Increased expression of cathepsins L and B and decreased activity of their inhibitors in metastatic, <i>ras</i>‐transformed NIH 3T3 cells

Chambers, Ann F.; Colella, Rita; Denhardt, David T.; Wilson, Sylvia M.

doi:10.1002/mc.2940050311

Cited by 86 publications

(50 citation statements)

References 43 publications

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“…Since high levels of protease activity are known to exist in the microenvironment of many tumours, particularly at the tumour -stroma interface, and increased protease production occurs in a variety of transformed cells (Rubin, 2003), tumours present an ideal environment for reovirus replication. Furthermore, cells transformed with oncogenic Ras have increased expression of proteases (Chambers et al, 1992), and we have shown that reovirus selectively infects cells with an activated Ras pathway Strong et al, 1998). Collectively, our data suggest that the proteolytic environment in tumours probably facilitates reovirus uncoating, and this could account for its enhanced oncolytic capability in vivo.…”

Section: Discussionmentioning

confidence: 62%

The oncolytic effect in vivo of reovirus on tumour cells that have survived reovirus cell killing in vitro

et al. 2006

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The use of oncolytic viruses has received considerable attention in recent years and many viruses have proved to be effective against a variety of cancer models and a few are currently being used in clinical trials. However, the possible emergence and outcome of virus-resistant tumour cells has not been addressed. We previously reported the effective use of reovirus against lymphoid malignancies, including the Burkitt's lymphoma cell line Raji. Here we isolated in vitro persistently infected (PI) Raji cells, and cells 'cured' of persistent reovirus infection ('cured' cells). Both PI and cured Raji cells resisted reovirus infection and cell killing in vitro. In vivo, the PI cells were non-tumorigenic in SCID mice, but cured cells regained the parental cells' ability to form tumours. Tumour xenografts from the cured cells, however, were highly susceptible to reovirus oncolysis in vivo. This susceptibility was due to the proteolytic environment within tumours that facilitates reovirus infection and cell killing. Our results show that persistent infection by reovirus impedes tumour development and that although PI cells cleared of reovirus are tumorigenic, they are killed upon rechallenge with reovirus. Both the PI and cured states are therefore not likely to be significant barriers to reovirus oncolytic therapy.

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Section: Discussionmentioning

confidence: 62%

The oncolytic effect in vivo of reovirus on tumour cells that have survived reovirus cell killing in vitro

et al. 2006

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“…The mechanism by which Ras activation increases reovirus growth has been suggested to involve inactivation of the interferoninduced eIF2␣ kinase PKR (64). Interestingly, it has been demonstrated that Ras activation can result in increased expression of various proteases, including cathepsin L (17,18,44). Since reovirus infection can be mediated by cathepsin L, higher levels of this protease could make Ras-activated cells more permissive to infection.…”

Section: Discussionmentioning

confidence: 99%

Addition of Exogenous Protease Facilitates Reovirus Infection in Many Restrictive Cells

Golden

Linke

Schmechel

et al. 2002

J Virol

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Virion uncoating is a critical step in the life cycle of mammalian orthoreoviruses. In cell culture, and probably in extraintestinal tissues in vivo, reovirus virions undergo partial proteolysis within endosomal or/or lysosomal compartments. This process converts the virion into a form referred to as an intermediate subvirion particle (ISVP). In natural enteric reovirus infections, proteolytic uncoating takes place extracellularly within the intestinal lumen. The resultant proteolyzed particles, unlike intact virions, have the capacity to penetrate cell membranes and thereby gain access to cytoplasmic components required for viral gene expression. We hypothesized that the capacity of reovirus outer capsid proteins to be proteolyzed is a determinant of cellular host range. To investigate this hypothesis, we asked if the addition of protease to cell culture medium would expand the range of cultured mammalian cell lines that can be productively infected by reoviruses. We identified many transformed and nontransformed cell lines, as well as primary cells, that restrict viral infection. In several of these restrictive cells, virion uncoating is inefficient or blocked. Addition of proteases to the cell culture medium generates ISVP-like particles and promotes viral growth in nearly all cell lines tested. Interestingly, we found that some cell lines that restrict reovirus uncoating still express mature cathepsin L, a lysosomal protease required for virion disassembly in murine L929 cells. This finding suggests that factors in addition to cathepsin L are required for efficient intracellular proteolysis of reovirus virions. Our results demonstrate that virion uncoating is a critical determinant of reovirus cellular host range and that many cells which otherwise support productive reovirus infection cannot efficiently mediate this essential early step in the virus life cycle.Mammalian reoviruses (reoviruses) are prototypic members of the Reoviridae family, which includes the pathogenic rotaviruses, coltiviruses, and orbiviruses. Whereas reovirus causes infections that are generally asymptomatic in humans, it can induce respiratory, enteric, and nervous system diseases in animal models (reviewed in reference 67). Reovirus virions comprise a multilayered protein capsid that surrounds a segmented, double-stranded RNA genome (reviewed in reference 51). The outermost capsid layer consists of protein 3. The presence of 3 imparts environmental stability to the virion (54) but also appears to negatively regulate critical virion functions such as membrane penetration. The ability of reovirus to establish a productive infection requires proteolysis of the outer capsid (13,62,65). More recent data point toward 3 as the critical target for degradation (19,20).The first step in reovirus infection is attachment to cellular receptors through interactions with the viral receptor protein 1 (46, 75). Following attachment, virions are internalized by receptor-mediated endocytosis and delivered to endosomal compartments (12,13,65). In cell c...

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“…The level of cathepsin B expression is elevated in human breast and ovarian cancers (Woynarowska et al, 1989;Gabrijelcic et al, 1992;Lah et al, 1992), and in several metastatic cell lines, including ras-transformed NIH 3T3 cells and Lewis lung carcinoma cells, in which the level of expression has been correlated with the increased malignancy (Brodt et al, 1992;Chambers et al, 1992). In many malignant cell lines, the enzyme is localized to the plasma membrane and is clearly secreted in most instances (Sloane et al, 1986).…”

Section: Discussionmentioning

confidence: 99%

Cathepsin B, a Cysteine Protease Implicated in Metastatic Progression, is also Expressed During Regression of the Rat Prostate and Mammary Glands

Guenette

Mooibroek

Wong

et al. 1994

European Journal of Biochemistry

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We have developed a novel library-to-library cross-screening technology to clone unique mRNAs that are expressed during tissue regression. We have cloned a number of regression selected genes (RSG) that are expressed during the regression of the mammary gland and ventral prostate of the rat after the removal of the respective trophic hormone. In this investigation, we have characterized one of these genes, RSG-2, that is homologous to cathepsin B, a thiol protease that has been previously identified as one of the extracellular proteases which is activated in metastatic cells. The steady-state levels of RSG-2 mRNA in the normal prostate are low but detectable. In the regressing prostate, RSG-2 mRNA levels peak at 3-4 days after castration, at the time that tissue regression is maximal. The gene is induced in a similar fashion in the regressing mammary gland. Using in situ hybridization, we have established that RSG-2 mRNA is expressed in the luminal epithelial cells of the prostate and mammary gland that are known to undergo active cell death, suggesting that it may be a general marker for secretory epithelial cell death. Analysis of the distribution of the cathepsin B protein by immunofluorescence microscopy demonstrates that there is diffuse, but punctate, expression of the protein in all of the luminal epithelial cells of the normal prostate and mammary gland. However, at early times after hormone ablation in both glands, the majority of the increase in cathepsin B protein appears to result from redistribution to the basal aspect of the cells. At later time points, there appears to be increased amounts of the protein which is localized to the apoptotic bodies. These results suggest that RSG-2, or cathepsin B, is required for the local degradation of the basement membrane. which is one of the earliest morphologically recognizable events of active cell death.

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Increased expression of cathepsins L and B and decreased activity of their inhibitors in metastatic, ras‐transformed NIH 3T3 cells

Cited by 86 publications

References 43 publications

The oncolytic effect in vivo of reovirus on tumour cells that have survived reovirus cell killing in vitro

The oncolytic effect in vivo of reovirus on tumour cells that have survived reovirus cell killing in vitro

Addition of Exogenous Protease Facilitates Reovirus Infection in Many Restrictive Cells

Cathepsin B, a Cysteine Protease Implicated in Metastatic Progression, is also Expressed During Regression of the Rat Prostate and Mammary Glands

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