Abstract

Proteolytic enzymes have been implicated in invasive processes of the metastatic cascade. Our long term objective is to determine the role(s) of the cysteine proteinase cathepsin B and endogenous cysteine proteinase inhibitors (CPI) in tumor cell metastasis. We have purified two forms of cathepsin B (35 and 25 kDa) from human tumors and shown their immunological relatedness to human liver cathepsin B (25 kDa) by Western blots. We have shown that tumor cathepsin B's have enhanced activity against the extracellular matrix substrate laminin at a physiologically relevant pH (6.5). The hypothesis that cathepsin B participates in tumor cell extravasation during the metastatic cascade will be tested in vitro in a series of assays which encompass the invasive process: 1) tumor cell adhesion the basement membrane, 2) tumor cell chemotaxis during extravasation, 3) tumor cell degradation of the basement membrane or isolated components and/or 4) tumor cell invasion through the amnion basement membrane. Two classes of inhibitors of cathepsin B will be tested in these assays: endogenous low Mr protein CPI and a series of synthetic inhibitors screened for selectivity against the purified tumor cathepsin B's. CPI will be purified to homogeneity from human liver and tumors. Studies to date indicate that tumor cell chemotaxis, adhesion and invasion are all blocked by CPI as well as by specific synthetic inhibitors. In murine tumors (melanoma and hepatoma) and in human breast tumors, the subcellular distribution of cathepsin distribution of cathepsin B is bimodal with as much as 37% of cathepsin B activity cosedimenting with plasma membrane fractions in the highly metastatic B16 amelanotic melanoma (B16a) rather that with the lysosmal fraction as in normal cells. The 35 kDa tumor cathepsin B may well be a precursor of mature lysosmal cathepsin B as a 35 kDa precursor predicted from the recently isolated cDNA clones. One hypothesis which will be tested is that the processing of cathepsin B in tumors may be defective. The proposed studies should further our understanding of the role of cathepsin B in a proteolytic cascade resulting in metastasis. It might be possible to interrupt this cascade by designing therapeutic interventions to inhibit cathepsin B and/or to correct the proposed defect in processing, i.e., direct tumor cathepsin B to lysosmes.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA036481-06
Application #
3174066
Study Section
Pathobiochemistry Study Section (PBC)
Project Start
1984-02-01
Project End
1992-06-30
Budget Start
1989-07-01
Budget End
1990-06-30
Support Year
6
Fiscal Year
1989
Total Cost
Indirect Cost

  Institution

Name
Wayne State University
Department
Type
Schools of Medicine
DUNS #
City
Detroit
State
MI
Country
United States
Zip Code
48202

  Publications

Calkins, Catharine C; Dosescu, Julie; Day, Nancy A et al. (2007) Functional expression of recombinant human stefin A in mammalian and bacterial cells. Protein Expr Purif 52:463-71
Victor, Bernadette C; Sloane, Bonnie F (2007) Cysteine cathepsin non-inhibitory binding partners: modulating intracellular trafficking and function. Biol Chem 388:1131-40
Reisenauer, Anita; Eickelberg, Oliver; Wille, Aline et al. (2007) Increased carcinogenic potential of myeloid tumor cells induced by aberrant TGF-beta1-signaling and upregulation of cathepsin B. Biol Chem 388:639-50
Sloane, Bonnie F; Sameni, Mansoureh; Podgorski, Izabela et al. (2006) Functional imaging of tumor proteolysis. Annu Rev Pharmacol Toxicol 46:301-15
Song, Jin; Jie, Chunfa; Polk, Paula et al. (2006) The candidate tumor suppressor CST6 alters the gene expression profile of human breast carcinoma cells: down-regulation of the potent mitogenic, motogenic, and angiogenic factor autotaxin. Biochem Biophys Res Commun 340:175-82
Demoz, Marina; Castino, Roberta; Follo, Carlo et al. (2006) High yield synthesis and characterization of phosphorylated recombinant human procathepsin D expressed in mammalian cells. Protein Expr Purif 45:157-67
Jane, Derek T; Morvay, Les; Dasilva, Luis et al. (2006) Cathepsin B localizes to plasma membrane caveolae of differentiating myoblasts and is secreted in an active form at physiological pH. Biol Chem 387:223-34
Cavallo-Medved, Dora; Mai, Jianxin; Dosescu, Julie et al. (2005) Caveolin-1 mediates the expression and localization of cathepsin B, pro-urokinase plasminogen activator and their cell-surface receptors in human colorectal carcinoma cells. J Cell Sci 118:1493-503
Liu, Xu-Wen; Taube, Marcus E; Jung, Ki-Kyung et al. (2005) Tissue inhibitor of metalloproteinase-1 protects human breast epithelial cells from extrinsic cell death: a potential oncogenic activity of tissue inhibitor of metalloproteinase-1. Cancer Res 65:898-906
Sloane, Bonnie F; Yan, Shiqing; Podgorski, Izabela et al. (2005) Cathepsin B and tumor proteolysis: contribution of the tumor microenvironment. Semin Cancer Biol 15:149-57

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