Synergistic combinations of the dual enkephalinase inhibitor PL265 given orally with various analgesic compounds acting on different targets, in a murine model of cancer-induced bone pain.

Background: The first line pharmacological treatment of cancer pain is morphine and surrogates but a significant pain relief and a reduction of the side-effects of these compounds makes it necessary to combine them with other drugs acting on different targets. The aim of this study was to measure the antinociceptive effect on cancer-induced bone pain resulting from the association of the endogenous opioids enkephalin and non-opioid analgesic drugs. For this purpose, PL265 a new orally active single dual inhibitor of the two degrading enkephalins enzymes, neprilysin (NEP) and aminopeptidase N (APN) was used.

Substituted α-mercaptoketones, new types of specific neprilysin inhibitors.

New neprilysin inhibitors containing an α-mercaptoketone HSC(RR)CO group, as zinc ligand were designed. Two parameters were explored for potency optimization: the size of the inhibitor which could interact with the S, S' or S' domain of the enzyme and the nature of the substituents R, R of the mercaptoketone group. Introduction of a cyclohexyl chain in R, R position and a (3-thiophen)benzyl group in position R (compound 12n) yielded to the most potent inhibitor of this series with a Ki value of 2±0.

Preventive and alleviative effects of the dual enkephalinase inhibitor (Denki) PL265 in a murine model of neuropathic pain.

Neuropathic pain remains difficult to treat due to the involvement of various pathophysiological mechanisms in its pathogeny. Among the different opioidergic systems the enkephalinergic one is primarily recruited via activation of delta opioid receptor (DOP) in chronic pain and of mu opioid receptor (MOP) in acute pain. To investigate the role of their endogenous ligands Met and Leu-enkephalin in neuropathic pain control, a dual inhibitor of their degrading enzymes, PL265, which acts restrictively at the level of peripheral nociceptors, was administered per os to assess its efficacy in pain prevention and alleviation using a partial sciatic nerve ligation model (PSNL) in mice.

Modulation of disulfide dual ENKephalinase inhibitors (DENKIs) activity by a transient N-protection for pain alleviation by oral route.

The endogenous opioid system, essentially constituted by two opioid receptors which are stimulated by the natural internal effectors enkephalins (Met-enkephalin and Leu-enkephalin), is present at the different sites (peripheral, spinal, central) of the control of pain. We have demonstrated that the protection of the enkephalin inactivation by the two metallopeptidases (neprilysin and neutral aminopeptidase) increases their local concentration selectively induced by pain stimuli triggering analgesic responses. With the aim of increasing the orally antinociceptive responses of the previously described disulfide DENKIs ( [Formula: see text] CH(R1)CH2-S-S-CH2-C(R2R3)CONHCH(R4)COOR5), we designed new pro-drugs, in the same chemical series, with a transient protection of the free amino group by an acyloxyalkyl carbamate, giving rise to ((CH3)2CHCO2CH(CH3)OCONHCH(R1)CH2-S-S-CH2-C(R2R3)CONHCH(R4)COOR5) pro-drugs 2a-2g.

Long-lasting oral analgesic effects of N-protected aminophosphinic dual ENKephalinase inhibitors (DENKIs) in peripherally controlled pain.

The peripheral endogenous opioid system is critically involved in neuropathic and inflammatory pain generation as suggested by the modulation of opioid receptors expression and enkephalins (ENKs) release observed in these painful conditions. Accordingly, an innovative approach in the treatment of these nocifensive events is to increase and maintain high local concentrations of extracellular pain-evoked ENKs, by preventing their physiological enzymatic inactivation by two Zn metallopeptidases, the neutral endopeptidase (NEP, neprilysin, EC 3.4.