A monoclonal antibody interferes with TIMP-2 binding and incapacitates the MMP-2-activating function of multifunctional, pro-tumorigenic MMP-14/MT1-MMP.

Matrix metalloproteinases (MMPs) and, especially membrane type 1 (MT1)-MMP/MMP-14, are promising drug targets in malignancies. In contrast with multiple small-molecule and protein pan-inhibitors of MT1-MMP cleavage activity, the murine 9E8 monoclonal antibody targets the MMP-2-activating function of cellular MT1-MMP alone, rather than the general proteolytic activity and the pro-migratory function of MT1-MMP. Furthermore, the antibody does not interact in any detectable manner with other members of the membrane type (MT)-MMP family. The mechanism of this selectivity remained unknown. Using mutagenesis, binding and activity assays, and modeling in silico, we have demonstrated that the 9E8 antibody recognizes the MT-loop structure, an eight residue insertion that is specific for MT-MMPs and that is distant from the MT1-MMP active site. The binding of the 9E8 antibody to the MT-loop, however, prevents tissue inhibitor of metalloproteinases-2 (TIMP-2) association with MT1-MMP. As a result, the 9E8 antibody incapacitates the TIMP-2-dependent MMP-2-activating function alone rather than the general enzymatic activity of human MT1-MMP. The specific function of the 9E8 antibody we determined directly supports an essential, albeit paradoxical, role of the protein inhibitor (TIMP-2) in MMP-2 activation via a unique membrane-tethered mechanism. In this mechanism, the formation of a tri-molecular MT1-MMPTIMP-2MMP-2 complex is required for both the capture of the soluble MMP-2 proenzyme by cells and then its well-controlled conversion into the mature MMP-2 enzyme. In sum, understanding of the structural requirements for the 9E8 antibody specificity may pave the way for the focused design of the inhibitory antibodies against other individual MMPs.

Two new site-specific endonucleases from Staphylococcus species strain D5.

Staphylococcus species strain D5 containing two site-specific endonucleases, SspD5 I and SspD5 II, was found during screening of a bacterial strain collection from soil. These endonucleases were purified to functional homogeneity by sequential chromatography. Site-specific endonuclease SspD5 I recognizes sequence 5;-GGTGA(8N/8N) downward arrow-3; on DNA. Unlike Hph I, it cleaves DNA at a distance of 8 nucleotides from the recognized sequence on both chains producing blunt-end DNA fragments, while endonuclease Hph I cleaves DNA forming mononucleotide 3;-OH protruding ends. Thus, endonuclease SspD5 I is a new type II site-specific endonuclease and a neoschizomer of endonuclease Hph I. The advantage of this new endonuclease is that the blunt-end DNA products of this enzyme can be inserted without additional treatment into vector DNAs cleaved with endonucleases yielding DNA blunt-ends. Endonuclease SspD5 II recognizes site 5'-ATGCA T-3' and thus is an isoschizomer of endonuclease Nsi I. The molecular mass of SspD5 I is about 35 kD and that of SspD5 II is 40 kD. The enzymes exhibit maximal activity at 37 degrees C. The optimal buffer for the reaction is HRB (10 mM Tris-HCl, pH 7.5, 10 mM MgCl2, 100 mM NaCl, and 1 mM dithiothreitol).

A site-specific endonuclease from the thermophilic strain Bacillus species F4.

A strain producing the site-specific endonuclease BspF4I was found during screening of thermophilic bacteria isolated from soil. The restriction endonuclease, free from contaminant nonspecific nucleases, was purified using three steps of column chromatography--on hydroxyapatite, blue agarose, and DEAE-Trisacryl. The enzyme is stable on storage and exhibits maximal activity at 48-56 degrees C in the presence of albumin in buffer containing 10 mM Tris-HCl (pH 7.5) and 10 mM MgCl2. BspF4I recognizes the sequence 5;-GGNCC-3; on DNA and is an isomer and not an isoschizomer of the endonuclease Sau96I. Unlike the prototype, BspF4I does not cleave the site in a defined way. A strand with purine in the center of the sequence is cleaved after the first G, as in the case of the prototype, while the strand with pyrimidine is cleaved either before or after the first G.

Site-specific endonuclease from thermophilic Bacillus species MK strain is isoschizomer of SalI.

Screening of thermophilic bacterial strains revealed a strain containing site-specific endonuclease BspMKI. This endonuclease was purified to functional homogeneity during sequential chromatographic steps. The enzyme recognizes sequence 5'-G decreases TCGAC-3' on DNA molecule and is isoschizomer of endonuclease SalI. The molecular mass of BspMKI is about 45 kD. The enzyme is maximally active at 55 degrees C and MRB (50 mM NaCl, 10 mM Tris-HCl, pH 7.4, 10 mM MgCl2, 1 mM dithiothreitol) is the optimal buffer. The enzyme is highly stable and retains its activity during two weeks at room temperature.

Three site-specific endonucleases from thermophilic strain Bacillus species LA are isoschizomers of HhaI, AsuII, and HindIII.

Screening of thermophilic bacterial strains revealed a strain containing three site-specific endonucleases: BspLAI, BspLAII, and BspLAIII. These endonucleases were purified to functional purity by sequential chromatography. Recognition sites, DNA cleavage sites, and some properties of the endonucleases were determined. BspLAI recognizes the sequence 5-GCG/C-3 on the DNA molecule and is an isoschizomer of endonuclease HhaI. BspLAII recognizes the sequence 5-TT/CGAA-3 and is an isoschizomer of AsuII. BspLAIII recognizes site 5-A/AGCTT-3 and is an isoschizomer of endonuclease HindIII. All the three enzymes exhibit maximal activity at 55 degrees C. The optimal buffer is MRB, pH 7.4. They retain activity on storage for 3 weeks at room temperature and thus are highly stable.