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Article Dans Une Revue Peptides Année : 2015

Blood–brain transfer and antinociception of linear and cyclic N-methyl-guanidine and thiourea-enkephalins

Résumé

Enkephalins are active in regulation of nociception in the body and are key in development of new synthetic peptide analogs that target centrally located opioid receptors. In this study, we investigated the in vivo blood-brain barrier (BBB) penetration behavior and antinociceptive activity of two cyclic enkephalin analogs with a thiourea (CycS) or a N-methyl-guanidine bridge (CycNMe), and their linear counterparts (LinS and LinNMe) in mice, as well as their in vitro metabolic stability. (125)I-LinS had the highest blood-brain clearance (K1=3.46μL/gmin), followed by (125)I-LinNMe, (125)I-CycNMe, and (125)I-CycS (K1=1.64, 0.31, and 0.11μL/gmin, respectively). Also, these peptides had a high metabolic stability (t1/2>1h) in mouse serum and brain homogenate, and half-inhibition constant (Ki) values in the nanomolar range with predominantly μ-opioid receptor selectivity. The positively charged NMe-enkephalins showed a higher antinociceptive activity (LinNMe: 298% and CycNMe: 205%), expressed as molar-dose normalized area under the curve (AUC) relative to morphine, than the neutral S-enkephalins (CycS: 122% and LinS: 130%).
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hal-03564185 , version 1 (10-02-2022)

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Mathieu Verbeken, Evelien Wynendaele, Elodie Mauchauffée, Nathalie Bracke, Sofie Stalmans, et al.. Blood–brain transfer and antinociception of linear and cyclic N-methyl-guanidine and thiourea-enkephalins. Peptides, 2015, 63, pp.10-21. ⟨10.1016/j.peptides.2014.10.010⟩. ⟨hal-03564185⟩
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