The matrix metalloproteinases appear to be elevated in tumors with metastatic potential, and may well be involved in penetration of the basement membrane and degradation of extracellular proteins including type IV collagen. An imbalance between the 72 kDa and 92 kDa type IV collagenases and the associated tissue inhibitors of these metalloproteinases (TIMPs) may therefore have a role in the invasive phenotype. Cultured tumor cells with invasive potential secrete both type IV collagenases, though in tumors there is some evidence that the 72 kDa form at least may be produced by stromal cells at the invading tumor front rather than primarily by the tumor cells themselves, while the 92 kDa form may be synthesized in macrophages near the front. These collagenases are elevated in invasive as compared with in situ tumor components, but their specific roles and prognostic significance are not yet established.
The human 72 kDa gelatinase/type IV collagenase is a metalloproteinase that is thought to play a role in metastasis and angiogenesis. The 72 kDa progelatinase can be isolated from conditioned media as a complex with the tissue inhibitor of metalloproteinase-2 (TIMP-2). To investigate 72 kDa gelatinase-TIMP-2 interactions and to compare the activity of the complex versus that of the free enzyme, we have expressed and purified human 72 kDa progelatinase and TIMP-2 as single proteins in a recombinant vaccinia virus mammalian cell expression system. The recombinant 72 kDa progelatinase was able to bind TIMP-2, and it digested gelatin and collagen type IV after activation by p-aminophenylmercuric acid (APMA). The specific activity of the recombinant free enzyme was 20-fold higher than the activity of an APMA-treated stoichiometric complex of recombinant 72 kDa progelatinase and TIMP-2. Also, TIMP-2 caused an 86% inhibition of activity when added to the activated enzyme at a 1:1 molar ratio. Activation of the free recombinant 72 kDa progelatinase yielded the 62 kDa species and two fragments of 46 and 35 kDa that cross-reacted with monoclonal antibodies to the 72 kDa proenzyme. TIMP-2 inhibited the conversion of the recombinant proenzyme to the 62 kDa species and the appearance of the 45 and 35 kDa bands. These results suggest that TIMP-2 is not only a potent inhibitor of the activated enzyme but also prevents the generation of low-molecular-mass species and full enzymic activity from the zymogen.
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