Computational Methods for Understanding the Selectivity and Signal Transduction Mechanism of Aminomethyl Tetrahydronaphthalene to Opioid Receptors
Opioid receptors are members of the group of G protein-couple receptors, which have been proven to be effective targets for treating severe pain. The interactions between the opioid receptors and corresponding ligands and the receptor's activation by different agonists have been among the most...
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Veröffentlicht in: | Molecules (Basel, Switzerland) Switzerland), 2022-03, Vol.27 (7), p.2173 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | Opioid receptors are members of the group of G protein-couple receptors, which have been proven to be effective targets for treating severe pain. The interactions between the opioid receptors and corresponding ligands and the receptor's activation by different agonists have been among the most important fields in opioid research. In this study, with compound
, an active metabolite of tramadol, as the clue compound, several aminomethyl tetrahydronaphthalenes were designed, synthesized and assayed upon opioid receptors. With the resultant compounds
(
i = 141.2 nM for the κ opioid receptor),
(
i = 4.64 nM for the δ opioid receptor),
(
i = 8.65 nM for the δ opioid receptor) and
(
i = 228.45 nM for the δ opioid receptor) as probe molecules, the structural determinants responsible for the subtype selectivity and activation mechanisms were further investigated by molecular modeling and molecular dynamics simulations. It was shown that Y
was a key residue in determining the selectivity of the three opioid receptors, and W
was essential for the selectivity of the δ opioid receptor. A detailed stepwise discovered agonist-induced signal transduction mechanism of three opioid receptors by aminomethyl tetrahydronaphthalene compounds was proposed: the 3-7 lock between TM3 and TM7, the DRG lock between TM3 and TM6 and rearrangement of I
, P
and F
, which resulted in the cooperative movement in 7 TMs. Then, the structural relaxation left room for the binding of the G protein at the intracellular site, and finally the opioid receptors were activated. |
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ISSN: | 1420-3049 1420-3049 |
DOI: | 10.3390/molecules27072173 |