MMP-13 selective α-sulfone hydroxamates: a survey of P1' heterocyclic amide isosteres.

Seeking compounds preferentially potent and selective for MMP-13, we reported in the preceding Letter on a series of hydroxamic acids with a flexible benzamide tail groups.(1a) Here, we replace the amide moiety with non-hydrolyzable heterocycles in an effort to improve half-life. We identify a hydroxamate tetrazole 4e that spares MMP-1 and -14, shows >400-fold selectivity versus MMP-8 and >600-fold selectivity versus MMP-2, and has a 4.8 h half-life in rats. X-ray data (1.9 Å) for tetrazole 4c is presented.

Orally bioavailable dual MMP-1/MMP-14 sparing, MMP-13 selective alpha-sulfone hydroxamates.

A series of phenyl piperidine alpha-sulfone hydroxamate derivatives has been prepared utilizing a combination of solution-phase and resin-bound library technologies to afford compounds that are potent and highly selective for MMP-13, are dual-sparing of MMP-1 and MMP-14 (MT1-MMP) and exhibit oral bioavailability in rats.

Adenovirus inhibition by peptidomimetic integrin antagonists.

Many viruses and bacterial pathogens are capable of exploiting host cell surface integrins during their replication cycles. The ligands for many integrins contain an arginine-glycine-aspartic acid (RGD) amino acid sequence that is essential for protein-protein interaction. Human adenovirus particles contain this sequence in the penton base protein, and previous studies support a role for this RGD in integrin-dependent internalization of the virus by the cell. As synthetic peptidomimetics of RGD have been shown in other experimental systems to be antagonists of the activities of specific integrins both in vitro and in vivo, we sought to determine whether these small molecules are antagonists of adenovirus infection. Such compounds inhibited viral infection of cultured cells with similar rank order potency to that determined in assays utilizing purified extracellular matrix proteins as integrin ligands. The maximal level of inhibition achieved with the peptidomimetics was comparable to that of RGD-containing peptides, whereas no significant effects were apparent with an RGE-containing peptide. An engineered adenovirus having a mutated RGD sequence in the penton base was not susceptible to the inhibition. The results obtained with these synthetic antagonists, which have varied structures and potencies, suggest that integrins interact with adenoviral RGD in a manner similar to that of other protein ligands such as vitronectin. Furthermore, the results confirm the role of RGD in the replication cycle, and suggest peptidomimetic compounds may be useful antimicrobial agents in the treatment of a variety of diseases.

R-isomers of Arg-Gly-Asp (RGD) mimics as potent alphavbeta3 inhibitors.

The integrin alpha(v)beta(3), vitronectin receptor, is expressed in a number of cell types and has been shown to mediate adhesion of osteoclasts to bone matrix, vascular smooth muscle cell migration, and angiogenesis. We recently disclosed the discovery of a tripeptide Arg-Gly-Asp (RGD) mimic, which has been shown to be a potent inhibitor of the integrin alpha(v)beta(3) and has excellent anti-angiogenic properties including its suppression of tumor growth in animal models. In other investigations involving RGD mimics, only compounds containing the S-isomers of the beta-amino acids have been shown to be potent. We were surprised to find the potencies of analogs containing enantiomerically pure S-isomers of beta-amino acids which were only marginally better than the corresponding racemic mixtures. We therefore synthesized RGD mimics containing R-isomers of beta-amino acids and found them to be relatively potent inhibitors of alpha(v)beta(3). One of the compounds was examined in tumor models in mice and has been shown to significantly reduce the rate of growth and the size of tumors.