Analysis of tumour- and stroma-supplied proteolytic networks reveals a brain-metastasis-promoting role for cathepsin S

Sevenich, Lisa; Bowman, Robert L.; Mason, Steven D.; Quail, Daniela F.; Rapaport, Franck; Elie, Benelita T.; Brogi, Edi; Brastianos, Priscilla K.; Hahn, William C.; Holsinger, Leslie J.; Massagué, Joan; Leslie, Christina; Joyce, Johanna A.

doi:10.1038/ncb3011

Cited by 308 publications

(283 citation statements)

References 54 publications

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“…As these representative examples indicate, proteases can promote invasion and metastasis to multiple organ sites through a plethora of different molecular mechanisms. Notably, levels of protease expression correlate with organ-specific metastasis in patients (Lu et al 2009;Sevenich et al 2014), revealing both potential prognostic markers and therapeutic targets.…”

Section: Invasion and Metastasismentioning

confidence: 99%

Pericellular proteolysis in cancer

2014

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Pericellular proteases have long been associated with cancer invasion and metastasis due to their ability to degrade extracellular matrix components. Recent studies demonstrate that proteases also modulate tumor progression and metastasis through highly regulated and complex processes involving cleavage, processing, or shedding of cell adhesion molecules, growth factors, cytokines, and kinases. In this review, we address how cancer cells, together with their surrounding microenvironment, regulate pericellular proteolysis. We dissect the multitude of mechanisms by which pericellular proteases contribute to cancer progression and discuss how this knowledge can be integrated into therapeutic opportunities.

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Section: Invasion and Metastasismentioning

confidence: 99%

Pericellular proteolysis in cancer

2014

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“…Also cathepsin S has been shown to specifically mediate BBB transmigration of breast tumor cells via proteolytic processing of the junctional adhesion molecule (JAM)-B. Importantly, genetic or pharmacological inhibition of cathepsin S significantly impaired experimental brain metastasis (44). Specific adhesion molecules have also been found to facilitate tumor cell migration to the brain.…”

Section: Arrest In a New Organmentioning

confidence: 97%

Blood-brain Barrier Remodeling during Brain Metastasis Formation

Wrobel

Toborek

2016

Mol Med

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Our understanding of the process of metastatic progression has improved markedly over the past decades, yet metastasis remains the most enigmatic component of cancer pathogenesis. This lack of knowledge has serious health-related implications, since metastasis is responsible for 90% of all cancer-related mortalities. The brain is considered a sanctuary site for metastatic tumor growth, where the blood-brain barrier (BBB) and other components of the brain microenvironment, provide protection to the tumor cells from immune surveillance, chemotherapeutics and other potentially harmful substances. The interactions between tumor cells and the brain microenvironment, principally brain vascular endothelium, are the critical determinants in their progression toward metastasis, dormancy, or clearance. This review discusses current knowledge of the biology of metastatic progression, with a particular focus on the tumor cell migration and colonization in the brain. online address: http://www.molmed.org

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“…the part of a tumour that does not consist of mutated sub-clones, provides a much more genetically stable focus that is far less likely to develop resistances towards treatment. 43 Restoration of 'normal' microenvironment can prevent tumour progression and even formation, 44,45 which is of particular interest if one considers the 'premetastatic niche'. While the underlying dynamics of niche formation seem to be not without controversy, 46 it appears that alterations of the microenvironment at a future site of metastasis can precede the arrival of mutant cancer cells.…”

Section: Targeting Cellular Interactionsmentioning

confidence: 99%

Darwinian Principles in Cancer Therapy

Stroh¹,

Debatin²,

Westhoff³

2014

European Oncology &Amp; Haematology

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Our understanding of what components, cellular and extracellular, make up a tumour has greatly expanded over the recent years. This has led to new insight into the underlying mechanisms that mediate treatment failure and has also elucidated potential avenues of novel therapeutic approaches. Applying Darwinian principles to tumour heterogeneity helps to define alternative therapeutic end points, while targeting microenvironmental interactions between mutated tumour cells and their surroundings provide a genetically more stable target. Finally, we discuss the possible role of tumour-associated macrophages in future treatment options.

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Analysis of tumour- and stroma-supplied proteolytic networks reveals a brain-metastasis-promoting role for cathepsin S

Cited by 308 publications

References 54 publications

Pericellular proteolysis in cancer

Pericellular proteolysis in cancer

Blood-brain Barrier Remodeling during Brain Metastasis Formation

Darwinian Principles in Cancer Therapy

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