5 was detected on COS1 cells co-transfected with the cDNAs for the mIL-5R alpha-chain and the mIL-3R protein.     

Characterization and affinity crosslinking of receptors for tumor necrosis factor on human cells

Receptors for tumor necrosis factor (TNF) were characterized in the U-937 human histiocytic lymphoma cell line with the aid of highly purified recombinant human TNF, radiolabeled with 125I. Saturation binding to specific cell surface receptors occurred with less than 15% nonspecific binding. Analysis of the equilibrium binding data obtained at 4 degrees C revealed a single class of noninteracting binding sites. The mean number of binding sites per cell was calculated to be 12,000, and the apparent dissociation constant (Kd) was 2 X 10(-10) M. Crosslinking of 125I-TNF to the cell surface receptor with disuccinimidyl suberate, followed by NaDodSO4-polyacrylamide gel electrophoresis of the cell lysate, revealed a TNF-receptor complex with a molecular weight of approximately 100,000. Binding to concanavalin A-Sepharose suggested that the TNF receptor is a glycoprotein.     

Conversion of human interleukin-4 into a high affinity antagonist by a single amino acid replacement.

Interleukin-4 (IL-4) represents a prototypic lymphokine (for a recent review see Paul, 1991). It promotes differentiation of B-cells and the proliferation of T- and B-cell, and other cell types of the lymphoid system. An antagonist of human IL-4 was discovered during the studies presented here after Tyr124 of the recombinant protein had been substituted by an aspartic acid residue. This IL-4 variant, Y124D, bound with high affinity to the IL-4 receptor (KD = 310 pM), but retained no detectable proliferative activity for T-cells and inhibited IL-4-dependent T-cell proliferation competitively (K(i) = 620 pM). The loss of efficacy in variant Y124D was estimated to be greater than 100-fold on the basis of a weak partial agonist activity for the very sensitive induction of CD23 positive B-cells. The substitution of Tyr124 by either phenylalanine, histidine, asparagine, lysine or glycine resulted in partial agonist variants with unaltered receptor binding affinity and relatively small deficiencies in efficacy. These results demonstrate that high affinity binding and signal generation can be uncoupled efficiently in a ligand of a receptor belonging to the recently identified hematopoietin receptor family. In addition we show for the first time, that a powerful antagonist acting on the IL-4 receptor system can be derived from the IL-4 protein.     

Platelet-derived microparticles express high affinity receptors for factor VIII.

Factor VIII is a cofactor in the tenase enzyme complex which assembles on the membrane of activated platelets. A critical step in tenase assembly is membrane binding of factor VIII. Platelet membrane factor VIII-binding sites were characterized by flow cytometry using either fluorescein maleimide-labeled recombinant factor VIII or a fluorescein-labeled monoclonal antibody against factor VIII. Following activation by thrombin, most platelets bound factor VIII within 90 s. In addition, over the course of several minutes, membranous vesicles (microparticles) were shed from the platelet plasma membrane and each microparticle bound as much factor VIII as a stimulated platelet. Over 30 min, stimulated platelets (but not microparticles) lost the capacity to bind factor VIII. Factor VIII bound saturably to microparticles from platelets stimulated with thrombin, thrombin plus collagen, or the complement proteins C5b-9. The binding of factor VIII was compared to factor V, a structurally homologous coagulation cofactor. Analysis of microparticle binding kinetics yielded similar on and off rates for factor VIII and factor Va and KD values of 2-10 nM. In the presence of 20 nM factor Va, the binding of factor VIII to microparticles was increased, and there was a comparable increase in platelet tenase activity. At higher factor Va concentrations, factor VIII binding and tenase activity were inhibited. Conversely, factor VIII had a similar dose-dependent effect on factor Va binding and platelet prothrombinase activity. Synthetic phospholipid vesicles containing phosphatidylserine competed with microparticles for binding of factor VIII and factor Va. These studies indicate that activated platelets express a transient increase in high affinity receptors for factor VIII, whereas platelet-derived microparticles express a sustained increase in receptors. The binding characteristics of platelet membrane receptors for factor VIII are similar to those for factor Va.     

Binding and degradation of insulin by human peripheral granulocytes. Demonstration of specific receptors with high affinity.

The interaction of insulin with human circulating granulocytes was studied with the use of 125I-insulin. Human granulocytes, isolated from blood by the B?yum technique, showed high insulin-degrading activity in vitro which almost obscured the presence of specific, high affinity binding sites. Degradation, measured by trichloroacetic acid precipitation and by binding to well characterized insulin receptors on cultured human lymphocytes (IM-9 line), was due to extracellular as well as cell-bound enzymes. Degradation was enhanced by Ca2+ and thiols and inhibited by various protease inhibitors and sulfhydryl-blocking reagents. Phenylmethylsulfonyl fluoride (5 X 10(-4) M), a serine protease inhibitor, was the most potent and inhibited 125I-insulin degradation by 80 to 90%. Tert-butyl hydroperoxide (2 X 10(-3) M), a glutathione-oxidizing reagent, inhibited degradation by 35 to 50%, possibly due to an effect on a glutathione-insulin transhydrogenase. Neither of the inhibitors affected cell viability. In the presence of inhibitors of degradation, binding sites for insulin with high affinity were detected, which by multiple criteria were true insulin receptors. Binding to these sites was rapid, saturable, and reversible with about 1000 sites/cell. The Hill coefficient for binding was 0.7, and the Scatchard plot of B/F versus B was curvilinear, due to site-site interactions of the negative cooperative type; the latter were demonstrated directly by kinetic studies. As shown previously for all other insulin receptors, binding was highly pH-dependent, and insulin analogues had affinities for these sites that closely correlated with their biological potencies.     

Demonstration of an in vivo generated sub-picomolar affinity fully human monoclonal antibody to interleukin-8

The high specificity and affinity of monoclonal antibodies make them attractive as therapeutic agents. In general, the affinities of antibodies reported to be high affinity are in the high picomolar to low nanomolar range and have been affinity matured in vitro. It has been proposed that there is an in vivo affinity ceiling at 100 pM and that B cells producing antibodies with affinities for antigen above the estimated ceiling would have no selective advantage in antigen-induced affinity maturation during normal immune responses. Using a transgenic mouse producing fully human antibodies, we have routinely generated antibodies with sub-nanomolar affinities, have frequently rescued antibodies with less than 10 pM affinity, and now describe the existence of an in vivo generated anti-hIL-8 antibody with a sub-picomolar equilibrium dissociation constant. This confirms the prediction that antibodies with affinities beyond the proposed affinity ceiling can be generated in vivo. We also describe the technical challenges of determining such high affinities. To further understand the importance of affinity for therapy, we have constructed a mathematical model to predict the relationship between the affinity of an antibody and its in vivo potency using IL-8 as a model antigen.     

Design of high affinity cyclic pentapeptide ligands for kappa-opioid receptors.

Using results from our previously reported cyclic opioid peptide series and reliable models for mu-, delta-, and kappa-opioid receptors (MOR, DOR, and KOR, respectively) and their complexes with peptide ligands, we have designed and synthesized a series of cyclic pentapeptides of structure Tyr-C[D-Cys-Phe-Phe-X]-NH2, cyclized via disulfide, methylene, or ethylene dithioethers, and where X = D- or L-Cys; or D- or L-penicillamine (Pen; beta,beta-dimethylcysteine). Determination of binding affinities to MOR, DOR, and KOR revealed that members of this series with X = D- or L-Cys display KOR affinities in the low nanomolar range, demonstrating that a 'DPDPE-like' tetrapeptide scaffold is suitable not only for DOR and MOR ligands, but also for KOR ligands. The cyclic pentapeptides reported here are not, however, selective for KOR, rather they display significant selectivity and high affinity for MOR. Indeed, peptide 8, Tyr-C[D-Cys-Phe-Phe-Cys]-NH2-cyclized via a methylene dithioether, shows picomolar binding affinity for MOR ( = 16 pm) with more than 100-fold selectivity for MOR vs. DOR or KOR, and may be of interest as a high affinity, high selectivity MOR ligand. Nonetheless, the high affinity KOR peptides in this series represent excellent leads for the development of structurally related, selective KOR ligands designed to exploit structurally specific features of KOR, MOR, and DOR.