Michael George Natchus

The Next Generation of MMP Inhibitors: Design and Synthesis

ABSTRACT: Since their inception during the eighties, MMP inhibitors (MMPIs) have gone through several cycles of metamorphosis. The design of early MMPIs was based on the cleavage site of peptide substrates. The second generation contained a substituted succinate scaffold (e.g., marimastat) coupled to a modified amino acid residue. The lower molecular weight analogs with multiple substitution possibilities produced a series of MMP inhibitors with varying degrees of selectivity for various MMPs. The introduction of sulfonamides in the midnineties added a new dimension to this field. The simplicity of synthesis coupled with high potency (e.g., CGS‐27023A, AG‐3340) produced a number of clinical candidates. This review highlights some of the key features that contributed to the discovery of this novel series of MMP inhibitors.

Heterocycle-based MMP inhibitors with P2' substituents.

Potent and selective inhibition of matrix metalloproteinases was demonstrated for a series of sulfonamide-based hydroxamic acids. The design of the heterocyclic sulfonamides incorporates a six- or seven-member central ring with a P2 substituent that can be modified. Binding interactions of this substituent at the S2 site are believed to contribute to high inhibitory potency against stromelysin, collagenase-3 and gelatinases A and B, and to provide selectivity against collagenase-1 and matrilysin. An X-ray structure of a stromelysin inhibitor complex was obtained to provide insights into the SAR and selectivity trends observed for the series.

Design and synthesis of conformationally-constrained MMP inhibitors

A novel series of conformationally constrained matrix metalloprotease inhibitors was identified. The potencies observed for these inhibitors were highly dependent upon the substitution pattern on the caprolactam ring as well as the succinate moiety.

Solid-phase synthesis of functionalized 1,2,3-triazoles

Functionalized 1,2,3-triazoles are prepared by 2+3 cycloaddition of resin bound α-azido esters with substituted alkynes. The reaction is regioselective when the electron-deficient alkyne methyl propiolate is used.

The development of new carboxylic acid-based MMP inhibitors derived from a cyclohexylglycine scaffold.

A series of carboxylic acids was prepared based on cyclohexylglycine scaffolds and tested for potency as matrix metalloproteinase (MMP) inhibitors. Detailed SAR for the series is reported for five enzymes within the MMP family, and a number of inhibitors such as compound 18 display low nanomolar potency for MMP-2 and MMP-13, while selectively sparing MMP-1 and MMP-7.

Chemoenzymatic synthesis of functionalized cyclohexylglycines and α-methylcyclohexylglycines via Kazmaier–Claisen rearrangement

The synthesis of homochiral functionalized cyclohexylglycines and alpha-methylcyclohexylglycines via chelated Kazmaier-Claisen rearrangement is described. These were shown to be potent scaffolds for the development of MMP inhibitors.

Oxazolidinone to succinamide: a novel rearrangement reaction

During the course of an investigative work with a monosubstituted succinic acid half-ester tethered to a chiral oxazolidinone, an unexpected disubstituted succinimide was obtained with a high degree of stereoselectivity as the major product. Subsequent investigative work confirmed the structure and further defined the scope of this rearrangement reaction.