Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0178874 (tumor progression)
 40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The increased expression of proteolytic systems is one of the characteristics of transformed and malignant cells and their evaluations in whole tumor homogenates were considered as possible diagnostic and/or prognostic factors. Abnormal intracellular distribution, increased activities and secretion of cysteine proteinases (CPs) cathepsin B (Cat B) and L (Cat L), were associated with tumor progression. In the present study of matched pairs of breast carcinoma and normal breast tissue, the activities of Cat B and Cat L in breast carcinoma homogenates were found to be 20 and 50 fold higher, respectively, than in normal tissues. In contrast, a decrease in total inhibitory activity of cysteine proteinase inhibitors (CPIs) was observed but an average ratio between tumor and normal tissues was only 0.75. One of the CPIs, stefin A, was also determined immunochemically. The activities of CPs and CPIs were compared to the increased levels of cathepsin D (Cat D) activities in individual patients, but no statistically significant correlations were found. We correlated CPs and CPIs with morphological and receptor data as well as the axillary lymph node metastases. There was no statistical correlation of CP and CPIs with the number of lymph node metastases. However, highly elevated levels of Cat B and Cat L and lowered CPI activities in tumor cytosols were often associated with poorly differentiated carcinomas and those with negative ER and PR values. We conclude that cysteine-dependent proteolysis may play an important role in breast tumors.
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PMID:Cystatins and cathepsins in breast carcinoma. 151 89

Several lysosomal proteinases including the cysteine proteinase cathepsin B have been implicated in malignant progression of tumors. Many investigators have demonstrated correlations between increased activity of cathepsin B and increased metastatic capability of animal tumors or malignancy of human tumors. Such increases in cathepsin B activity in malignant tumors may reflect alterations in synthesis, in activation and processing, and/or in intracellular trafficking and delivery as well as in the endogenous inhibitors of cathepsin B. Increases in mRNA transcripts for cathepsin B have been observed in both murine and human tumors and multiple transcripts for cathepsin B have been identified, but an association of multiple transcripts with malignancy has not been confirmed. Cathepsin B precursors found in human malignant ascites fluid do not possess mannose-rich carbohydrates suggesting that a defect in the post translational processing of carbohydrate moieties on tumor cathepsin B may be responsible for the release of cathepsin B observed in many tumor systems. However, the intracellular trafficking of cathepsin B responsible for its association with plasma membrane/endosomal systems and for its release will require further study as both latent, precursor forms of cathepsin B and native forms of cathepsin B are involved. We speculate that malignant tumor cells adherent to basement membrane are capable of forming a digestive microenvironment in which lysosomal proteinases such as cathepsin B function optimally, a microenvironment similar to that formed between adherent osteoclasts and bone. One of the endogenous cysteine proteinase inhibitors, stefin A, also is affected by malignancy. Reduced expression (mRNA and protein) of stefin A is found as well as a reduction in its inhibitory capacity against cysteine proteinases. The data to date at both the molecular and protein levels supporting a functional role(s) for cathepsin B and its endogenous inhibitors in cancer progression are only correlative. Experimental approaches utilizing well-defined model systems in conjunction with genetic manipulation of cathepsin B and its endogenous inhibitors are needed to provide convincing evidence that cathepsin B has an important role in cancer.
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PMID:Cathepsin B and its endogenous inhibitors: the role in tumor malignancy. 209 84

The cysteine proteinase cathepsin B has been implicated in the progression of tumors from a premalignant to a malignant state. Activity of cathepsin B has been shown to be elevated in parallel with malignancy or metastatic potential of human and rodent tumors. These increases in cathepsin B activity correspond in part to increases in mRNA for cathepsin B and in part to reduced regulation by endogenous low Mr cysteine proteinase inhibitors. Most properties of tumor cathepsin B appear to be similar to those of cathepsin B from normal tissues. However, the subcellular distribution of cathepsin B is altered in tumors, resulting in association of cathepsin B with plasma membrane fractions or in release of high Mr forms of cathepsin B into the extracellular milieu. Since cathepsin B can degrade laminin, fibronectin and type IV collagen, we speculate that the presence of cathepsin B at the surface of tumor cells may contribute to the local dissolution of basement membrane observed during tumor cell extravasation. Direct evidence that cathepsin B plays a role in cancer progression awaits studies in which upregulation or downregulation of the expression of cathepsin B and its endogenous inhibitors is found to alter tumorigenesis, metastatic potential, etc.
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PMID:Cathepsin B and cystatins: evidence for a role in cancer progression. 210 90

Treatment of tumor cells that have little if any metastatic potential with certain drugs that have little or no mutagenic activity has been found to result in marked phenotypic alterations of the cells, including development of a metastatic potential. We found that polar compounds and butyric acid, which are known to alter the expressions of normally silent genes, enhanced the lung-colonizing ability of cloned low-metastatic Lewis lung carcinoma cells. This change was accompanied by increases in the activities of degradative enzymes such as glycosidases, cathepsin B, and plasminogen activator; adhesion of the cells to culture dishes, monolayers of endothelial cells, and a subendothelial matrix; and homotypic aggregation. The effects of these drugs in enhancing the lung-colonizing ability of the cells was found to be reversible, suggesting that it was due to epigenetic alterations. Other investigators have shown that treatment of nonmetastatic tumor cells with 5-azacytidine, which causes hypomethylation of DNA and activates normally silent genes, results in the emergence of a small number of clones with a heritable but unstable metastatic phenotype. These findings suggest that epigenetic mechanisms are involved in rapid cellular phenotypic diversification and tumor progression.
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PMID:Modification of the metastatic potential of tumor cells by drugs. 243 28

The differential effects on primary tumor growth and on the formation of spontaneous pulmonary metastases have been determined for a series of proteinase inhibitors. The substances included the gold compounds, aurothioglucose and aurothiomalate, D(-)penicillamine, phosphoramidon and an egg-white inhibitor of cysteine proteinase (EWI). The i.p. administration of these substances to mice bearing s.c. Lewis lung carcinoma cause varying degrees of antineoplastic effects; the most pronounced effects on metastases are caused by phosphoramidon. The inactivity of EWI on tumor progression is concomitant with an inhibition to 50% of cathepsin B in tumor homogenates. The selective antimetastatic action of phosphoramidon is in agreement with the crucial role proposed for tumor collagenases in tumor dissemination.
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PMID:Primary tumor growth and formation of spontaneous lung metastases in mice bearing Lewis carcinoma treated with proteinase inhibitors. 643 3

Cathepsin B is a lysosomal cysteine proteinase that has the ability to degrade several extracellular matrix components at both neutral and acidic pH and has been implicated in the progression of several human and rodent tumors. We have studied the expression of cathepsin B in human colorectal tissues using a monospecific polyclonal rabbit antibody raised against human liver cathepsin B. In immunoblots of normal and neoplastic colorectal tissues this antibody specifically recognized only cathepsin B. We studied 101 cases of formalin-fixed, paraffin-embedded tissue (15 normal mucosa, 17 adenomas, and 69 carcinomas). Epithelial cells of normal mucosa and adenomas were either negative or showed a weak granular reactivity located in the paranuclear and apical cytoplasm of superficial cells. Small clusters of histiocytes were also positive in the region of the superficial area of the lamina propria. In carcinomas, increased expression of cathepsin B correlated with advanced stage of the disease. Increased immunoreactivity of cathepsin B in malignant cells was associated with either a diffuse cytoplasmic staining or was polarized to the basal pole of the cells. This is in contrast to the punctate paranuclear staining pattern observed in normal colonic mucosal cells. In tumor stromal cells, increased expression of the enzyme correlated with neoplastic progression. Expression of high levels of cathepsin B in the tumor epithelial cells was associated with a significantly shorter survival of the patients. In conclusion, our results indicate that cathepsin B expression is up-regulated in human colorectal carcinomas compared with normal mucosa and adenomas and correlates with tumor progression.
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PMID:Cathepsin B expression in colorectal carcinomas correlates with tumor progression and shortened patient survival. 805 86

The process of tumor cell invasion of the basement membrane is proposed to consist of three steps: attachment, local proteolysis and migration. 12-(S)-HETE, a 12-lipoxygenase metabolite of arachidonic acid, upregulates surface expression of integrin cytoadhesins and an autocrine motility factor receptor, suggesting that this metabolite may play an important regulatory function in tumor cell invasion. In the present study, we determined whether 12-(S)-HETE affects surface expression and/or release of cathepsin B, a cysteine protease that has been implicated in focal degradation of basement membrane. Secretion and distribution of cathepsin B was evaluated in two model systems for various stages of neoplastic progression: (i) murine B16 melanoma lines of low (B16-F1) and high (B16a) lung colonization potential, and (ii) immortalized and ras-transfected MCF-10 human breast epithelial cells that differ in their invasive capacities in vitro. In the B16a cells, 12-(S)-HETE induced release of native and latent cathepsin B activity and concomitantly reduced cell-associated cathepsin B immunoreactivity. In contrast, 12-(S)-HETE did not induce the release of cathepsin B from B16-F1 cells, suggesting that there may be an enhanced response to 12-(S)-HETE in more malignant cells. This was confirmed in the MCF-10 system, in which 12-(S)-HETE was able to induce the release of cathepsin B from the ras-transfected cells, but not from the immortal cells. A simultaneous reduction in staining for cathepsin B was observed in the ras-transfected cells, but not in their immortal counterparts. The release of cathepsin B may be mediated by PKC as pretreatment of B16a cells with the selective PKC inhibitor calphostin C, but not with the PKA inhibitor H8, prevented the stimulated release of cathepsin B. In B16a cells, the release of cathepsin B was accompanied by a translocation toward the cell periphery of vesicles staining for cathepsin B, resulting in focal areas of accumulation of cathepsin B. After 12-(S)-HETE stimulation of the ras-transfected MCF-10 cells, cathepsin B was distributed homogeneously on the apical surface. Thus, 12-(S)-HETE can upregulate the surface expression on tumor cells of proteins able to mediate each of the three steps of tumor cell invasion: adhesion, degradation, and migration.
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PMID:A lipoxygenase metabolite, 12-(S)-HETE, stimulates protein kinase C-mediated release of cathepsin B from malignant cells. 752 40

Proteinases and their inhibitors may play a role in the development and progression of many cancers. Several studies suggested that lysosomal proteinases cathepsin B, L, and D may be involved in the malignant progression of some human neoplastic diseases. In this study, we determined the levels of cathepsin H in human glioma progression and the significance of cathepsin H in glioma cell invasion. Levels of cathepsin H antigen were found to be significantly higher in glioblastomas and anaplastic astrocytoma when compared with normal brain tissue and low-grade gliomas. Western blotting confirmed the presence of authentic cathepsin H with a doublet at 27 and 25 kDa in normal brain tissue and tumor samples. However, the intensity of the band increased significantly in glioblastoma samples. Cathepsin H antibody inhibited the invasion of glioblastoma cell lines through Matrigel invasion assay. These data suggest that the tumor-specific increase in antigen may be a useful independent marker of tumor progression in central nervous system neoplasms.
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PMID:Expression and the role of cathepsin H in human glioma progression and invasion. 864 Jul 38

Hydrolysis of extracellular matrix is a necessary step for malignant cells to invade, and metastasize. Three groups of proteinases, mainly serine, thiol and metalloproteinases, have been found to be secreted by cancer cells and responsible for the proteolytic cascade triggered during invasion. Previous studies from our group and others have shown that the thiol proteinase cathepsin B1 is a constant indicator of tumor invasion in carcinoma of the cervix, although others point to plasminogen activators and collagenases. So far, there are no systematic studies to correlate cathepsin B and plasminogen activator activity with advancing malignant disease and thus estimate its capability as a marker of progression. The purpose of this study was to determine the activity of cathepsin B like proteinase and plasminogen activators in invasive carcinoma of the breast at various clinical stages and with different estrogen receptor status. One hundred patients with carcinoma of the breast at different clinical stages were studied. Cathepsin B and plasminogen activators activity was assessed in tumor cytosols using different synthetic oligopeptides as substrates following the method of Smith. Estrogen receptor concentration was determined with monoclonal antibodies. A statistical analysis and correlation with different clinical stages was performed. Cathepsin B-like activity had a consistent and progressive elevation in direct correlation with clinical stage (stage I, 1.97 SE +/- 0.46; stage II, 6.67 SE +/- 1.12; stage III, 28.19 SE +/- 3.48; nmol/mg/30 min), while plasminogen activators, although constantly elevated, had no correlation with tumor progression. No relation could be found with estrogen receptor status. It is concluded that cathepsin B, but not plasminogen activator, is a good indicator of tumor progression in invasive carcinoma of the breast.
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PMID:Proteinase activity in invasive cancer of the breast. Correlation with tumor progression. 884 43

Cathepsin B has been linked to tumor progression through observations that its activity, secretion or membrane association are increased. The most malignant tumors, and specifically the cells at the invasive edge of those tumors, express the highest activity. Cathepsin B may facilitate invasion directly by dissolving extracellular matrix barriers like the basement membrane, or indirectly by activating other proteases capable of digesting the extracellular matrix. Cathepsin B also might play a role in tumor growth and angiogenesis. Cathepsin B activity is the result of several levels of regulation: transcription, post-transcription processing, translation and glycosylation, maturation and trafficking, and inhibition. The majority of reports on cathepsin B expression in tumors have focused on measurements of activity or protein staining. In some tumors, e.g. gliomas, a correlation between the amounts of cathepsin B mRNA, protein and activity and tumor progression has been established. Regulation of cathepsin B at the transcriptional and post-transcriptional levels is still poorly understood. Although the putative promoter regions have characteristics of housekeeping-type promoters, cathepsin B mRNA expression varies depending on the cell type and state of differentiation. We have evidence that more than one promoter could direct expression of human cathepsin B. Multiple transcript species have been detected, resulting from alternative splicing in the 5'- or 3'-untranslated regions, and possibly the use of alternative promoter regions. The existence of transcript variants indicates a potential for post-transcriptional control of expression. In support of this, ras-transformation of MCF-10A human breast epithelial cells results in an increase in protein levels without a concomitant increase in mRNA levels. Cathepsin B mRNA species with distinct 5'- or 3'-untranslated regions may differ in their stability and translatability. Variations in the coding region may also alter cathepsin B properties. We and Frankfater's group have observed transcript species that would encode a truncated protein, lacking the prepeptide and about half of the propeptide. This truncated protein, if synthesized in cells, would be expected to be cytosolic; therefore its function is unclear. Once the several mechanisms of regulation of cathepsin B expression and activity are better understood, they could provide us with new strategies to specifically reduce cathepsin B activity in tumors.
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PMID:Cathepsin B expression in human tumors. 886 Oct 22


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