Abstract
The plasminogen‐activating (PA) and matrix metalloproteinase (MMP) enzyme systems are implicated in proteolytic turnover of the extracellular matrix (ECM) associated with biologic processes including wound healing, inflammation and angiogenesis. Aberrant expression of components of the PA and MMP enzyme systems occurs in the pathogenesis of metastatic cancer. Oxamflatin (Ox), a novel hydroxamic acid derivative, inhibits u‐PA mRNA expression and proteolytic activity while simultaneously upregulating the expression of the natural inhibitor of u‐PA, plasminogen activator inhibitor type 2 (PAI‐2) in metastatic cancer cells. We have characterized the effects of Ox and a novel derivative, Metacept‐1 (MCT‐1), on PA and MMP‐mediated proteolysis and invasion in several metastatic tumor lines. Both compounds are able to inhibit u‐PA‐, MMP‐2‐ and MMP‐9‐mediated gene expression at low micromolar concentrations as well as u‐PA‐ and MMP‐mediated proteolysis as assessed by zymography, with MCT‐1 being the more effective of the 2 agents in some assays. Cellular invasion assays correlate with gene expression and zymography experiments identifying both Ox and MCT‐1 as able to inhibit invasion of metastatic cancer cell lines through matrigel at nanomolar concentrations, with MCT‐1 more effective than Ox in 2 of the 3 cancer cell lines assessed. © 2004 Wiley‐Liss, Inc.