Rational design, synthesis and pharmacological characterization of novel aminopeptidase A inhibitors.

Aminopeptidase A (APA) is a membrane-bound zinc metallopeptidase involved in the production of angiotensin III, one effector peptide of the brain renin-angiotensin system, making brain APA a relevant pharmacological target for the development of novel therapeutic treatments against hypertension and heart failure. The structure-based design of new APA inhibitors is described, based on previously developed thiol-containing inhibitors and APA crystal structure. Chemical synthesis, in vitro assessment against APA activity, pharmacological and pharmacokinetic profiling were performed, ultimately leading to a potent and selective APA inhibitor.

QGC606: A Best-in-Class Orally Active Centrally Acting Aminopeptidase A Inhibitor Prodrug for Treating Heart Failure Following Myocardial Infarction.

Background: Blockade of brain renin-angiotensin system (RAS) overactivity by firibastat, the first centrally acting aminopeptidase A (APA) inhibitor prodrug, has already demonstrated its effectiveness in improving cardiac function after myocardial infarction (MI). We developed QGC606, a more potent and more selective APA inhibitor prodrug and studied its effects after long-term oral administration in mice post-MI.

Methods: Two days after MI induced by the left anterior descending artery ligation, adult male mice were randomized into 4 groups to receive oral treatment during 4 weeks with vehicle; QGC606; firibastat; or the angiotensin-I converting enzyme inhibitor ramipril, used as positive control.

NI956/QGC006, a Potent Orally Active, Brain-Penetrating Aminopeptidase A Inhibitor for Treating Hypertension.

Brain renin-angiotensin system hyperactivity has been implicated in the development and maintenance of hypertension. We have shown that aminopeptidase A is involved in the formation of brain angiotensin III, which exerts tonic stimulatory control over blood pressure in hypertensive deoxycorticosterone acetate-salt rats and spontaneously hypertensive rats. We have also shown that injection of the specific and selective aminopeptidase A inhibitor, (3S)-3-amino-4-sulfanyl-butane-1-sulfonic acid (EC33), by central route or its prodrug, RB150/firibastat, by oral route inhibited brain aminopeptidase A activity and blocked the formation of brain angiotensin III, normalizing blood pressure in hypertensive rats.

Thiophene and bioisostere derivatives as new MMP12 inhibitors.

A new MMP12 inhibitor series has been identified containing a thiophene moiety. Different approaches have been considered to replace this potential toxicophore. α-Fluorothiophene derivatives were the most interesting compounds.

Structure-based design and synthesis of novel non-zinc chelating MMP-12 inhibitors.

A new class of MMP-12 inhibitors was discovered and optimized using structure-based drug design methods. Modeling studies using a known MMP-12 crystal structure identified a new interaction mode for these new MMP-12 inhibitors. Further optimization resulted in the discovery of a compound displaying nanomolar activity against MMP-12 and which was co-crystallized with MMP-12.

Crystal structures of novel non-peptidic, non-zinc chelating inhibitors bound to MMP-12.

Human macrophage elastase (MMP-12) plays an important role in inflammatory processes and has been implicated in diseases such as emphysema and chronic obstructive pulmonary disease (COPD). It is therefore an attractive target for therapeutic agents. As part of a structure-based drug design programme to find new inhibitors of MMP-12, the crystal structures of the MMP-12 catalytic domain (residues 106-268) complexed to three different non-peptidic small molecule inhibitors have been determined.