A new series of MMP2 inhibitors is described, following a fragment-based drug design approach. One fragment containing an azide group and a well known hydroxamate Zinc Binding Group in a α-sulfone, α-tetrahydropyrane scaffold, has been synthesized. Water-LOGSY, STD and competition-STD experiments indicate that this fragment binds to the active site of the enzyme. A click chemistry reaction was used to connect the azide to lipophilic alkynes selected to interact selectively with the S1' subunit of MMP2, as shown by docking and molecular dynamic experiments of the designed compounds. The most potent compounds 18 and 19 displayed an IC(50) of 1.4 and 0.3 nM against MMP2 respectively, and showed negligible activity towards MMP1 and MMP7, two metalloproteinases which have a shallow S1' subsite. Compound 18 also showed a promising selectivity profile against some antitarget metalloproteinases, such as MMP8, and considerably less activity against MMP14 (IC(50) = 65 nM), and MMP9 (IC(50) = 98 nM), other MMPs characterized by having a deep S1' pocket and, therefore, more similar to MMP2.
Extracellular matrix metalloproteinases (MMPs) are a family of zinc-dependent neutral endopeptidases involved in physiological and pathological processes, through the cleavage of extracellular matrix. MMPs are capable of degrading essentially all matrix components, which is crucial for malignant tumor growth, invasion, metastasis and angiogenesis. The vertebrates MMP family includes at least 26 enzymes (23 have been known in humans) with only MMP-1, 2, and 7 experimentally validated as targets for antitumoral drug design. However, inhibition of MMP-1 has been hypothesized to be the cause of the clinically observed musculoskeletal syndrome when broad spectrum inhibitors are used. On the other hand, MMP-9 is a tricky enzyme, since its inhibition might be useful in treating patients with early-stage cancers, but MMP-9 is an anti-target in patients with advanced disease. So, MMP-9 inhibition should also be prevented. Therefore, selective MMP-2 inhibition arises as a pursued profile for MMP binders. Among them, hydroxamates have been extensively studied as small molecule drug candidates characterized by an effective zinc-binding group plus additional side chains responsible for the selectivity. This article pays particular attention to MMP-2 selectivity on hydroxamate-type inhibitors, especially against MMP-9, and their chemical structure, SAR, general synthetic methods, and molecular modelling studies are here reviewed in order to inspire further design of new effective anticancer agents.
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