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Query: UMLS:C0025202 (
melanoma
)
69,561
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Cathepsin B is a lysosomal cysteine proteinase whose expression and trafficking are frequently altered in cancer, and plasma membrane and secreted forms are thought to contribute to the invasive and metastatic properties of malignant tumors. We have manipulated the expression of
cathepsin B
in several tumor cell lines and measured their capacity to invade through a reconstituted extracellular (Matrigel) matrix. Transient expression of human
cathepsin B
in a poorly metastatic B16F1 murine
melanoma
variant produced a 3-5-fold increase in
cathepsin B
activity and a comparable increase in invasiveness. Stable antisense
cathepsin B
-expressing clones of the highly metastatic human
melanoma
A375M and prostate carcinoma PC3M cell lines produced 40-50% less
cathepsin B
than control cells and were proportionately less invasive. In contrast, manipulating
cathepsin B
levels had no effect on cell migration across an uncoated membrane. The anionic
cathepsin B
inhibitor (L-3-trans-propylcarbamoyloxirane-2-carbony)-L-isoleucyl-L-proline (CA-074), at a concentration of 1 microM, caused a nearly quantitative inhibition of extracellular
cathepsin B
but had no effect on Matrigel invasion. In contrast, the equally potent but less selective inhibitor, trans-epoxysuccinyl-L-leucylamino(4-guanidino)butane (E-64) inhibited invasion by 75%. Surprisingly, at a concentration of 10 microM, CA-074 slowly permeated the cells, causing an 80-95% inhibition of intracellular
cathepsin B
after 12 h, the duration of the invasion assay. The membrane-permeant
cathepsin B
inhibitor, CA-074 methyl ester, and the higher concentration of CA-074 that inhibited intracellular
cathepsin B
both significantly reduced Matrigel invasion. Collectively, these results identify an intracellular role for
cathepsin B
in matrix degradation. They also indicate that caution should be exercised in assuming that CA-074 is unable to enter cells when it is used to inhibit biological processes of long duration.
...
PMID:An intracellular form of cathepsin B contributes to invasiveness in cancer. 1130 13
Polymer-directed enzyme prodrug therapy (PDEPT) is a novel two-step antitumour approach using a combination of a polymeric prodrug and polymer-enzyme conjugate to generate cytotoxic drug selectively at the tumour site. In this study the polymeric prodrug N-(2-hydroxypropyl) methacrylamide (HPMA) copolymer-Gly-Phe-Leu-Gly-doxorubicin conjugate PK1 (currently under Phase II clinical evaluation) was selected as the model prodrug, and HPMA copolymer-
cathepsin B
as a model for the activating enzyme conjugate. Following polymer conjugation (yield of 30-35%) HPMA copolymer-
cathepsin B
retained approximately 20-25% enzymatic activity in vitro. To investigate pharmacokinetics in vivo,(125)I-labelled HPMA copolymer-
cathepsin B
was administered intravenously (i.v.) to B16F10 tumour-bearing mice. HPMA copolymer-cathespin B exhibited a longer plasma half-life (free
cathepsin B
t(1/2alpha)= 2.8 h; bound
cathepsin B
t(1/2alpha)= 3.2 h) and a 4.2-fold increase in tumour accumulation compared to the free enzyme. When PK1 (10 mg kg(-1)dox-equiv.) was injected i.v. into C57 mice bearing subcutaneously (s.c.) palpable B16F10 tumours followed after 5 h by HPMA copolymer-
cathepsin B
there was a rapid increase in the rate of dox release within the tumour (3.6-fold increase in the AUC compared to that seen for PK1 alone). When PK1 and the PDEPT combination were used to treat established B16F10
melanoma
tumour (single dose; 10 mg kg(-1)dox-equiv.), the antitumour activity (T/C%) seen for the combination PDEPT was 168% compared to 152% seen for PK1 alone, and 144% for free dox. Also, the PDEPT combination showed activity against a COR-L23 xenograft whereas PK1 did not. PDEPT has certain advantages compared to ADEPT and GDEPT. The relatively short plasma residence time of the polymeric prodrug allows subsequent administration of polymer-enzyme without fear of prodrug activation in the circulation and polymer-enzyme conjugates have reduced immunogenicity. This study proves the concept of PDEPT and further optimisation is warranted.
...
PMID:PDEPT: polymer-directed enzyme prodrug therapy. I. HPMA copolymer-cathepsin B and PK1 as a model combination. 1159 81
Various types of proteinases are implicated in the malignant progression of human and animal tumors. Proteinase inhibitors may therefore be useful as therapeutic agents in anti-invasive and anti-metastatic treatment. The aims of this study were (1) to estimate the relative importance of proteinases in B16 cell invasion in vitro using synthetic, class-specific proteinase inhibitors and (2) to assess the inhibitory effect of some naturally occurring cysteine proteinase inhibitors. Serine proteinase inhibitor reduced invasiveness by up to 24%, whereas inhibition of aspartic proteinases reduced invasion by 11%. Synthetic inhibitors of cysteine proteinases markedly impaired invasion:
cathepsin B
inhibitors, particularly Ca-074Me, inhibited invasion from 20-40%, whereas cathepsin L inhibitor Clik 148 reduced invasion by 11%. The potato cysteine proteinase inhibitor PCPI 8.7 inhibited invasion by 21%, whereas another potato inhibitor, PCPI 6.6, and the mushroom cysteine proteinase inhibitor clitocypin had no effects. As the inhibitors that inhibited
cathepsin B
were in general more efficient at impairing the invasiveness, we conclude that of the two cysteine proteinases,
cathepsin B
plays a more important role than cathepsin L in murine
melanoma
cell invasion.
...
PMID:Effect of cysteine proteinase inhibitors on murine B16 melanoma cell invasion in vitro. 1210 49
Polymer-directed enzyme prodrug therapy (PDEPT) is a novel two-step antitumor approach that uses a combination of a polymeric prodrug and polymer-enzyme conjugate to generate a cytotoxic drug rapidly and selectively at the tumor site. Previously we have shown that N-(2-hydroxypropyl)methacrylamide (HPMA) copolymer-bound
cathepsin B
can release doxorubicin intratumorally from an HPMA copolymer conjugate PK1. Here we describe for the first time the synthesis and biological characterization of a PDEPT model combination that uses an HPMA-copolymer-methacryloyl-glycine-glycine-cephalosporin-doxorubicin (HPMA-co-MA-GG-C-Dox) as the macromolecular prodrug and an HPMA copolymer conjugate containing the nonmammalian enzyme beta-lactamase (HPMA-co-MA-GG-beta-L) as the activating component. HPMA-co-MA-GG-C-Dox had a molecular weight of approximately 31 600 Da and a C-Dox content of 5.85 wt %. Whereas free beta-L has a molecular weight of 45 kDa, the HPMA-co-MA-GG-beta-L conjugate had a molecular weight in the range of 75-150 kDa, and following purification no free enzyme was detectable. Against the cephalosporin C or HPMA-co-MA-GG-C-Dox substrates, the HPMA-co-MA-GG-beta-L conjugate retained 70% and 80% of its activity, respectively. In vivo (125)I-labeled HPMA-co-MA-GG-beta-L showed prolonged plasma concentration and greater tumor targeting than (125)I-labeled beta-L due to the enhanced permeability and retention (EPR) effect. Moreover, administration of HPMA-co-MA-GG-C-Dox iv to mice bearing sc B16F10
melanoma
followed after 5 h by HPMA-co-MA-GG-beta-L led to release of free Dox. The PDEPT combination caused a significant decrease in tumor growth (T/C = 132%) whereas neither free Dox nor HPMA-co-MA-GG-C-Dox alone displayed activity. The PDEPT combination displayed no toxicity at the doses used, so further evaluation of this approach to establish the maximum tolerated dose (MTD) is recommended.
...
PMID:PDEPT: polymer-directed enzyme prodrug therapy. 2. HPMA copolymer-beta-lactamase and HPMA copolymer-C-Dox as a model combination. 1286 33
Treatment of patients with
malignant melanoma
with interferon-alpha achieves a response in a small but significant subset of patients. Currently, although much is known about interferon biology, little is known about either the particular mechanisms of interferon-alpha activity that are crucial for response or why only some patients respond to interferon-alpha therapy. Two
melanoma
cell lines (MeWo and MM418) that are known to differ in their response to the antiproliferative activity of interferon-alpha, have been used as a model system to investigate interferon-alpha action. Using a proteomics approach based on two-dimensional polyacrylamide gel electrophoresis and mass spectrometry, several proteins induced in response to interferon-alpha have been identified. These include a number of gene products previously known to be type I interferon responsive (tryptophanyl tRNA synthetase, leucine aminopeptidase, ubiquitin cross-reactive protein, gelsolin, FUSE binding protein 2 and hPNPase) as well as a number of proteins not previously reported to be induced by type I interferon (
cathepsin B
, proteasomal activator 28alpha and alpha-SNAP). Although the proteins upregulated by interferon-alpha were common between the cell lines when examined at the level of Western blotting, the disparity in the basal level of
cathepsin B
was striking, raising the possibility that the higher level in MM418 may contribute to the sensitivity of this cell line to interferon-alpha treatment.
...
PMID:Identification of proteins regulated by interferon-alpha in resistant and sensitive malignant melanoma cell lines. 1544 80
Tumour cell lines and in vivo growing tumours are heterogeneous, comprising different cell clones. To understand why some cells primarily invade a tissue, while others are more apt to metastasize, several clones from the established B16F10-Nex2 cell line were isolated and 10 viable cells of each clone were injected intravenously into C57Bl/6 and Balb/c mice. Two cell clones (Nex2B and Nex2D) showed contrasting metastatic abilities. Clone 2D rather than clone 2B colonized the lungs of both mice after intravenous injection. Surprisingly, clone 2B grew more rapidly than 2D after subcutaneous implantation, significantly reducing the survival of injected mice. Clearly, dissociation between subcutaneous growth and metastatic ability was observed in clones from the same tumour cell lineage. Clone Nex2B continuously released proteolytic activity, including
cathepsin B
, and showed a greater capacity to invade Matrigel than clone Nex2D. Clone Nex2D accumulated cathepsins B, D and L intracellularly and released a moderate proteolytic activity in vitro that was inhibited with the time of incubation. E-64-treated Nex2B cells injected subcutaneously showed a significant delay in tumour development and increased survival of challenged animals. A similar result was obtained on treatment of clone 2B with chagasin, a cysteine proteinase inhibitor from Trypanosoma cruzi, even at 2 microM. Clone Nex2D was less sensitive to pretreatment with inhibitors of cysteine proteases for tumour development in vivo. Our results suggest that, in a tumour cell population, cells dissociate into metastatic and non-metastatic subtypes, and that release or accumulation of cathepsins can be a differential trait of these cells.
Melanoma
Res 2004 Oct
PMID:Melanoma heterogeneity: differential, invasive, metastatic properties and profiles of cathepsin B, D and L activities in subclones of the B16F10-NEX2 cell line. 1545 88
Metastasis of malignant tumor cells involves cell-cell and cell-matrix interactions, which regulate the expression and localization of proteolytic enzymes. In the present study, we investigated the expression and localization of the lysosomal cysteine proteinase
cathepsin B
and its natural inhibitors cystatin A, B and C in high- (MV3), intermediate- (SKmel28) and low-invasive (SKmel23, WM164) human
melanoma
cell lines grown on plastic or in contact with monomeric or fibrillar collagen type I. Neither the transcript levels of
cathepsin B
nor those of the natural inhibitors, cystatin B and C, were altered by the interaction of
melanoma
cells with collagen type I. However, protein expression and cellular localization of
cathepsin B
and its inhibitors were markedly affected. In contrast to low-invasive cells, high-invasive cells constitutively released procathepsin B when cultured on plastic. In addition, contact of invasive cells with fibrillar collagen type I resulted in the release of both mature forms of the protease. Perturbation studies using inhibitory antibodies against the beta1 subunit of the integrin receptor indicated a role for the beta1 integrin receptor family in the regulation of
cathepsin B
release. Cystatin B protein expression was much lower in high-invasive cells in both culture conditions, when compared to low-invasive cells. Cystatin C expression was comparable in all cells, but cell contact to fibrillar collagen type I induced its expression. These results strongly implicate a pivotal role of cell-matrix interactions for the regulation of
cathepsin B
localization and activity in
melanoma
cells.
...
PMID:Contact of high-invasive, but not low-invasive, melanoma cells to native collagen I induces the release of mature cathepsin B. 1638 Oct 7
The phenomenon of cell cannibalism, which generally refers to the engulfment of cells within other cells, was described in malignant tumors, but its biological significance is still largely unknown. In the present study, we investigated the occurrence, the in vivo relevance, and the underlying mechanisms of cannibalism in human
melanoma
. As first evidence, we observed that tumor cannibalism was clearly detectable in vivo in metastatic lesions of
melanoma
and often involved T cells, which could be found in a degraded state within tumor cells. Then, in vitro experiments confirmed that cannibalism of T cells was a property of metastatic melanoma cells but not of primary
melanoma
cells. In particular, morphologic analyses, including time-lapse cinematography and electron microscopy, revealed a sequence of events, in which metastatic melanoma cells were able to engulf and digest live autologous
melanoma
-specific CD8(+) T cells. Importantly, this cannibalistic activity significantly increased metastatic melanoma cell survival, particularly under starvation condition, supporting the evidence that tumor cells may use the eating of live lymphocytes as a way to "feed" in condition of low nutrient supply. The mechanism underlying cannibalism involved a complex framework, including lysosomal protease
cathepsin B
activity, caveolae formation, and ezrin cytoskeleton integrity and function. In conclusion, our study shows that human metastatic melanoma cells may eat live T cells, which are instead programmed to kill them, suggesting a novel mechanism of tumor immune escape. Moreover, our data suggest that cannibalism may represent a sort of "feeding" activity aimed at sustaining survival and progression of malignant tumor cells in an unfavorable microenvironment.
...
PMID:Cannibalism of live lymphocytes by human metastatic but not primary melanoma cells. 1717 2
We established a novel protocol for lithium dodecyl sulfate (LDS) gelatin zymography, which operates under reducing conditions and at a slightly acidic pH value (6.5). This zymographic assay is based on polyacrylamide gel electrophoresis and facilitates the electrophoretic separation of human cathepsins in an active state. By this technique, activity of purified human liver
cathepsin B
was detected at a concentration as low as 50 ng and was blocked only in the presence of the cysteine protease inhibitor E-64 and the specific
cathepsin B
inhibitor CA-074 but not by aspartate, serine, or matrix metalloprotease inhibitors. The method was applied to analyze cathepsin activities in cell culture supernatants of the high-invasive
melanoma
cell line MV3. Interestingly, LDS zymography of MV3 cell supernatants in combination with specific inhibitors of cathepsins B and L identified three forms of extracellularly active
cathepsin B
and two forms of proteolytically active cathepsin L. We herein describe the generation and biochemical significance of acidic LDS zymography. This novel method permits not only the enzymatic analysis of purified cysteine proteases but also the identification and discrimination of different cathepsin activities in biological fluids, cell lysates, or supernatants, especially of cathepsins B and L, which are closely linked to major inflammatory and malignant processes.
...
PMID:Identification and discrimination of extracellularly active cathepsins B and L in high-invasive melanoma cells. 1662 Jul 47
Chemokine processing by proteases is emerging as an important regulatory mechanism of leukocyte functions and possibly also of cancer progression. We screened a large panel of chemokines for degradation by cathepsins B and D, two proteases involved in tumor progression. Among the few substrates processed by both proteases, we focused on CCL20, the unique chemokine ligand of CCR6 that is expressed on immature dendritic cells and subtypes of memory lymphocytes. Analysis of the cleavage sites demonstrate that
cathepsin B
specifically cleaves off four C-terminally located amino acids and generates a CCL20(1-66) isoform with full functional activity. By contrast, cathepsin D totally inactivates the chemotactic potency of CCL20 by generating CCL20(1-55), CCL20(1-52), and a 12-aa C-terminal peptide CCL20(59-70). Proteolytic cleavage of CCL20 occurs also with chemokine bound to glycosaminoglycans. In addition, we characterized human
melanoma
cells as a novel CCL20 source and as cathepsin producers. CCL20 production was up-regulated by IL-1alpha and TNF-alpha in all cell lines tested, and in human metastatic melanoma cells. Whereas cathepsin D is secreted in the extracellular milieu,
cathepsin B
activity is confined to cytosol and cellular membranes. Our studies suggest that CCL20 processing in the extracellular environment of
melanoma
cells is exclusively mediated by cathepsin D. Thus, we propose a model where cathepsin D inactivates CCL20 and possibly prevents the establishment of an effective antitumoral immune response in melanomas.
...
PMID:Function of liver activation-regulated chemokine/CC chemokine ligand 20 is differently affected by cathepsin B and cathepsin D processing. 1670 8
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