Investigating the role of Hsp90 and LRP1 in FN matrix dynamics
- Authors: Boël, Natasha Marie-Eraine
- Date: 2016
- Subjects: Extracellular matrix , Molecular chaperones , Heat shock proteins , Cancer , Fibronectins
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: http://hdl.handle.net/10962/2713 , vital:20319
- Description: Fibronectin (FN), a matrix protein responsible for regulating processes including migration and differentiation, is secreted as a soluble dimer which is assembled into an insoluble extracellular matrix. The dynamics of FN matrix assembly and degradation play a large role in cell migration and invasion contributing to the metastatic potential of cancer cells. Previous studies from our group have shown the direct binding of Hsp90 and FN in vitro and that inhibition of Hsp90 with novobiocin (NOV) caused internalisation of the FN matrix. However, the receptor mediating this internalisation is currently unknown. Low density lipoprotein 1 (LRP1) is a likely candidate as it is a ubiquitous receptor responsible for regulating internalisation of diverse ligands and is known to bind both Hsp90 and FN. We used wild type and knockout LRP1 cell lines to study the endocytosis of FN via this receptor. Here, we demonstrate that LRP1-deficient cells accumulated greatly increased levels of FN and were found to be less sensitive to pharmacological inhibition of Hsp90 by NOV. LRP1-expressing MEF-1 and Hs578T breast cancer cells experienced an increase in total FN in response to NOV, at concentrations below the EC50 value, followed by a dose-dependent loss of FN. We attributed greater FN levels to a loss of extracellular FN matrix coupled with increased internalisation of FN. Cell-surface biotinylation and DOC assays showed that loss of extracellular FN was specific to LRP1-expressing MEF-1 cells. Furthermore, we demonstrate that the loss of extracellular FN is not affected by changes in FN mRNA levels as determined by qRT-PCR, and that treatment with NOV resulted in the accelerated degradation of FN in the presence of cycloheximide. Immunoprecipitation studies reveal a putative complex exists between FN, Hsp90 and LRP1 in both cancer and non-cancer cells which is not perturbed by NOV. Western analyses revealed increased proteolytic processing of LRP1 in response to NOV which we proposed, based on literature, to modulate signalling pathways as a potential mechanism for regulating FN turnover. Moreover, using wound healing assays we identified increased migration to be one of the consequences associated with loss of extracellular FN by Hsp90 inhibition but only in cells containing LRP1. In summary, this study provides new insights into the Hsp90-LRP1 mediated loss of FN matrix and also reveals for the first time the functional consequence related to FN turnover by NOV was an increase in migration in LRP1-expressing cells.
- Full Text:
- Date Issued: 2016
- Authors: Boël, Natasha Marie-Eraine
- Date: 2016
- Subjects: Extracellular matrix , Molecular chaperones , Heat shock proteins , Cancer , Fibronectins
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: http://hdl.handle.net/10962/2713 , vital:20319
- Description: Fibronectin (FN), a matrix protein responsible for regulating processes including migration and differentiation, is secreted as a soluble dimer which is assembled into an insoluble extracellular matrix. The dynamics of FN matrix assembly and degradation play a large role in cell migration and invasion contributing to the metastatic potential of cancer cells. Previous studies from our group have shown the direct binding of Hsp90 and FN in vitro and that inhibition of Hsp90 with novobiocin (NOV) caused internalisation of the FN matrix. However, the receptor mediating this internalisation is currently unknown. Low density lipoprotein 1 (LRP1) is a likely candidate as it is a ubiquitous receptor responsible for regulating internalisation of diverse ligands and is known to bind both Hsp90 and FN. We used wild type and knockout LRP1 cell lines to study the endocytosis of FN via this receptor. Here, we demonstrate that LRP1-deficient cells accumulated greatly increased levels of FN and were found to be less sensitive to pharmacological inhibition of Hsp90 by NOV. LRP1-expressing MEF-1 and Hs578T breast cancer cells experienced an increase in total FN in response to NOV, at concentrations below the EC50 value, followed by a dose-dependent loss of FN. We attributed greater FN levels to a loss of extracellular FN matrix coupled with increased internalisation of FN. Cell-surface biotinylation and DOC assays showed that loss of extracellular FN was specific to LRP1-expressing MEF-1 cells. Furthermore, we demonstrate that the loss of extracellular FN is not affected by changes in FN mRNA levels as determined by qRT-PCR, and that treatment with NOV resulted in the accelerated degradation of FN in the presence of cycloheximide. Immunoprecipitation studies reveal a putative complex exists between FN, Hsp90 and LRP1 in both cancer and non-cancer cells which is not perturbed by NOV. Western analyses revealed increased proteolytic processing of LRP1 in response to NOV which we proposed, based on literature, to modulate signalling pathways as a potential mechanism for regulating FN turnover. Moreover, using wound healing assays we identified increased migration to be one of the consequences associated with loss of extracellular FN by Hsp90 inhibition but only in cells containing LRP1. In summary, this study provides new insights into the Hsp90-LRP1 mediated loss of FN matrix and also reveals for the first time the functional consequence related to FN turnover by NOV was an increase in migration in LRP1-expressing cells.
- Full Text:
- Date Issued: 2016
Analysis of the interaction of Hsp90 with the extracellular matrix protein fibronectin (FN)
- Authors: Hunter, Morgan Campbell
- Date: 2014
- Subjects: Heat shock proteins , Fibronectins , Extracellular matrix proteins , Breast -- Cancer
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: vital:4170 , http://hdl.handle.net/10962/d1020960
- Description: Mounting evidence suggests that Hsp90 is present and functionally active in the extracellular space. The biological function of extracellular Hsp90 (eHsp90) remains relatively uncharacterized compared to that of intracellular Hsp90. eHsp90 has been shown to interact with a finite number of extracellular proteins, however, despite the identification of eHsp90 interacting proteins, the function of eHsp90 in these complexes is unknown. Several reports suggest a role for eHsp90α in cell migration and invasion. Reported targets for eHsp90 stimulated cell migration include MMPs, LRP-1, tyrosine kinase receptors and possible others unidentified. Limited studies report a role for eHsp90β. Recently, Hsp90α and Hsp90β were isolated in a complex containing fibronectin (FN) on the surface of MDA-MB-231 breast cancer cells. Herein, we report direct binding of Hsp90α and Hsp90β to FN using a solid phase binding assay and surface plasmon resonance (SPR) spectroscopy. SPR spectroscopy showed that Hsp90β bound the 70 kDa amino-terminal fragment of FN (FN70), but that binding of FN to Hsp90β was not limited to FN70. Confocal microscopy showed regions of colocalization of Hsp90 with extracellular FN matrix fibrils in Hs578T breast cancer cell lines. Treatment of Hs578T breast cancer cells with novobiocin (an Hsp90 inhibitor) and an LRP-1 blocking antibody resulted in a loss of FN matrix and FN endocytosis (novobiocin treated). Addition of exogenous Hsp90β was able to recover such effect after both treatments. FN was shown to colocalize with intracellular LRP-1 in novobiocin treated Hs578T cells. Immunoprecipitation of an LRP-1 containing complex showed the presence of Hsp90 and 70 and 120+ kDa FN fragments. Treatment of Hs578T cells with novobiocin increased the level of FN120+ bound in LRP-1 immunoprecipitate. Exogenous Hsp90β decreased the level of low and high molecular weight FN fragments in a complex with LRP-1, despite the fact that higher levels of lower molecular weight FN fragments were detected in this cell lysate compared to the other treatments. We report FN as a novel interacting protein of eHsp90. Taken together, we provide evidence for a direct role of eHsp90β in FN matrix remodeling. We suggest that Hsp90 plays a direct role in FN matrix dynamics through interaction with FN and LRP-1. The identification of FN as a novel interacting protein of eHsp90 suggests a role for Hsp90 in FN matrix remodeling, which is important for a number of fundamental cellular processes including cell migration and metastasis.
- Full Text:
- Date Issued: 2014
- Authors: Hunter, Morgan Campbell
- Date: 2014
- Subjects: Heat shock proteins , Fibronectins , Extracellular matrix proteins , Breast -- Cancer
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: vital:4170 , http://hdl.handle.net/10962/d1020960
- Description: Mounting evidence suggests that Hsp90 is present and functionally active in the extracellular space. The biological function of extracellular Hsp90 (eHsp90) remains relatively uncharacterized compared to that of intracellular Hsp90. eHsp90 has been shown to interact with a finite number of extracellular proteins, however, despite the identification of eHsp90 interacting proteins, the function of eHsp90 in these complexes is unknown. Several reports suggest a role for eHsp90α in cell migration and invasion. Reported targets for eHsp90 stimulated cell migration include MMPs, LRP-1, tyrosine kinase receptors and possible others unidentified. Limited studies report a role for eHsp90β. Recently, Hsp90α and Hsp90β were isolated in a complex containing fibronectin (FN) on the surface of MDA-MB-231 breast cancer cells. Herein, we report direct binding of Hsp90α and Hsp90β to FN using a solid phase binding assay and surface plasmon resonance (SPR) spectroscopy. SPR spectroscopy showed that Hsp90β bound the 70 kDa amino-terminal fragment of FN (FN70), but that binding of FN to Hsp90β was not limited to FN70. Confocal microscopy showed regions of colocalization of Hsp90 with extracellular FN matrix fibrils in Hs578T breast cancer cell lines. Treatment of Hs578T breast cancer cells with novobiocin (an Hsp90 inhibitor) and an LRP-1 blocking antibody resulted in a loss of FN matrix and FN endocytosis (novobiocin treated). Addition of exogenous Hsp90β was able to recover such effect after both treatments. FN was shown to colocalize with intracellular LRP-1 in novobiocin treated Hs578T cells. Immunoprecipitation of an LRP-1 containing complex showed the presence of Hsp90 and 70 and 120+ kDa FN fragments. Treatment of Hs578T cells with novobiocin increased the level of FN120+ bound in LRP-1 immunoprecipitate. Exogenous Hsp90β decreased the level of low and high molecular weight FN fragments in a complex with LRP-1, despite the fact that higher levels of lower molecular weight FN fragments were detected in this cell lysate compared to the other treatments. We report FN as a novel interacting protein of eHsp90. Taken together, we provide evidence for a direct role of eHsp90β in FN matrix remodeling. We suggest that Hsp90 plays a direct role in FN matrix dynamics through interaction with FN and LRP-1. The identification of FN as a novel interacting protein of eHsp90 suggests a role for Hsp90 in FN matrix remodeling, which is important for a number of fundamental cellular processes including cell migration and metastasis.
- Full Text:
- Date Issued: 2014
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