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101. T3P-Promoted, Mild, One-Pot Syntheses of Constrained Polycyclic Lactam Dipeptide Analogues via Stereoselective Pictet-Spengler and Meyers Lactamization Reactions.

Author

Jida M, Van der Poorten O, Guillemyn K, Urbanczyk-Lipkowska Z, Tourwé D, and Ballet S

Subjects
Dipeptides chemistry, Lactams chemistry, Models, Molecular, Molecular Conformation, Molecular Structure, Phenylalanine, Stereoisomerism, Anhydrides chemistry, Dipeptides chemical synthesis, Lactams chemical synthesis, Organophosphonates chemistry
Abstract

A new convenient, mild, one-pot procedure is described for the diastereoselective synthesis of constrained 7,5- and 7,6-fused azabicycloalkanes. Using 2-formyl-L-tryptophan and 2-formyl-l-phenylalanine as bielectrophilic building blocks, T3P-mediated Pictet-Spengler and Meyers lactamization reactions were developed to present chiral and polycyclic aminoindolo- and aminobenzazepinone compounds in excellent yields. The conformationally constrained compounds can serve as templates for peptidomimetic research or polyheterocyclic privileged scaffolds.

Published
2015
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102. Synthesis and biological evaluation of compact, conformationally constrained bifunctional opioid agonist - neurokinin-1 antagonist peptidomimetics.

Author

Guillemyn K, Kleczkowska P, Lesniak A, Dyniewicz J, Van der Poorten O, Van den Eynde I, Keresztes A, Varga E, Lai J, Porreca F, Chung NN, Lemieux C, Mika J, Rojewska E, Makuch W, Van Duppen J, Przewlocka B, Vanden Broeck J, Lipkowski AW, Schiller PW, Tourwé D, and Ballet S

Subjects
Animals, CHO Cells, Cell Line, Cricetulus, Humans, Male, Mice, Mice, Inbred C57BL, Molecular Conformation, Peptidomimetics chemistry, Rats, Rats, Wistar, Receptors, Neurokinin-1 metabolism, Neurokinin-1 Receptor Antagonists pharmacology, Peptidomimetics chemical synthesis, Receptors, Opioid agonists
Abstract

A reported mixed opioid agonist - neurokinin 1 receptor (NK1R) antagonist 4 (Dmt-D-Arg-Aba-Gly-(3',5'-(CF3)2)NMe-benzyl) was modified to identify important features in both pharmacophores. The new dual ligands were tested in vitro and subsequently two compounds (lead structure 4 and one of the new analogues 22, Dmt-D-Arg-Aba-β-Ala-NMe-Bn) were selected for in vivo behavioural assays, which were conducted in acute (tail-flick) and neuropathic pain models (cold plate and von Frey) in rats. Compared to the parent opioid compound 33 (without NK1R pharmacophore), hybrid 22 was more active in the neuropathic pain models. Attenuation of neuropathic pain emerged from NK1R antagonism as demonstrated by the pure NK1R antagonist 6. Surprisingly, despite a lower in vitro activity at NK1R in comparison with 4, compound 22 was more active in the neuropathic pain models. Although potent analgesic effects were observed for 4 and 22, upon chronic administration, both manifested a tolerance profile similar to that of morphine and cross tolerance with morphine in a neuropathic pain model in rat., (Copyright © 2014 Elsevier Masson SAS. All rights reserved.)

Published
2015
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103. Structural basis for bifunctional peptide recognition at human δ-opioid receptor.

Author

Fenalti G, Zatsepin NA, Betti C, Giguere P, Han GW, Ishchenko A, Liu W, Guillemyn K, Zhang H, James D, Wang D, Weierstall U, Spence JC, Boutet S, Messerschmidt M, Williams GJ, Gati C, Yefanov OM, White TA, Oberthuer D, Metz M, Yoon CH, Barty A, Chapman HN, Basu S, Coe J, Conrad CE, Fromme R, Fromme P, Tourwé D, Schiller PW, Roth BL, Ballet S, Katritch V, Stevens RC, and Cherezov V

Subjects
Binding Sites, Crystallography, X-Ray, HEK293 Cells, Humans, Models, Molecular, Oligopeptides chemistry, Protein Structure, Tertiary, Receptors, Opioid, delta antagonists & inhibitors, Tetrahydroisoquinolines chemistry, Receptors, Opioid, delta chemistry
Abstract

Bifunctional μ- and δ-opioid receptor (OR) ligands are potential therapeutic alternatives, with diminished side effects, to alkaloid opiate analgesics. We solved the structure of human δ-OR bound to the bifunctional δ-OR antagonist and μ-OR agonist tetrapeptide H-Dmt-Tic-Phe-Phe-NH2 (DIPP-NH2) by serial femtosecond crystallography, revealing a cis-peptide bond between H-Dmt and Tic. The observed receptor-peptide interactions are critical for understanding of the pharmacological profiles of opioid peptides and for development of improved analgesics.

Published
2015
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104. Iodo-Annulations of N -Benzyl-propiolamides Leading To Azaspiro[5.5]undecatrienones or Benzo[ c ]azepinones.

Author

Reddy, Chada Raji, Nagendraprasad, Thallamapuram, Islam, Jannatul, Ajaykumar, Uprety, Reddy, Cirandur Suresh, and Chandrasekhar, Srivari

Subjects
AMMONIUM nitrate, AZEPINONES
Abstract

Iodine-mediated oxidative annulations of N -benzyl-propiolamides are disclosed for the first time, providing either azaspiro[5.5]undecatrienones via dearomative ipso -annulation or benzo[ c ]azepinones through ortho -annulation. The selective construction of the aforementioned products is based on the ceric ammonium nitrate (CAN)-promoted divergent reactivity of the propiolamide, directed by the substituents on the phenyl ring of the N -benzyl group. [ABSTRACT FROM AUTHOR]

Published
2024
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106. Azepinone-Containing Tetrapeptide Analogues of Melanotropin Lead to Selective hMC4R Agonists and hMC5R Antagonist.

Author

Van der Poorten O, Fehér K, Buysse K, Feytens D, Zoi I, Schwartz SD, Martins JC, Tourwé D, Cai M, Hruby VJ, and Ballet S

Abstract

To address the need for highly potent, metabolically stable, and selective agonists, antagonists, and inverse agonists at the melanocortin receptor subtypes, conformationally constrained indolo- and benzazepinone residues were inserted into the α-MSH pharmacophore, His(6)-Phe(7)-Arg(8)-Trp(9)-domain. Replacement of His(6) by an aminoindoloazepinone (Aia) or aminobenzazepinone (Aba) moiety led to hMC4R and hMC5R selective agonist and antagonist ligands, respectively (tetrapeptides 1 to 3 and 4, respectively). In peptides 1 to 3 and depending on the para-substituent of the d-Phe residue in position 2, the activity goes from allosteric partial agonism (1, R = H) to allosteric full agonism (2, R = F) and finally allosteric partial agonism (3, R = Br).

Published
2014
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107. Presence and regulation of insulin-regulated aminopeptidase in mouse macrophages.

Author

Nikolaou A, Stijlemans B, Laoui D, Schouppe E, Tran HT, Tourwé D, Chai SY, Vanderheyden PM, and Van Ginderachter JA

Subjects
3T3-L1 Cells, Animals, Cell Membrane drug effects, Cell Membrane metabolism, Cystinyl Aminopeptidase deficiency, Cystinyl Aminopeptidase genetics, Gene Expression Regulation drug effects, Glucose metabolism, Inflammation pathology, Interferon-gamma pharmacology, Intracellular Space drug effects, Intracellular Space metabolism, Lectins, C-Type metabolism, Ligands, Lipopolysaccharides pharmacology, Macrophage Activation drug effects, Macrophages, Peritoneal drug effects, Mannose Receptor, Mannose-Binding Lectins metabolism, Mice, Mice, Inbred C57BL, Mice, Knockout, NF-kappa B metabolism, Phagocytosis drug effects, RNA, Messenger genetics, RNA, Messenger metabolism, Real-Time Polymerase Chain Reaction, Receptors, Cell Surface metabolism, Cystinyl Aminopeptidase metabolism, Macrophages, Peritoneal enzymology
Abstract

Introduction: The insulin-regulated aminopeptidase (IRAP) is expressed in several cell types, where it is mainly located in specialized secretory endosomes that are quickly recruited to the cell surface upon cell type-specific activation. Here we describe for the first time the expression and subcellular distribution of IRAP in macrophages., Methods: IRAP mRNA expression, protein expression and presence at the cell surface was investigated by real-time polymerase chain reaction (PCR), Western blot and [(3)H]IVDE77 binding, respectively., Results: IRAP mRNA expression was increased by interferon-γ (IFN-γ) and lipopolysaccharide (LPS), but not by anti-inflammatory cytokines (interleukin (IL)-4, IL-10, transforming growth factor β (TGF-β)). IFN-γ increased [(3)H]IVDE77 binding steadily over time, while LPS quickly and transiently recruited IRAP to the cell surface. Combined stimulations with IFN-γ and LPS showed the same pattern as LPS alone. Latex particles also induced a transient recruitment of IRAP to the cell surface, but no difference was observed in phagocytic uptake between wild-type and IRAP(-/-) macrophages, suggesting that the enzymatic activity of IRAP is not required for the ingestion of particles., Conclusion: IRAP is more highly expressed in pro-inflammatory M1-activated macrophages and its presence at the cell surface is modulated upon exposure to IFN-γ, LPS or exogenous particles., (© The Author(s) 2013.)

Published
2014
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108. Efficient synthesis of conformationally constrained, amino-triazoloazepinone-containing di- and tripeptides via a one-pot Ugi-Huisgen tandem reaction.

Author

Barlow TM, Jida M, Tourwé D, and Ballet S

Subjects
Cycloaddition Reaction, Dipeptides chemical synthesis, Dipeptides chemistry, Molecular Conformation, Oligopeptides chemistry, Peptidomimetics chemistry, Azepines chemistry, Oligopeptides chemical synthesis, Peptide Library, Peptidomimetics chemical synthesis, Triazoles chemistry
Abstract

Herein we describe a catalyst-free procedure employing an Ugi-4CR between a β-azido-α-amino acid, propargylamine, an isocyanide and an aldehyde, followed by a thermal azide-alkyne Huisgen cycloaddition to generate a 16-member library of amino-triazoloazepinone-bearing di- and tripeptides with up to four points of diversification and high atom economy.

Published
2014
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109. Synthesis of fused 3-aminoazepinones via trapping of a new class of cyclic seven-membered allenamides with furan.

Author

Schurgers B, Brigou B, Urbanczyk-Lipkowska Z, Tourwé D, Ballet S, De Proft F, Van Lommen G, and Verniest G

Abstract

Novel tricyclic tetrahydroazepinones were synthesized via an in situ Diels-Alder reaction of furan with cyclic allenamides. These reactive intermediates are the first examples of cyclic seven-membered allenamides and were prepared starting from N-(2-chloroallyl)-2-allylglycine derivatives via ring-closing metathesis followed by dehydrochlorination. The trapping of the intermediate cycloallene with furan occurred endo- and regioselectively and provided a convenient entry into new building blocks for medicinal chemistry. The diastereoselectivity of the cycloaddition was confirmed using quantum chemical computations.

Published
2014
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110. One-pot isomerization-cross metathesis-reduction (ICMR) synthesis of lipophilic tetrapeptides.

Author

Jida M, Betti C, Schiller PW, Tourwé D, and Ballet S

Subjects
Hydrophobic and Hydrophilic Interactions, Molecular Structure, Oligopeptides chemistry, Oxidation-Reduction, Stereoisomerism, Oligopeptides chemical synthesis
Abstract

An efficient, versatile and rapid method toward homologue series of lipophilic tetrapeptide derivatives (herein, the opioid peptides H-TIPP-OH and H-DIPP-OH) is reported. High atom economy and a minimal number of synthetic steps resulted from a one-pot tandem isomerization-cross metathesis-reduction sequence (ICMR), applicable both in solution and solid phase methodology. The broadly applicable synthesis proceeds with short reaction times and simple work-up, as illustrated in this work for alkylated opioid tetrapeptides.

Published
2014
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111. In Vitro Membrane Permeation Studies and in Vivo Antinociception of Glycosylated Dmt 1 -DALDA Analogues.

Author

Ballet S, Betti C, Novoa A, Tömböly C, Nielsen CU, Helms HC, Lesniak A, Kleczkowska P, Chung NN, Lipkowski AW, Brodin B, Tourwé D, and Schiller PW

Abstract

In this study the μ opioid receptor (MOR) ligands DALDA (Tyr-d-Arg-Phe-Lys-NH 2 ) and Dmt 1 -DALDA (Dmt-d-Arg-Phe-Lys-NH 2 , Dmt = 2',6'-dimethyltyrosine) were glycosylated at the N- or C-terminus. Subsequently, the modified peptides were subjected to in vitro and in vivo evaluation. In contrast to the N-terminally modified peptide ( 3 ), all peptide analogues derivatized at the C-terminus ( 4 - 7 ) proved to possess high affinity and agonist potency at both MOR and DOR (δ opioid receptor). Results of the Caco-2 monolayer permeation, as well as in vitro blood-brain barrier model experiments, showed that, in the case of compound 4 , the glycosylation only slightly diminished the lumen-to-blood and blood-to-lumen transport. Altogether, these experiments were indicative of transcellular transport but not active transport. In vivo assays demonstrated that the peptides were capable of (i) crossing the blood-brain barrier (BBB) and (ii) activating both the spinal ascending as well as the descending opioid pathways, as determined by the tail-flick and hot-plate assays, respectively. In contrast to the highly selective MOR agonist Dmt 1 -DALDA 1 , compounds 4 - 7 are mixed MOR/DOR agonists, expected to produce reduced opioid-related side effects.

Published
2014
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123. Development and pharmacological characterization of conformationally constrained urotensin II-related peptide agonists.

Author

Chatenet D, Folch B, Feytens D, Létourneau M, Tourwé D, Doucet N, and Fournier A

Subjects
Animals, Aorta, Thoracic drug effects, Intracellular Signaling Peptides and Proteins, Male, Molecular Dynamics Simulation, Peptide Hormones chemistry, Peptide Hormones pharmacology, Rats, Urotensins antagonists & inhibitors, Vasoconstriction drug effects, Peptide Hormones agonists
Abstract

Urotensin II (UII) and its paralog peptide, urotensin II-related peptide (URP), exert not only common but also divergent actions through the activation of UT, a specific membrane-bound receptor that belongs to the 1A G protein-coupled receptor subclass. In this study, we have designed and synthesized new URP analogues in which the intracyclic Trp residue was replaced with natural, unnatural, and constrained amino acids to determine important physicochemical features for receptor binding and activation. The biological data, highlighting the potent agonistic behavior of [Tiq(4)]URP and [Tpi(4)]URP, also suggest that the Trp residue, and more specifically the indole ring, is not critical for receptor interaction and could in fact be involved in the intramolecular stabilization of the bioactive conformation of URP. Finally, these analogues, which are intracyclic constrained URP-based agonists, could represent useful pharmacological tools for the study of the urotensinergic system.

Published
2013
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124. Highly diastereoselective synthesis of 1-carbamoyl-4-aminoindoloazepinone derivatives via the Ugi reaction.

Author

Jida M, Betti C, Urbanczyk-Lipkowska Z, Tourwé D, and Ballet S

Abstract

A one-pot procedure for the highly diastereoselective synthesis of 1-carbamoyl-4-amino-1,2,4,5-tetrahydroindolo[2,3-c]azepin-3-one derivatives is described. Using 2-formyl-L-tryptophan as a bifunctional building block, a catalyst-free Ugi-three-component reaction (Ugi-3CR) was developed to present trisubstituted indoloazepinones in good yields and excellent diastereomeric excess.

Published
2013
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125. Stabilisation of a short α-helical VIP fragment by side chain to side chain cyclisation: a comparison of common cyclisation motifs by circular dichroism.

Author

Frankiewicz L, Betti C, Guillemyn K, Tourwé D, Jacquot Y, and Ballet S

Subjects
Cyclization, Protein Stability, Protein Structure, Secondary, Vasoactive Intestinal Peptide chemical synthesis, Circular Dichroism, Vasoactive Intestinal Peptide chemistry
Abstract

A model octapeptide segment derived from vasoactive intestinal peptide (VIP) was utilised to investigate the effect of several conventional cyclisation methods on the α-helical conformation in short peptide fragments. Three of the classical macrocyclisation techniques (i.e. lactamisation, ring-closing metathesis and Huisgen cycloaddition) were applied, and the conformations of the resulting cyclic peptides, as well as their linear precursors, were compared by CD analysis. The visibly higher folding propensity of the triazole-tethered peptide after azide-alkyne CuAAC macrocyclisation illustrates that the secondary structure of a short peptide fragment can differ significantly depending on the chemical strategy used to covalently cross-link side chain residues in a 'helical' fragment., (Copyright © 2013 European Peptide Society and John Wiley & Sons, Ltd.)

Published
2013
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126. [3H]IVDE77, a novel radioligand with high affinity and selectivity for the insulin-regulated aminopeptidase.

Author

Nikolaou A, Van den Eynde I, Tourwé D, Vauquelin G, Tóth G, Mallareddy JR, Poglitsch M, Van Ginderachter JA, and Vanderheyden PM

Subjects
Angiotensin II pharmacology, Animals, Binding, Competitive, CHO Cells, Cricetinae, Cricetulus, HEK293 Cells, Humans, Ligands, Angiotensin II analogs & derivatives, Azepines pharmacology, Cystinyl Aminopeptidase metabolism, Oligopeptides pharmacology
Abstract

The hexapeptide angiotensin IV (Ang IV) induces diverse biological effects such as memory enhancement and protection against ischemic stroke. Studies on the mechanism of Ang IV however are hampered by its instability and its lack of selectivity. The high-affinity binding site for Ang IV is the insulin-regulated aminopeptidase (IRAP, EC 3.4.11.3), but Ang IV also acts as a weak agonist for the Ang II-receptor (AT1), implying the need for stable and highly selective Ang IV-analogues. Here we present the screening of novel Ang IV-analogues, selected on basis of high affinity for IRAP, high selectivity (compared to aminopeptidase N and the AT1 receptor) and resistance against proteases. The selected compound IVDE77 possesses a number of advantages compared to Ang IV: (i) it has a 40 times higher affinity for IRAP (Ki 1.71 nM), (ii) it does not activate the AT1 receptor, (iii) it is easily radiolabeled with tritium and (iv) it is resistant to proteolysis, even in human plasma. In addition, pre-treatment of intact CHO-K1 cells with IVDE77 led to a virtually complete inhibition of subsequent intracellular accumulation of [(3)H]IVDE77-IRAP complexes. IVDE77 thus represents the first Ang IV-analogue able to abolish IRAP-availability completely at the cell surface in vitro. In summary, IVDE77 is a useful tool for the detection of IRAP under physiological conditions, and may contribute to elucidating the mechanism of Ang IV to ascertain which functions are IRAP-dependent., (Copyright © 2013 Elsevier B.V. All rights reserved.)

Published
2013
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127. Hybrid opioid/non-opioid ligands in pain research.

Author

Kleczkowska P, Lipkowski AW, Tourwé D, and Ballet S

Subjects
Amino Acid Sequence, Humans, Ligands, Analgesics therapeutic use, Opioid Peptides therapeutic use, Pain drug therapy
Abstract

To address the different types of pain (e.g. acute, chronic, neuropathic) different classes of medications, mainly non-steroidal anti-inflammatory drugs and narcotics (opioids), are used. More specifically, the alleviation or treatment of moderate to severe pain states commonly invokes the use of opioids. Unfortunately, their chronic administration induces various undesirable side effects, such as for example physical dependence and tolerance. One strategy to overcome these major side effects and to prolong the antinociceptive efficiency of the applied drugs involves the creation of multifunctional compounds which contain hybridized structures. Combination of opioid agonist and antagonist pharmacophores in a single chemical entity has been considered and extensively investigated, but opioids have also been combined with other bioactive neurotransmitters and peptide hormones that are involved in pain perception (e.g. substance P, neurotensin, cholecystokinin, cannabinoids, melanocortin ligands, etc.). Such novel chimeras (also called designed multiple ligands or twin/triplet drugs), may interact independently with their respective receptors and potentially result in more effective antinociceptive properties. The designed multiple ligands presented in this work include opioid-non-opioid peptide dimer analogs, mixed peptidic- non-peptidic bifunctional ligands and dual non-peptidic dimers. The main focus herein is placed on the design and biological evaluation of these multiple opioid compounds, rather than the synthetic approach and preparation.

Published
2013
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128. Identification of Dmt-D-Lys-Phe-Phe-OH as a highly antinociceptive tetrapeptide metabolite of the opioid-neurotensin hybrid peptide PK20.

Author

Kleczkowska P, Bojnik E, Leśniak A, Kosson P, Van den Eynde I, Ballet S, Benyhe S, Tourwé D, and Lipkowski AW

Subjects
Analgesics, Opioid chemistry, Analgesics, Opioid pharmacology, Animals, Brain drug effects, Drug Stability, GTP-Binding Proteins drug effects, GTP-Binding Proteins metabolism, Male, Mice, Neurotensin metabolism, Opioid Peptides metabolism, Radioligand Assay, Rats, Receptors, Opioid, mu agonists, Analgesics, Opioid chemical synthesis, Neurotensin chemistry, Opioid Peptides chemistry, Pain Measurement drug effects, Peptides chemistry, Peptides pharmacology, Receptors, Opioid, delta agonists
Abstract

Background: Recently, we presented a novel compound (PK20, Dmt-D-Lys-Phe-Phe-Lys-Lys-Pro-Phe-Tle-Leu-OH) that targets single entity opioid and neurotensin pharmacophores. This endomorphin-2-like opioid peptide was introduced as a highly active analgesic because it elicited a strong dose- and time-dependent antinociceptive response when administered centrally and peripherally. Its pain-relieving activity was observed as rapidly as 5 min after drug injection. Such promising results led us to perform further studies, such as determining the resistance to enzymatic degradation, which resulted in obtaining a very stable opioid pharmacore PK20 metabolite., Methods: The synthesis of PK20 and its N-terminal tetrapeptide fragment has been accomplished using solid phase peptide chemistry. The biological stability of peptides has been measured in human serum and analyzed by HPLC/MS. Peptides were pharmacologically characterized in in vitro MOP and DOP receptor binding as well as [(35)S]GTPγS receptor binding assays. Antinociceptive properties of compounds were measured by in vivo assays in C57Bl6 mice after intravenous or intrathecal applications., Results: Dmt-D-Lys-Phe-Phe-OH (PK20M), an N-terminal tetrapeptide metabolite of the opioid-neurotensin hybrid peptide PK20, is characterized by a long duration of action, as demonstrated by a preserved, long-lasting analgesic effect even 2 h post-injection (average % MPE = 69.33). In rat brain membranes, PK20M efficiently displaced both the MOP and DOP receptor selective radioprobes [(3)H]DAMGO and [(3)H]DIDI (pKi of 9.52 and 7.86, respectively) and potently stimulated [(35)S]GTPγS binding, proving full agonism at both receptor types. In the [(35)S]GTPγS assay, which measured the agonist-mediated G protein activation, PK20M together with PK20 and Met-enkephalin were potent stimulators of the regulatory G proteins. The relative affinities of PK20M for the μ and δ receptor subtypes revealed μ-receptor selectivity., Conclusion: The novel MOP receptor selective metabolite has been shown to possess opioid subtype receptor selectivity, high potency, and effective analgesic activities as measured in various bioassays.

Published
2013
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129. Variation of the net charge, lipophilicity, and side chain flexibility in Dmt(1)-DALDA: Effect on Opioid Activity and Biodistribution.

Author

Novoa A, Van Dorpe S, Wynendaele E, Spetea M, Bracke N, Stalmans S, Betti C, Chung NN, Lemieux C, Zuegg J, Cooper MA, Tourwé D, De Spiegeleer B, Schiller PW, and Ballet S

Subjects
Animals, Blood-Brain Barrier, Brain drug effects, Mice, Molecular Structure, Oligopeptides chemistry, Oligopeptides pharmacokinetics, Opioid Peptides metabolism, Structure-Activity Relationship, Tissue Distribution, Analgesics, Opioid pharmacology, Nociception drug effects, Oligopeptides pharmacology, Pain Measurement drug effects, Receptors, Opioid metabolism
Abstract

The influence of the side chain charges of the second and fourth amino acid residues in the peptidic μ opioid lead agonist Dmt-d-Arg-Phe-Lys-NH(2) ([Dmt(1)]-DALDA) was examined. Additionally, to increase the overall lipophilicity of [Dmt(1)]-DALDA and to investigate the Phe(3) side chain flexibility, the final amide bond was N-methylated and Phe(3) was replaced by a constrained aminobenzazepine analogue. The in vitro receptor binding and activity of the peptides, as well as their in vivo transport (brain in- and efflux and tissue biodistribution) and antinociceptive properties after peripheral administration (ip and sc) in mice were determined. The structural modifications result in significant shifts of receptor binding, activity, and transport properties. Strikingly, while [Dmt(1)]-DALDA and its N-methyl analogue, Dmt-d-Arg-Phe-NMeLys-NH(2), showed a long-lasting antinociceptive effect (>7 h), the peptides with d-Cit(2) generate potent antinociception more rapidly (maximal effect at 1h postinjection) but also lose their analgesic activity faster when compared to [Dmt(1)]-DALDA and [Dmt(1),NMeLys(4)]-DALDA.

Published
2012
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130. Synergetic effects of DNA demethylation and histone deacetylase inhibition in primary rat hepatocytes.

Author

Fraczek JE, Vinken M, Tourwé D, Vanhaecke T, and Rogiers V

Subjects
Albumins metabolism, Animals, Azacitidine analogs & derivatives, Azacitidine pharmacology, Biomarkers metabolism, CDC2 Protein Kinase metabolism, Cell Cycle drug effects, Cell Proliferation drug effects, Cell Shape drug effects, Cells, Cultured, DNA biosynthesis, Decitabine, Drug Synergism, Epidermal Growth Factor pharmacology, Hepatocytes cytology, Hepatocytes enzymology, Hydroxamic Acids pharmacology, Rats, DNA Methylation drug effects, Hepatocytes drug effects, Hepatocytes metabolism, Histone Deacetylase Inhibitors pharmacology
Abstract

Both, DNA methylation and histone deacetylation play a crucial role in cancer development by silencing the expression of specific tumour suppressor genes. Several studies describe the use of combinations of DNA methyltransferase inhibitors (DNMT-i) and histone deacetylase inhibitors (HDAC-i) as an improved strategy to treat neoplasms. However, no information is available concerning their biological impact on healthy, non-malignant cells, including hepatocytes. Therefore, the effects of the combination of the DNMT-i decitabine (DAC) with the HDAC-i 6-[(4-pyrrolidine-1-ylbenzoyl) amino] hexanoic acid hydroxamate (AN-8) on cell proliferation and differentiation were examined in primary rat hepatocyte cultures. We found that, upon simultaneous exposure of the cells to both compounds, a synergetic anti-proliferative outcome was achieved. This inhibition of DNA synthesis was accompanied by a reduced expression of cyclin-dependent kinase 1 (cdk1), a key cell cycle marker that controls the S/G2/M transition. Compared to exposure of the cells to each agent separately, the combination of lower concentrations of both DAC and AN-8 promoted the maintenance of the differentiated phenotype of the cells as a function of culture time. The functionality of the hepatocytes was evidenced by an increased expression of the phase I biotransformation enzyme cytochrome P 450 (CYP) 1A1 and albumin secretion capacity when both agents were used in combination.

Published
2012
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131. Angiotensin IV displays only low affinity for native insulin-regulated aminopeptidase (IRAP).

Author

Demaegdt H, De Backer JP, Lukaszuk A, Tóth G, Szemenyei E, Tourwé D, and Vauquelin G

Subjects
Angiotensin II metabolism, Animals, CD13 Antigens antagonists & inhibitors, CD13 Antigens metabolism, CHO Cells, Cell Line, Cricetinae, Cricetulus, Mice, Radioligand Assay, Tyrosine pharmacology, Zinc chemistry, Angiotensin II analogs & derivatives, Chelating Agents pharmacology, Cystinyl Aminopeptidase metabolism, Organophosphorus Compounds pharmacology, Tyrosine analogs & derivatives
Abstract

Radioligand binding studies revealed that Ang IV binds to insulin-regulated aminopeptidase (IRAP)/'AT(4) receptors' with high affinity. Yet, as these experiments were routinely carried out in the presence of chelators, only the catalytic zinc-depleted apo-form of IRAP was labelled. While the chelators remove the catalytic zinc from IRAP and protect Ang IV from proteolytic degradation, the aminopeptidase N selective inhibitor '7B' only exerts the latter effect. By using 7B along with the new stable Ang IV-analog [(3) H]AL-11, we here show that the native enzyme is only a low-affinity target for Ang IV., (© 2011 The Authors Fundamental and Clinical Pharmacology © 2011 Société Française de Pharmacologie et de Thérapeutique.)

Published
2012
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132. In vivo antinociception of potent mu opioid agonist tetrapeptide analogues and comparison with a compact opioid agonist-neurokinin 1 receptor antagonist chimera.

Author

Guillemyn K, Kleczkowska P, Novoa A, Vandormael B, Van den Eynde I, Kosson P, Asim MF, Schiller PW, Spetea M, Lipkowski AW, Tourwé D, and Ballet S

Subjects
Analgesics pharmacology, Animals, Dose-Response Relationship, Drug, Injections, Intravenous, Ligands, Mice, Mice, Inbred C57BL, Morphine administration & dosage, Morphine pharmacology, Oligopeptides chemistry, Opioid Peptides administration & dosage, Opioid Peptides pharmacology, Receptors, Neurokinin-1 metabolism, Receptors, Opioid, mu metabolism, Recombinant Proteins chemistry, Time Factors, Neurokinin-1 Receptor Antagonists, Nociception drug effects, Oligopeptides pharmacology, Opioid Peptides agonists, Receptors, Opioid, mu agonists, Recombinant Proteins pharmacology
Abstract

Background: An important limiting factor in the development of centrally acting pharmaceuticals is the blood-brain barrier (BBB). Transport of therapeutic peptides through this highly protective physiological barrier remains a challenge for peptide drug delivery into the central nervous system (CNS). Because the most common strategy to treat moderate to severe pain consists of the activation of opioid receptors in the brain, the development of active opioid peptide analogues as potential analgesics requires compounds with a high resistance to enzymatic degradation and an ability to cross the BBB., Results: Herein we report that tetrapeptide analogues of the type H-Dmt1-Xxx2-Yyy3-Gly4-NH2 are transported into the brain after intravenous and subcutaneous administration and are able to activate the μ- and δ opioid receptors more efficiently and over longer periods of time than morphine. Using the hot water tail flick test as the animal model for antinociception, a comparison in potency is presented between a side chain conformationally constrained analogue containing the benzazepine ring (BVD03, Yyy3: Aba), and a "ring opened" analogue (BVD02, Yyy3: Phe). The results show that in addition to the increased lipophilicity through amide bond N-methylation, the conformational constraint introduced at the level of the Phe3 side chain causes a prolonged antinociception. Further replacement of NMe-D-Ala2 by D-Arg2 in the tetrapeptide sequence led to an improved potency as demonstrated by a higher and maintained antinociception for AN81 (Xxx2: D-Arg) vs. BVD03 (Xxx2: NMe-D-Ala). A daily injection of the studied opioid ligands over a time period of 5 days did however result in a substantial decrease in antinociception on the fifth day of the experiment. The compact opioid agonist-NK1 antagonist hybrid SBCHM01 could not circumvent opioid induced tolerance., Conclusions: We demonstrated that the introduction of a conformational constraint has an important impact on opioid receptor activation and subsequent antinociception in vivo. Further amino acid substitution allowed to identify AN81 as an opioid ligand able to access the CNS and induce antinociception at very low doses (0.1 mg/kg) over a time period up to 7 hours. However, tolerance became apparent after repetitive i.v. administration of the investigated tetrapeptides. This side effect was also observed with the dual opioid agonist-NK1 receptor antagonist SBCHM01.

Published
2012
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133. Amino triazolo diazepines (Ata) as constrained histidine mimics.

Author

Buysse K, Farard J, Nikolaou A, Vanderheyden P, Vauquelin G, Pedersen DS, Tourwé D, and Ballet S

Subjects
Amino Acids chemistry, Angiotensin II analogs & derivatives, Angiotensin II chemistry, Azepines chemistry, Dipeptides chemistry, Molecular Structure, Triazoles chemistry, Azepines chemical synthesis, Histidine chemistry, Triazoles chemical synthesis
Abstract

Two synthetic routes for the synthesis of amino-triazolodiazepine (Ata) scaffolds are presented. The scope of both of these proceeding through key intra- and intermolecular Huisgen cycloaddition reactions is discussed. The replacement of the His-Pro dipeptide segment in angiotensin IV by the dipeptide mimetic Ata-Gly and subsequent biological evaluation in two inhibitory enzyme assays validated the use of the Ata moiety as a His mimic given the equipotency of both peptidic analogs.

Published
2011
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134. Superpotent [Dmt¹] dermorphin tetrapeptides containing the 4-aminotetrahydro-2-benzazepin-3-one scaffold with mixed μ/δ opioid receptor agonistic properties.

Author

Vandormael B, Fourla DD, Gramowski-Voss A, Kosson P, Weiss DG, Schröder OH, Lipkowski A, Georgoussi Z, and Tourwé D

Subjects
Action Potentials drug effects, Analgesics chemical synthesis, Analgesics chemistry, Analgesics pharmacology, Animals, Anticonvulsants chemical synthesis, Anticonvulsants chemistry, Anticonvulsants pharmacology, Benzazepines chemistry, Benzazepines pharmacology, Binding Sites, Cells, Cultured, Cerebral Cortex drug effects, Cerebral Cortex physiology, Cyclic AMP biosynthesis, Humans, In Vitro Techniques, Mice, Mitogen-Activated Protein Kinase 1 metabolism, Mitogen-Activated Protein Kinase 3 metabolism, Neural Networks, Computer, Neurons drug effects, Neurons metabolism, Oligopeptides chemistry, Oligopeptides pharmacology, Phosphorylation, Radioligand Assay, Rats, Spinal Cord drug effects, Spinal Cord physiology, Structure-Activity Relationship, Benzazepines chemical synthesis, Oligopeptides chemical synthesis, Receptors, Opioid, delta agonists, Receptors, Opioid, mu agonists
Abstract

Novel dermorphin tetrapeptides are described in which Tyr(1) is replaced by Dmt(1), where d-Ala(2) and Gly(4) are N-methylated, and where Phe(3)-Gly(4) residue is substituted by the constrained Aba(3)-Gly(4) peptidomimetic. Most of these peptidic ligands displayed binding affinities in the nanomolar range for both μ- and δ-opioid receptors but no detectable affinity for the κ-opioid receptor. Measurements of cAMP accumulation, phosphorylation of extracellular signal-regulated kinase (ERK1/2) in HEK293 cells stably expressing each of these receptors individually, and functional screening in primary neuronal cultures confirmed the potent agonistic properties of these peptides. The most potent ligand H-Dmt-NMe-d-Ala-Aba-Gly-NH(2) (BVD03) displayed mixed μ/δ opioid agonist properties with picomolar functional potencies. Functional electrophysiological in vitro assays using primary cortical and spinal cord networks showed that this analogue possessed electrophysiological similarity toward gabapentin and sufentanil, which makes it an interesting candidate for further study as an analgesic for neuropathic pain.

Published
2011
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135. Asymmetric synthesis and conformational analysis by NMR spectroscopy and MD of Aba- and α-MeAba-containing dermorphin analogues.

Author

Vandormael B, De Wachter R, Martins JC, Hendrickx PM, Keresztes A, Ballet S, Mallareddy JR, Tóth F, Tóth G, and Tourwé D

Subjects
Animals, Hydrogen Bonding, Ligands, Magnetic Resonance Spectroscopy, Methylation, Molecular Dynamics Simulation, Peptides chemistry, Phenylalanine chemistry, Protein Conformation, Rats, Receptors, Opioid, delta chemistry, Receptors, Opioid, delta metabolism, Receptors, Opioid, mu chemistry, Receptors, Opioid, mu metabolism, Stereoisomerism, Structure-Activity Relationship, Benzazepines chemistry, Opioid Peptides chemistry, Peptides chemical synthesis, Peptides metabolism
Abstract

Dermorphin analogues, containing a (S)- and (R)-4-amino-1,2,4,5-tetrahydro-2-benzazepin-3-one scaffold (Aba) and the α-methylated analogues as conformationally constrained phenylalanines, were prepared. Asymmetric phase-transfer catalysis was unable to provide the (S)-α-Me-o-cyanophenylalanine precursor for (S)-α-MeAba in acceptable enantiomeric purity. However, by using a Schöllkopf chiral auxiliary, this intermediate was obtained in 88 % ee. [(S)-Aba 3-Gly 4]dermorphin retained μ-opioid affinity but displayed an increased δ-affinity. The corresponding R epimer was considerably less potent. In contrast, the [(R)-α-MeAba 3-Gly 4]dermorphin isomer was more potent than its S epimer. Tar-MD simulations of both non-methylated [Aba 3-Gly 4]dermorphin analogues showed a degree of folding at the C-terminal residues toward the N terminus of the peptide, without however, adopting a stabilized β-turn conformation. The α-methylated analogues, on the other hand, exhibited a type I/I' β-turn conformation over the α-MeAba 3 and Gly 4 residues, which was stabilized by a hydrogen bond involving Tyr 5-HN and D-Ala 2-CO., (Copyright © 2011 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2011
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136. Synthesis, biological evaluation, and automated docking of constrained analogues of the opioid peptide H-Dmt-D-Ala-Phe-Gly-NH₂ using the 4- or 5-methyl substituted 4-amino-1,2,4,5-tetrahydro-2-benzazepin-3-one scaffold.

Author

De Wachter R, de Graaf C, Keresztes A, Vandormael B, Ballet S, Tóth G, Rognan D, and Tourwé D

Subjects
Animals, Benzazepines chemistry, Benzazepines pharmacology, Brain metabolism, In Vitro Techniques, Opioid Peptides chemistry, Opioid Peptides pharmacology, Protein Binding, Protein Structure, Secondary, Radioligand Assay, Rats, Rats, Wistar, Receptors, Opioid, delta agonists, Stereoisomerism, Structure-Activity Relationship, Benzazepines chemical synthesis, Models, Molecular, Opioid Peptides chemical synthesis, Receptors, Opioid, mu agonists
Abstract

The Phe(3) residue of the N-terminal tetrapeptide of dermorphin (H-Dmt-d-Ala-Phe-Gly-NH(2)) was conformationally constrained using 4- or 5-methyl-substituted 4-amino-1,2,4,5-tetrahydro-2-benzazepin-3-one (Aba) stereoisomeric scaffolds. Several of the synthesized peptides were determined to be high affinity agonists for the μ opioid receptor (OPRM) with selectivity over the δ opioid receptor (OPRD). Interesting effects of the Aba configuration on ligand binding affinity were observed. H-Dmt-d-Ala-erythro-(4S,5S)-5-Me-Aba-Gly-NH(2)9 and H-Dmt-threo-(4R,5S)-5-Me-Aba-Gly-NH(2)12 exhibited subnanomolar affinity for OPRM, while they possess an opposite absolute configuration at position 4 of the Aba ring. However, in the 4-methyl substituted analogues, H-Dmt-d-Ala-(4R)-Me-Aba-Gly-NH(2)14 was significantly more potent than the (4S)-derivative 13. These unexpected results were rationalized using the binding poses predicted by molecular docking simulations. Interestingly, H-Dmt-d-Ala-(4R)-Me-Aba-Gly-NH(2)14 is proposed to bind in a different mode compared with the other analogues. Moreover, in contrast to Ac-4-Me-Aba-NH-Me, which adopts a β-turn in solution and in the crystal structure, the binding mode of this analogue suggests an alternative receptor-bound conformation.

Published
2011
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137. Conformational constraints in angiotensin IV to probe the role of Tyr², Pro⁵ and Phe⁶.

Author

Lukaszuk A, Demaegdt H, Van den Eynde I, Vanderheyden P, Vauquelin G, and Tourwé D

Subjects
Aminopeptidases metabolism, Angiotensin II chemistry, Angiotensin II metabolism, Animals, Biocatalysis, CHO Cells, Cell Membrane metabolism, Cells, Cultured, Cricetinae, Cricetulus, HEK293 Cells, Humans, Molecular Structure, Phenylalanine analogs & derivatives, Phenylalanine chemistry, Proline analogs & derivatives, Proline chemistry, Protein Conformation, Spectrophotometry, Atomic, Substrate Specificity, Tyrosine analogs & derivatives, Tyrosine chemistry, Angiotensin II analogs & derivatives, Phenylalanine metabolism, Proline metabolism, Tyrosine metabolism
Abstract

The aromatic amino acids Tyr and Phe in angiotensin IV (Ang IV) were conformationally constrained by the use of β-Me substituted analogs, or cyclic constrained analogs. None of these modifications was allowed for Tyr¹, while only e-β-MePhe⁶ substitution resulted in an AngIV analog with high IRAP potency and selectivity versus AP-N or the AT₁ receptor. This indicates an important role of the orientation of the Phe⁶ for inducing selectivity. Pro⁵ replacement with 2-aminocyclopentanecarboxylic acid maintained IRAP potency and abolished AT₁ affinity. These results confirm the importance of conformational constrained amino acids to generate selectivity in bioactive peptides., (Copyright © 2011 European Peptide Society and John Wiley & Sons, Ltd.)

Published
2011
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138. Novel DOTA-neurotensin analogues for 111In scintigraphy and 68Ga PET imaging of neurotensin receptor-positive tumors.

Author

Alshoukr F, Prignon A, Brans L, Jallane A, Mendes S, Talbot JN, Tourwé D, Barbet J, and Gruaz-Guyon A

Subjects
Amino Acid Sequence, Animals, Cell Line, Tumor, Female, Gallium Radioisotopes chemistry, Humans, Mice, Mice, Inbred BALB C, Neoplasms metabolism, Receptors, Neurotensin metabolism, Heterocyclic Compounds, 1-Ring chemistry, Indium Radioisotopes chemistry, Neoplasms diagnosis, Neoplasms diagnostic imaging, Positron-Emission Tomography methods, Receptors, Neurotensin chemistry
Abstract

Overexpression of the high affinity neurotensin receptor 1 (NTSR1), demonstrated in several human cancers, has been proposed as a new marker for human ductal pancreatic carcinoma and as an independent factor for poor prognosis for ductal breast cancer, head and neck squamous cell carcinoma, and non-small cell lung cancer. The aim of the present study was to develop new DOTA-neurotensin analogues for positron emission tomography (PET) imaging with (68)Ga and for targeted radiotherapy with (90)Y or (177)Lu. We synthesized a DOTA-neurotensin analogue series. Two of these peptides bear two sequence modifications for metabolic stability: DOTA-NT-20.3 shares the same peptide sequence as the previously described DTPA-NT-20.3. In the sequence of DOTA-NT-20.4, the Arg(8)-Arg(9) bond was N-methylated instead of the Pro(7)-Arg(8) bond in DOTA-NT-20.3. An additional sequence modification was introduced in DOTA-LB119 to increase stability. A spacer was added between DOTA and the peptide sequence to increase affinity. Binding to HT29 cells, which express NTSR1, in vivo stability, and biodistribution of the various analogues were compared, and the best candidate was used to image tumors of various sizes with the microPET in mice. (111)In-DOTA-NT-20.3, in spite of a relatively high uptake in kidneys, showed specific tumor uptake and elevated tumor to other organ uptake ratios. High contrast images were obtained at early time points after injection that allowed tumor detection at a time interval postinjection appropriate for imaging with the short-lived radionuclide (68)Ga. (111)In-DOTA-NT-20.4 displayed inferior binding to HT29 cells and reduced tumor uptake. (111)In-DOTA-LB119 displayed at early time points a significantly lower renal uptake but also a lower tumor uptake than (111)In-DOTA-NT-20.3, although binding to HT29 cells was similar. (68)Ga-DOTA-NT-20.3 displayed higher tumor uptake than (68)Ga-DOTA-LB119 and allowed the detection of very small tumors by PET. In conclusion, DOTA-NT-20.3 is a promising candidate for (68)Ga-PET imaging of neurotensin receptor-positive tumors. DOTA-NT-20.3 may also be considered for therapy, as the yttrium-labeled peptide has higher affinity than that of the indium-labeled one. A prerequisite for therapeutic application of this neurotensin analogue would be to lower kidney uptake, for example, by infusion of basic amino acids, gelofusin, or albumin fragments, to prevent nephrotoxicity, as with radiolabeled somatostatin analogues.

Published
2011
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139. Binding of "AT4 receptor" ligands to insulin regulated aminopeptidase (IRAP) in intact Chinese hamster ovary cells.

Author

Demaegdt H, Gard P, De Backer JP, Lukaszuk A, Szemenyei E, Tóth G, Tourwé D, and Vauquelin G

Subjects
Angiotensin II pharmacology, Animals, Binding, Competitive, CHO Cells, Cricetinae, Cricetulus, HEK293 Cells, Hemoglobins pharmacology, Humans, Ligands, Peptide Fragments pharmacology, Protein Binding, Protein Transport, Radioligand Assay, Angiotensin II analogs & derivatives, Cystinyl Aminopeptidase metabolism, Peptidomimetics pharmacology
Abstract

Insulin regulated aminopeptidase (IRAP) recognises "AT(4)-receptor" ligands like angiotensin IV (Ang IV) and peptidomimetics like AL-11. The metabolic stability and high affinity of [(3)H]AL-11 for catalytically active IRAP allowed its detection in Chinese hamster ovary (CHO-K1) cell membranes in the absence of chelators (Demaegdt et al., 2009). Here, we show that, contrary to [(3)H]Ang IV, [(3)H]AL-11 displays high affinity and specificity for IRAP in intact CHO-K1 cells as well. After binding to IRAP at the surface, [(3)H]AL-11 is effectively internalized by an endocytotic process. Unexpectedly, surface binding and internalization of [(3)H]AL-11 was not affected by pretreating the cells with Ang IV but declined with AL-11. In the latter case surface expression of IRAP even increased. After elimination of simpler explanations, it is proposed that metabolically stable "AT(4)-receptor" ligands undergo semi-continuous cycling between the cell surface and endosomal compartments. The in vivo efficacy of stable and unstable "AT(4)-receptor" ligands could therefore differ., (Copyright © 2011 Elsevier Ireland Ltd. All rights reserved.)

Published
2011
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140. Pressor and renal hemodynamic effects of the novel angiotensin A peptide are angiotensin II type 1A receptor dependent.

Author

Yang R, Smolders I, Vanderheyden P, Demaegdt H, Van Eeckhaut A, Vauquelin G, Lukaszuk A, Tourwé D, Chai SY, Albiston AL, Nahmias C, Walther T, and Dupont AG

Subjects
Angiotensin II Type 1 Receptor Blockers pharmacology, Angiotensins metabolism, Animals, Benzimidazoles pharmacology, Biphenyl Compounds, Blood Pressure physiology, Dose-Response Relationship, Drug, Hypertension metabolism, Kidney drug effects, Kidney metabolism, Male, Mice, Mice, Knockout, Rats, Rats, Inbred SHR, Rats, Inbred WKY, Receptor, Angiotensin, Type 1 genetics, Renal Circulation physiology, Statistics, Nonparametric, Tetrazoles pharmacology, Vasoconstriction physiology, Angiotensins pharmacology, Blood Pressure drug effects, Receptor, Angiotensin, Type 1 metabolism, Renal Circulation drug effects, Vasoconstriction drug effects
Abstract

Recently, a new derivative of angiotensin (Ang) II, called "Ang A," has been discovered to be present in plasma of healthy humans and, in increased concentrations, in end-stage renal failure patients. The objectives of the study were to investigate the blood pressure and renal hemodynamic responses to Ang A in normotensive and hypertensive rats and in genetically modified mice and the binding properties of Ang A to Ang II type 1 (AT(1)) or Ang II type 2 (AT(2)) receptors. Intravenous and intrarenal administration of Ang A induced dose-dependent pressor and renal vasoconstrictor responses in normotensive rats, which were blocked by the AT(1) receptor antagonist candesartan but were not altered by the AT(2) receptor ligands PD123319, CGP42112A, or compound 21. Similar responses were observed after intravenous administration in spontaneously hypertensive rats. Deletion of AT(1a) receptors in mice almost completely abolished the pressor and renal vasoconstrictor responses to Ang A, indicating that its effects are mediated via AT(1a) receptors. Ang A was less potent than Ang II in vivo. The in vitro study demonstrated that Ang A is a full agonist for AT(1) receptors, with similar affinity for AT(1) and AT(2) receptors as Ang II. Overall, the responses to Ang A and Ang II were similar. Ang A has no physiological role to modulate the pressor and renal hemodynamic effects of Ang II.

Published
2011
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141. Design of novel neurokinin 1 receptor antagonists based on conformationally constrained aromatic amino acids and discovery of a potent chimeric opioid agonist-neurokinin 1 receptor antagonist.

Author

Ballet S, Feytens D, Buysse K, Chung NN, Lemieux C, Tumati S, Keresztes A, Van Duppen J, Lai J, Varga E, Porreca F, Schiller PW, Vanden Broeck J, and Tourwé D

Subjects
Amino Acids, Aromatic chemical synthesis, Animals, CHO Cells, Cricetinae, Cricetulus, Humans, Ligands, Models, Molecular, Molecular Conformation, Receptors, Neurokinin-1 metabolism, Receptors, Opioid metabolism, Structure-Activity Relationship, Amino Acids, Aromatic chemistry, Amino Acids, Aromatic pharmacology, Drug Design, Neurokinin-1 Receptor Antagonists, Receptors, Opioid agonists
Abstract

A screening of conformationally constrained aromatic amino acids as base cores for the preparation of new NK1 receptor antagonists resulted in the discovery of three new NK1 receptor antagonists, 19 [Ac-Aba-Gly-NH-3',5'-(CF(3))(2)-Bn], 20 [Ac-Aba-Gly-NMe-3',5'-(CF(3))(2)-Bn], and 23 [Ac-Tic-NMe-3',5'-(CF(3))(2)-Bn], which were able to counteract the agonist effect of substance P, the endogenous ligand of NK1R. The most active NK1 antagonist of the series, 20 [Ac-Aba-Gly-NMe-3',5'-(CF(3))(2)-Bn], was then used in the design of a novel, potent chimeric opioid agonist-NK1 receptor antagonist, 35 [Dmt-D-Arg-Aba-Gly-NMe-3',5'-(CF(3))(2)-Bn], which combines the N terminus of the established Dmt(1)-DALDA agonist opioid pharmacophore (H-Dmt-D-Arg-Phe-Lys-NH(2)) and 20, the NK1R ligand. The opioid component of the chimeric compound 35, that is, Dmt-D-Arg-Aba-Gly-NH(2) (36), also proved to be an extremely potent and balanced μ and δ opioid receptor agonist with subnanomolar binding and in vitro functional activity.

Published
2011
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142. Design, synthesis, pharmacological evaluation, and structure-activity study of novel endomorphin analogues with multiple structural modifications.

Author

Mallareddy JR, Borics A, Keresztes A, Kövér KE, Tourwé D, and Tóth G

Subjects
Animals, Brain metabolism, Drug Stability, Guanosine 5'-O-(3-Thiotriphosphate) metabolism, Hydrolysis, In Vitro Techniques, Ligands, Magnetic Resonance Spectroscopy, Male, Models, Molecular, Molecular Conformation, Oligopeptides chemistry, Oligopeptides pharmacology, Radioligand Assay, Rats, Rats, Wistar, Stereoisomerism, Structure-Activity Relationship, Amino Acids chemistry, Oligopeptides chemical synthesis, Receptors, Opioid, mu agonists
Abstract

This study reports on new proteolytically stable, pharmacologically active endomorphin analogues, incorporating Dmt(1), Achc(2), pFPhe(4), or βMePhe(4) unnatural amino acids. Consistent with earlier results, it was found that the analogues carrying Dmt(1) and Achc(2) residues displayed the highest μ-opioid receptor affinities, depending upon the configuration of the incorporated Achc(2). Combination of such derivatives with pFPhe(4) or βMePhe(4) yielded further compounds with variable binding potencies. Combined application of Dmt(1), cis-(1S,2R)Achc(2), and pFPhe(4) (compound 16) resulted in the most potent analogue. Ligand stimulated [(35)S]GTPγS binding assays indicated that the analogues retained their agonist activities and opioid receptor specificities. NMR and molecular modeling studies of the analogues containing βMePhe(4) or pFPhe(4) confirmed the predominance of bent structures, however, it is apparent that bent structures are energetically more favored than random/extended structures for all studied compounds.

Published
2011
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143. Preservation of hepatocellular functionality in cultures of primary rat hepatocytes upon exposure to 4-Me2N-BAVAH, a hydroxamate-based HDAC-inhibitor.

Author

Henkens T, Snykers S, Vinken M, Fraczek J, Lukaszuk A, Tourwé D, Verheyen G, Van Gompel J, Vanparys P, Rogiers V, and Vanhaecke T

Subjects
Acetylation drug effects, Animals, Aryl Hydrocarbon Hydroxylases genetics, Aryl Hydrocarbon Hydroxylases metabolism, CCAAT-Enhancer-Binding Protein-alpha genetics, CCAAT-Enhancer-Binding Protein-alpha metabolism, Cells, Cultured, Cytochrome P-450 CYP3A, Gene Expression Regulation drug effects, Hepatocyte Nuclear Factor 4 genetics, Hepatocyte Nuclear Factor 4 metabolism, Hepatocytes cytology, Histones metabolism, Isoenzymes genetics, Isoenzymes metabolism, Male, Promoter Regions, Genetic drug effects, Protein Processing, Post-Translational drug effects, RNA, Messenger metabolism, Rats, Rats, Sprague-Dawley, Serum Albumin genetics, Serum Albumin metabolism, Cell Dedifferentiation drug effects, Hepatocytes drug effects, Hepatocytes metabolism, Histone Deacetylase Inhibitors pharmacology, Hydroxamic Acids pharmacology, Pentanoic Acids pharmacology
Abstract

Great efforts are being put in the development/optimization of reliable and highly predictive models for high-throughput screening of efficacy and toxicity of promising drug candidates. The use of primary hepatocyte cultures, however, is still limited by the occurrence of phenotypic alterations, including loss of xenobiotic biotransformation capacity. In the present study, the differentiation-stabilizing effect of a new histone deacetylase inhibitor 5-(4-dimethylaminobenzoyl)-aminovaleric acid hydroxamide (4-Me(2)N-BAVAH), a structural Trichostatin A (TSA)-analogue with a more favourable pharmaco-toxicological profile, was studied at a genome-wide scale by means of microarray analysis. Several genes coding for xenobiotic biotransformation enzymes were found to be positively regulated upon exposure to 4-Me(2)N-BAVAH. For CYP1A1/2B1/3A2, these observations were confirmed by qRT-PCR and immunoblot analysis. In addition, significantly higher 7-ethoxyresorufin-O-deethylase and 7-pentoxyresorufin-O-dealkylase activity levels were measured. These effects were accompanied by an increased expression of CCAAT/enhancer binding protein alpha and hepatic nuclear factor (HNF)4α, but not of HNF1α. Finally, 4-Me(2)N-BAVAH was found to induce histone H3 acetylation at the proximal promoter of the albumin, CYP1A1 and CYP2B1 genes, suggesting that chromatin remodelling is directly involved in the transcriptional regulation of these genes. In conclusion, histone deacetylase inhibitors prove to be efficient agents for better maintaining a differentiated hepatic phenotype in rat hepatocyte cultures., (Copyright © 2010 Elsevier Ltd. All rights reserved.)

Published
2011
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144. Labelling and evaluation of new stabilised neurotensin (8–13) analogues for single photon emission tomography (SPET)

Author

Chavatte, K., Terriere, D., Jeannin, L., Iterbeke, K., Briejer, M., Schuurkes, J., Mertens, J. J. R., Bruyneel, E., Tourwé, D., Leysen, J. E., and Bossuyt, A.

Abstract

Neurotensin(8–13) analogues were biologically stabilised by replacement of the peptide bond between amino acids 8 and 9 by the reduced ψ(CH2-NH) isostere. Diethylenetriaminepentaacetic acid (DTPA) analogues for In-111 labelling and 2-bromo-phenyl-acetyl analogues for radioiodination, showed receptor affinities in the nanomolar range in combination with a biological half life in human plasma up to 275 minutes. Biodistribution studies in male Wistar rats of metabolically stabilised and non-stabilised 111In-DTPA-NT(8–13) analogues showed a major clearance from the blood through the kidneys. 125I-Labelled neurotensin (8–13) analogues showed accumulation up to 2.2% of the injected dose per g tissue in the liver which might be an important disadvantage when diagnosis of tumours in the gut is aimed. Neurotensin(8–13) analogues labelled with In-111 or I-123 may act as new potential peptidergic radiopharmaceuticals for SPET diagnosis of neurotensin receptor (NTR) positive tumours. Copyright © 1999 John Wiley & Sons, Ltd.

Published
1999
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145. PK20, a new opioid-neurotensin hybrid peptide that exhibits central and peripheral antinociceptive effects.

Author

Kleczkowska P, Kosson P, Ballet S, Van den Eynde I, Tsuda Y, Tourwé D, and Lipkowski AW

Subjects
Analgesics chemistry, Analgesics, Opioid, Animals, Drug Design, Pain drug therapy, Rats, Structure-Activity Relationship, Analgesics chemical synthesis, Analgesics pharmacology, Neurotensin chemistry, Opioid Peptides chemistry
Abstract

Background: The clinical treatment of various types of pain relies upon the use of opioid analgesics. However most of them produce, in addition to the analgesic effect, several side effects such as the development of dependence and addiction as well as sedation, dysphoria, and constipation. One solution to these problems are chimeric compounds in which the opioid pharmacophore is hybridized with another type of compound to incease antinociceptive effects. Neurotensin-induced antinociception is not mediated through the opioid system. Therefore, hybridizing neurotensin with opioid elements may result in a potent synergistic antinociceptor., Results: Using the known structure-activity relationships of neurotensin we have synthesized a new chimeric opioid-neurotensin compound PK20 which is characterized by a very strong antinociceptive potency. The observation that the opioid antagonist naltrexone did not completely reverse the antinociceptive effect, indicates the partial involvement of the nonopioid component in PK20 in the produced analgesia., Conclusions: The opioid-neurotensin hybrid analogue PK20, in which opioid and neurotensin pharmacophores overlap partially, expresses high antinociceptive tail-flick effects after central as well as peripheral applications.

Published
2010
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146. Molecular assembly of multifunctional ⁹⁹(m)Tc radiopharmaceuticals using "clickable" amino acid derivatives.

Author

Mindt TL, Struthers H, Spingler B, Brans L, Tourwé D, García-Garayoa E, and Schibli R

Subjects
Alkynes chemistry, Azides chemistry, Bombesin chemistry, Catalysis, Cell Line, Tumor, Click Chemistry, Copper chemistry, Crystallography, X-Ray, Humans, Lysine chemistry, Molecular Conformation, Technetium chemistry, Tomography, Emission-Computed, Single-Photon, Amino Acids chemistry, Radiopharmaceuticals chemistry
Abstract

Synthetic strategies that enable the efficient and selective combination of different biologically active entities hold great promise for the development of multifunctional hybrid conjugates useful for biochemical and medical applications. Starting from side-chain-functionalized N(α)-propargyl lysine derivatives, conjugates containing a ⁹⁹(m)Tc-based imaging probe for SPECT and two different moieties (e.g., tumor-targeting vectors, pharmacological modifiers, affinity tags, or second imaging probes) can be assembled using the Cu(I)-catalyzed alkyne-azide cycloaddition in efficient one-pot protocols. This strategy was successfully applied to the preparation of a ⁹⁹(m)Tc-labeled conjugate comprising a tumor-targeting peptide sequence (bombesin(7-14)) and a low-molecular-weight albumin binder, a pharmacological modifier that prolongs the blood circulation time of the conjugate. Evaluation of the conjugate in vitro and in vivo provided promising results for its use as an imaging agent for the visualization of tumors positive for the gastrin-releasing peptide receptor. The methodology presented herein provides an attractive synthetic tool for the preparation of multifunctional ⁹⁹(m)Tc-based radiopharmaceuticals with significant potential for a multitude of applications.

Published
2010
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147. Synthesis and evaluation of bombesin analogues conjugated to two different triazolyl-derived chelators for (99m)Tc labeling.

Author

Brans L, García-Garayoa E, Schweinsberg C, Maes V, Struthers H, Schibli R, and Tourwé D

Subjects
Animals, Bombesin chemical synthesis, Bombesin pharmacokinetics, Catalysis, Cell Line, Tumor, Chelating Agents chemical synthesis, Chelating Agents pharmacokinetics, Copper chemistry, Humans, Isotope Labeling, Mice, Mice, Nude, Receptors, Bombesin antagonists & inhibitors, Receptors, Bombesin metabolism, Technetium chemistry, Tomography, Emission-Computed, Single-Photon, Xenograft Model Antitumor Assays, Bombesin analogs & derivatives, Chelating Agents chemistry, Triazoles chemistry
Abstract

Overexpression of the gastrin-releasing peptide receptor (GRPR) in a variety of human carcinomas has provided a means of diagnosis and treatment. Previously we reported a metabolically stable (N(α)His)Ac-βAla-βAla-[Cha(13),Nle(14)]BBS(7-14) analogue with high affinity for the GRPR. We have also shown that the biodistribution pattern of this fairly lipophilic, radiolabeled peptide can be enhanced by glycation, which is easily carried out by Cu(I)-catalyzed cycloaddition. Herein, we further elaborate this "click approach" in the synthesis of a new series of triazole-based chelating systems as alternatives to the (N(α)His)Ac chelator for labeling with the (99m)Tc(CO)(3) core. The bombesin analogues, containing these new chelating systems, were evaluated with regard to their synthesis and in vitro and in vivo properties, and were compared with their (N(α)His)Ac counterparts. The influence of the chelator on biodistribution properties was less than that of glycation, which clearly improved the tumor-to-background ratios.

Published
2010
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148. Radical stability directs electron capture and transfer dissociation of β-amino acids in peptides.

Author

Ben Hamidane H, Vorobyev A, Larregola M, Lukaszuk A, Tourwé D, Lavielle S, Karoyan P, and Tsybin YO

Subjects
Electron Transport, Electrons, Molecular Structure, Stereoisomerism, Amino Acids chemistry, Mass Spectrometry methods, Peptides chemistry
Abstract

We report on the characteristics of the radical-ion-driven dissociation of a diverse array of β-amino acids incorporated into α-peptides, as probed by tandem electron-capture and electron-transfer dissociation (ECD/ETD) mass spectrometry. The reported results demonstrate a stronger ECD/ETD dependence on the nature of the amino acid side chain for β-amino acids than for their α-form counterparts. In particular, only aromatic (e.g., β-Phe), and to a substantially lower extent, carbonyl-containing (e.g., β-Glu and β-Gln) amino acid side chains, lead to N-Cβ bond cleavage in the corresponding β-amino acids. We conclude that radical stabilization must be provided by the side chain to enable the radical-driven fragmentation from the nearby backbone carbonyl carbon to proceed. In contrast with the cleavage of backbones derived from α-amino acids, ECD of peptides composed mainly of β-amino acids reveals a shift in cleavage priority from the N-Cβ to the Cα-C bond. The incorporation of CH2 groups into the peptide backbone may thus drastically influence the backbone charge solvation preference. The characteristics of radical-driven β-amino acid dissociation described herein are of particular importance to methods development, applications in peptide sequencing, and peptide and protein modification (e.g., deamidation and isomerization) analysis in life science research., (Copyright © 2010 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2010
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149. Novel multiple opioid ligands based on 4-aminobenzazepinone (Aba), azepinoindole (Aia) and tetrahydroisoquinoline (Tic) scaffolds.

Author

Ballet S, Marczak ED, Feytens D, Salvadori S, Sasaki Y, Abell AD, Lazarus LH, Balboni G, and Tourwé D

Subjects
Animals, Benzazepines chemical synthesis, Benzazepines pharmacology, Dimerization, Drug Design, Indoles chemical synthesis, Indoles pharmacology, Protein Binding, Rats, Receptors, Opioid, delta metabolism, Receptors, Opioid, mu metabolism, Tetrahydroisoquinolines chemical synthesis, Tetrahydroisoquinolines pharmacology, Benzazepines chemistry, Indoles chemistry, Ligands, Receptors, Opioid, delta antagonists & inhibitors, Receptors, Opioid, mu antagonists & inhibitors, Tetrahydroisoquinolines chemistry
Abstract

The dimerization and trimerization of the Dmt-Tic, Dmt-Aia and Dmt-Aba pharmacophores provided multiple ligands which were evaluated in vitro for opioid receptor binding and functional activity. Whereas the Tic- and Aba multimers proved to be dual and balanced delta/mu antagonists, as determined by the functional [S(35)]GTPgammaS binding assay, the dimerization of potent Aia-based 'parent' ligands unexpectedly resulted in substantial less efficient receptor binding and non-active dimeric compounds., (Copyright 2010 Elsevier Ltd. All rights reserved.)

Published
2010
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150. New tetracyclic tetrahydro-beta-carbolines as tryptophan-derived peptidomimetics.

Author

Pulka K, Feytens D, Misicka A, and Tourwé D

Subjects
Amino Acids chemistry, Biomimetic Materials chemical synthesis, Biomimetic Materials chemistry, Carbolines chemical synthesis, Imidazolidines chemical synthesis, Models, Molecular, Peptides chemistry, Piperazines chemical synthesis, Tryptophan chemistry, Carbolines chemistry, Imidazolidines chemistry, Piperazines chemistry, Tryptophan analogs & derivatives
Abstract

The Pictet-Spengler reaction is known as a useful tool for the synthesis of constrained analogs of tryptophan. Herein, we present the further cyclization of 1,2,3,4-tetrahydro-beta-carboline-3-carboxylic acid methyl esters with 1-(1'-aminoalkyl) side chain. These transformations lead to heterocyclic structures which can find useful applications in medicinal chemistry as peptide mimetics.

Published
2010
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