Ora et al [9], in which GRP78-knockdown fibrosarcoma cells demonstrated similar

Ora et al [9], in which GRP78-knockdown fibrosarcoma cells demonstrated similar

Ora et al [9], in which GRP78-knockdown fibrosarcoma cells demonstrated similar in vitro growth characteristics as their parental line, however were not able to sustain growth in vivo in a mouse model. Since this discovery, several studies have validated the important role UPR related proteins play 1326631 in tumorigenesis. Specific to glioma, Pyrko et al demonstrated that GRP78 is expressed at low levels in adult brain, but significantly elevated in malignant glioma and glioma cell lines [10]. Using microarray analysis, Lee et al similarly found that GRP78 expression was up-regulated in glioma and that its expression correlated with tumor grade [11]. Further, GRP78 expression had prognostic implications in glioblastoma, with increased expression portending poor survival. These studies also demonstrated that GRP78 contributed towards resistance to a variety of chemotherapeutics, including temozolomide, 5fluorouracil, CPT-11, etoposide, cisplatin, and ionizing radiation [10,11]. It has also been shown that GRP78 is highly elevated in the vasculature derived from human glioma specimens [12,13] and powerfully regulates VEGF expression [14]. Selective destruction of GRP78 became possible with the discovery of a novel bacterial toxin SubA, which selectively cleaves only one protein, GRP78, at a single site, di-leucine motif (Elafibranor site L416L417) in the hinge region connecting the ATPase and proteinbinding domains of the molecule [15]. GRP78 cleavage is rapid and virtually all intact GRP78 in the cell is degraded within 1? h of exposure, leading to massive apoptosis, even at toxin doses as low as 10 ng/mL, suggesting a highly potent catalytic activity [15]. To achieve selectively into cancer cells, we engineered a fusion protein epidermal growth factor (EGF)-SubA, combining EGF with SubA, which demonstrated significant inhibition of human breast and prostate cancer cells in vitro and in vivo [16]. Based on the clear biologic relevance the UPR and GRP78 play in glioma tumorigenesis [10,11], we explored the anti-tumor potential of EGF-SubA in glioblastoma models.Materials and Methods Cell CultureHuman Glioblastoma cell lines U251, T98G and U87 were obtained from ATCC (Manassas, VA). U251 was grown in RPMI 1640 (GIBCO, Carlsbad, CA) supplemented with 5 heat inactivated fetal purchase Nazartinib bovine serum. U87 and T98G were grown in Eagles minimum essential medium (ATCC, Manassas, VA), supplemented with 10 heat inactivated fetal bovine serum (GIBCO). Immortalized normal human astrocytes-SV40 (NHA) were obtained from Applied Biological Materials (ABM; Richmond, BC, Canada) and grown on Collagen IV (Sigma Aldrich; 2 mg/ml in 0.2 acetic acid) coated flasks or tissue culture plates in ABM Prigrow IV medium (ABM) supplemented with 10 heat inactivated fetal bovine serum (GIBCO). The glioblastoma neural stem (GNS) cell line G179 was provided by Dr. Austin Smith [17], distributed by BioRep (Milan, Italy), and grown in conditions as previously described [18]. All cells were grown in a humidified atmosphere at 37uC and 5 carbon dioxide. For acidic pH studies, respective media were acidified using 1N hydrochloric acid, pH tested, and filter sterilized. Cells were maintained in acidic conditions for at least 3 passages prior to performing the stated experiments.Figure 1. GRP78 expression in glioma. Immunohistochemical staining was performed on a glioma tissue microarray using an antiGRP78 antibody and expression levels (0, 1+, 2+, and 3+) were quantified based on the intensity of staining.Ora et al [9], in which GRP78-knockdown fibrosarcoma cells demonstrated similar in vitro growth characteristics as their parental line, however were not able to sustain growth in vivo in a mouse model. Since this discovery, several studies have validated the important role UPR related proteins play 1326631 in tumorigenesis. Specific to glioma, Pyrko et al demonstrated that GRP78 is expressed at low levels in adult brain, but significantly elevated in malignant glioma and glioma cell lines [10]. Using microarray analysis, Lee et al similarly found that GRP78 expression was up-regulated in glioma and that its expression correlated with tumor grade [11]. Further, GRP78 expression had prognostic implications in glioblastoma, with increased expression portending poor survival. These studies also demonstrated that GRP78 contributed towards resistance to a variety of chemotherapeutics, including temozolomide, 5fluorouracil, CPT-11, etoposide, cisplatin, and ionizing radiation [10,11]. It has also been shown that GRP78 is highly elevated in the vasculature derived from human glioma specimens [12,13] and powerfully regulates VEGF expression [14]. Selective destruction of GRP78 became possible with the discovery of a novel bacterial toxin SubA, which selectively cleaves only one protein, GRP78, at a single site, di-leucine motif (L416L417) in the hinge region connecting the ATPase and proteinbinding domains of the molecule [15]. GRP78 cleavage is rapid and virtually all intact GRP78 in the cell is degraded within 1? h of exposure, leading to massive apoptosis, even at toxin doses as low as 10 ng/mL, suggesting a highly potent catalytic activity [15]. To achieve selectively into cancer cells, we engineered a fusion protein epidermal growth factor (EGF)-SubA, combining EGF with SubA, which demonstrated significant inhibition of human breast and prostate cancer cells in vitro and in vivo [16]. Based on the clear biologic relevance the UPR and GRP78 play in glioma tumorigenesis [10,11], we explored the anti-tumor potential of EGF-SubA in glioblastoma models.Materials and Methods Cell CultureHuman Glioblastoma cell lines U251, T98G and U87 were obtained from ATCC (Manassas, VA). U251 was grown in RPMI 1640 (GIBCO, Carlsbad, CA) supplemented with 5 heat inactivated fetal bovine serum. U87 and T98G were grown in Eagles minimum essential medium (ATCC, Manassas, VA), supplemented with 10 heat inactivated fetal bovine serum (GIBCO). Immortalized normal human astrocytes-SV40 (NHA) were obtained from Applied Biological Materials (ABM; Richmond, BC, Canada) and grown on Collagen IV (Sigma Aldrich; 2 mg/ml in 0.2 acetic acid) coated flasks or tissue culture plates in ABM Prigrow IV medium (ABM) supplemented with 10 heat inactivated fetal bovine serum (GIBCO). The glioblastoma neural stem (GNS) cell line G179 was provided by Dr. Austin Smith [17], distributed by BioRep (Milan, Italy), and grown in conditions as previously described [18]. All cells were grown in a humidified atmosphere at 37uC and 5 carbon dioxide. For acidic pH studies, respective media were acidified using 1N hydrochloric acid, pH tested, and filter sterilized. Cells were maintained in acidic conditions for at least 3 passages prior to performing the stated experiments.Figure 1. GRP78 expression in glioma. Immunohistochemical staining was performed on a glioma tissue microarray using an antiGRP78 antibody and expression levels (0, 1+, 2+, and 3+) were quantified based on the intensity of staining.

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