A Blocking Group Scan Using a Spherical Organometallic Complex Identifies an Unprecedented Binding Mode with Potent Activity In Vitro and In Vivo for the Opioid Peptide Dermorphin

Strack, Martin; Bedini, Andrea; Yip, King Tuo; Lombardi, Sara; Siegmund, Daniel; Stoll, Raphael; Spampinato, Santi; Metzler‐Nolte, Nils

doi:10.1002/chem.201602432

Cited by 9 publications

(1 citation statement)

References 53 publications

(19 reference statements)

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“…The available crystal structures of the MOR together with efficient computational methods (i.e., molecular docking and molecular dynamics simulations) provide essential insights into binding modes of ligands to the receptor, with the gained knowledge being successfully translated into the discovery of novel bioactive molecules [ 22 , 26 , 27 ]. Most of molecular modeling reports on the active and inactive structures of the MOR targeted small molecules as ligands, with only few studies employing peptides, mostly DAMGO, as the prototypical MOR selective synthetic analogue of the natural peptides enkephalin [ 25 , 28 , 29 ], endomorphin-2, and dermorphin, as endogenous opioid ligands for the MOR [ 30 , 31 ].…”

Section: Introductionmentioning

confidence: 99%

Mechanistic Understanding of Peptide Analogues, DALDA, [Dmt1]DALDA, and KGOP01, Binding to the Mu Opioid Receptor

et al. 2020

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The mu opioid receptor (MOR) is the primary target for analgesia of endogenous opioid peptides, alkaloids, synthetic small molecules with diverse scaffolds, and peptidomimetics. Peptide-based opioids are viewed as potential analgesics with reduced side effects and have received constant scientific interest over the years. This study focuses on three potent peptide and peptidomimetic MOR agonists, DALDA, [Dmt1]DALDA, and KGOP01, and the prototypical peptide MOR agonist DAMGO. We present the first molecular modeling study and structure–activity relationships aided by in vitro assays and molecular docking of the opioid peptide analogues, in order to gain insight into their mode of binding to the MOR. In vitro binding and functional assays revealed the same rank order with KGOP01 > [Dmt1]DALDA > DAMGO > DALDA for both binding and MOR activation. Using molecular docking at the MOR and three-dimensional interaction pattern analysis, we have rationalized the experimental outcomes and highlighted key amino acid residues responsible for agonist binding to the MOR. The Dmt (2′,6′-dimethyl-L-Tyr) moiety of [Dmt1]DALDA and KGOP01 was found to represent the driving force for their high potency and agonist activity at the MOR. These findings contribute to a deeper understanding of MOR function and flexible peptide ligand–MOR interactions, that are of significant relevance for the future design of opioid peptide-based analgesics.

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Section: Introductionmentioning

confidence: 99%

Mechanistic Understanding of Peptide Analogues, DALDA, [Dmt1]DALDA, and KGOP01, Binding to the Mu Opioid Receptor

et al. 2020

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Luminescent Bimetallic Ir^III/Au^I Peptide Bioconjugates as Potential Theranostic Agents

Luengo

Marzo

Reback

et al. 2020

Chemistry A European J

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Diverse iridium peptide bioconjugates and the corresponding iridium/gold bimetallic complexes have been synthesized starting from a cyclometallated carboxylic acid substituted IrIII complex [Ir(ppy)2(Phen‐5‐COO)] by solid phase peptide synthesis (SPPS). The selected peptide sequences were an enkephalin derivative Tyr‐Gly‐Gly‐Phe‐Leu together with the propargyl‐substituted species Tyr‐Gly‐Pgl‐Phe‐Leu to allow gold coordination (Pgl: propyrgyl‐glycine, HC≡C‐Gly), and a specific short peptide, Ala‐Cys‐Ala‐Phen, containing a cysteine residue. Introduction of the gold center has been achieved via a click reaction with the alkynyl group leading to an organometallic Au−C(triazole) species, or by direct coordination to the sulfur atom of the cysteine. The photophysical properties of these species revealed predominantly an emission originating from the Ir complex, using mixed metal‐to‐ligand and ligand‐to‐ligand charge transfer excited states of triplet multiplicity. The formation of the peptide bioconjugates caused a systematic redshift of the emission profiles. Lysosomal accumulation was observed for all the complexes, in contrast to the expected mitochondrial accumulation triggered by the gold complexes. Only the cysteine‐containing Ir/Au bioconjugate displayed cytotoxic activity. The absence of activity may be related to the lack of endosomal/lysosomal escape for the cationic peptide conjugates. Interestingly, the different coordination sphere of the gold atom may play a crucial role, as the Au−S(cysteine) bond may be more readily cleaved in a biological environment than the Au−C(triazole) bond, and thus the Au fragment could be released from or trapped in the lysosomes, respectively. This work represents a starting point in the development of bimetallic peptide bioconjugates as theranostics and in the knowledge of factors that contribute to anti‐proliferative activity.

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Urotensin core mimics that modulate the biological activity of urotensin-II related peptide but not urotensin-II

Strack

Billard

Chatenet

et al. 2017

Bioorganic & Medicinal Chemistry Letters

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A Blocking Group Scan Using a Spherical Organometallic Complex Identifies an Unprecedented Binding Mode with Potent Activity In Vitro and In Vivo for the Opioid Peptide Dermorphin

Cited by 9 publications

References 53 publications

Mechanistic Understanding of Peptide Analogues, DALDA, [Dmt1]DALDA, and KGOP01, Binding to the Mu Opioid Receptor

Mechanistic Understanding of Peptide Analogues, DALDA, [Dmt1]DALDA, and KGOP01, Binding to the Mu Opioid Receptor

Luminescent Bimetallic Ir^III/Au^I Peptide Bioconjugates as Potential Theranostic Agents

Urotensin core mimics that modulate the biological activity of urotensin-II related peptide but not urotensin-II

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A Blocking Group Scan Using a Spherical Organometallic Complex Identifies an Unprecedented Binding Mode with Potent Activity In Vitro and In Vivo for the Opioid Peptide Dermorphin

Cited by 9 publications

References 53 publications

Mechanistic Understanding of Peptide Analogues, DALDA, [Dmt1]DALDA, and KGOP01, Binding to the Mu Opioid Receptor

Mechanistic Understanding of Peptide Analogues, DALDA, [Dmt1]DALDA, and KGOP01, Binding to the Mu Opioid Receptor

Luminescent Bimetallic IrIII/AuI Peptide Bioconjugates as Potential Theranostic Agents

Urotensin core mimics that modulate the biological activity of urotensin-II related peptide but not urotensin-II

Contact Info

Product

Resources

About

Luminescent Bimetallic Ir^III/Au^I Peptide Bioconjugates as Potential Theranostic Agents