Copper complexes of non-steroidal antiinflammatory agents: Analgesic activity and possible opioid receptor activation

Abstract

Cu(II)₂(acetylsalicylate)₄, Cu(II)(anthranilate)₂, Cu(II)₂[1-(p-chlorobenzoyl)-5-methoxy-2-methyl-3-indolylacetate]₄, Cu(II)(3,5-diisopropylsalicylate)₂, Cu(II)(salicylate)₂, Cu(II)₂{2-[3-(trifluoromethyl)-phenyl]aminonicotinate}₄, Cu(II)(l-alaninate)₂, Cu(II)(l-cystinate)₂, and Cu(II)(glycinate)₂ were generally found to be more effective analgesics than their parent ligands, Cu(II)(chloride)₂, and Cu(II)₂(acetate)₄ in the Writhing Mouse and Adjuvant Arthritic Rat pain models following subcutaneous and oral administration. Comparison of the time course of analgesia for salicylic acid and Cu(II)(salicylate)₂ in the adjuvant arthritis pain model revealed that this complex had more sustained activity in addition to being more potent than salicylic acid. Cu(II)₂(indomethacin)₄ was also found to be as effective as morphine in both pain models. These data and pertinent literature are discussed in support of the hypothesis that copper complexes activate copper-dependent opioid receptors.