116111-79-6Relevant articles and documents
New orally active dual enkephalinase inhibitors (DENKIs) for central and peripheral pain treatment
Poras, Hervé,Bonnard, Elisabeth,Dangé, Emilie,Fournié-Zaluski, Marie-Claude,Roques, Bernard P.
supporting information, p. 5748 - 5763 (2014/08/05)
Protecting enkephalins, endogenous opioid peptides released in response to nociceptive stimuli, is an innovative approach for acute and neuropathic pain alleviation. This is achieved by inhibition of their enzymatic degradation by two membrane-bound Zn-metallopeptidases, neprilysin (NEP, EC 3.4.24.11) and aminopeptidase N (APN, EC 3.4.11.2). Selective and efficient inhibitors of both enzymes, designated enkephalinases, have been designed that markedly increase extracellular concentrations and half-lives of enkephalins, inducing potent antinociceptive effects. Several chemical families of Dual ENKephalinase Inhibitors (DENKIs) have previously been developed but devoid of oral activity. We report here the design and synthesis of new pro-drugs, derived from co-drugs combining a NEP and an APN inhibitor through a disulfide bond with side chains improving oral bioavailability. Their pharmacological properties were assessed in various animal models of pain targeting central and/or peripheral opioid systems. Considering its efficacy in acute and neuropathic pain, one of these new DENKIs, 19-IIIa, was selected for clinical development.
PROCESS FOR THE ASYMMETRIC SYNTHESIS OF S-ACYL DERIVATIVES OF 2-MERCAPTOMETHYL -3- PHENYL PROPANOIC ACID, APPLICATION TO THE SYNTHESIS OF N-(MERCAPTOACYL) AMINO ACID DERIVATIVES
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, (2008/06/13)
Process for the asymmetric synthesis of S-acyl derivatives of 2-mercaptomethyl-3-phenylpropanoic acid of formula (I): characterized in that it comprises the steps consisting in:a) preparing the diol (VI) by reduction of a malonic ester (V) in the presence of a hydride; b) preparing the monoacetates (VII R) or (VII S) respectively; c) subjecting these monoacetates to an oxidation in order to form the acids (IX S) or (IX R);d) saponifying the compounds (IX S) or (IX R) in order to form the hydroxy acids (X S) or (X R);e) thioacylating the hydroxy acids (X S) or (X R) with a mercapto acid R. sub.1 SH (XI), according to a Mitsunobu-type reaction, in order to lead to the desired acids (I R) (I S) respectively and application to the synthesis of N-(mercaptoacyl)amino acid derivatives (II). STR1
A novel class of enkephalinase inhibitors containing a C-terminal sulfo group
Mimura,Nakamura,Nishino,Sawayama,Komiya,Deguchi,Kita,Nakamura,Matsumoto
, p. 602 - 608 (2007/10/02)
A new series of sulfonic acids were synthesized and tested for their enkephalinase inhibitory activity. Among them, the most potent was N-(2- benzyl-3-mercaptopropionyl)metanilic acid 10i with an IC50 value of 0.27 nM. Several other analogues (10a,b,j,n,o,gg,hh) showed the inhibitory activity comparable to or greater than thiorphan (IC50 = 2.6 nM), a C- terminal carboxyl-containing inhibitor of enkephalinase. Thus compounds containing a C-terminal sulfo group, instead of the C-terminal carboxyl group, were found to show a remarkably high level of inhibition of enkephalinase. The analgesic activity of 10b, (S)-10b, and (R)-10b was also evaluated by the phenylbenzoquinone writhing test.
