Aim: Despite the serious side effects, analgesics acting on opioid receptors are still considered the best way to get antinociception. Matrix metalloproteinases, a large family of zinc-dependent proteases implicated in many pathological conditions, such as diabetes and osteoarthritis, are also involved in inflammation and pain. Methodology & results: Looking for evidence of possible interactions of opioid pathways and inflammation mediators, molecular modeling studies of a series of recently developed μ-opioid receptor benzomorphanic agonists together with biological data on pain and inflammation molecular targets, allowed us to hypothesize a possible correlation between μ-opioid receptor system and MMP-9. Conclusion: A new compound, (-)-MML1017, emerged as a possible dual-acting agent able to interact selectively and potently with the two molecular targets.
Molecular modeling and biological studies show that some μ-opioid receptor agonists might elicit analgesia acting as MMP-9 inhibitors / Ronsisvalle, S.; Spadaro, A.; Tomasello, B.; Basile, L.; Panarello, F.; Franchini, S.; Renis, M.; Guccione, S.; Crasci, L.; Panico, A. M.. - In: FUTURE MEDICINAL CHEMISTRY. - ISSN 1756-8919. - 11:11(2019), pp. 1245-1258. [10.4155/fmc-2018-0535]
Molecular modeling and biological studies show that some μ-opioid receptor agonists might elicit analgesia acting as MMP-9 inhibitors
Franchini S.Membro del Collaboration Group
;
2019
Abstract
Aim: Despite the serious side effects, analgesics acting on opioid receptors are still considered the best way to get antinociception. Matrix metalloproteinases, a large family of zinc-dependent proteases implicated in many pathological conditions, such as diabetes and osteoarthritis, are also involved in inflammation and pain. Methodology & results: Looking for evidence of possible interactions of opioid pathways and inflammation mediators, molecular modeling studies of a series of recently developed μ-opioid receptor benzomorphanic agonists together with biological data on pain and inflammation molecular targets, allowed us to hypothesize a possible correlation between μ-opioid receptor system and MMP-9. Conclusion: A new compound, (-)-MML1017, emerged as a possible dual-acting agent able to interact selectively and potently with the two molecular targets.
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