Osteosarcoma is the most common type of malignant bone cancer, accounting for 35% of primary bone... more Osteosarcoma is the most common type of malignant bone cancer, accounting for 35% of primary bone malignancies. Because cancer cells utilize glucose as their primary energy substrate, the expression and regulation of glucose transporters (GLUT) may be important in tumor development and progression. GLUT expression has not been studied previously in human osteosarcoma cell lines. Furthermore, although insulin and insulin-like growth factor (IGF-I) play an important role in cell proliferation and tumor progression, the role of these hormones on GLUT expression and glucose uptake, and their possible relation to osteosarcoma, have also not been studied. We determined the effect of insulin and IGF-I on GLUT expression and glucose transport in three well-characterized human osteosarcoma cell lines (MG-63, SaOs-2, and U2-Os) using immunocytochemical, RT-PCR and functional kinetic analyses. Furthermore we also studied GLUT isoform expression in osteosarcoma primary tumors and metastases by in situ hybridization and immunohistochemical analyses. RT-PCR and immunostaining show that GLUT1 is the main isoform expressed in the cell lines and tissues studied, respectively. Immunocytochemical analysis shows that although insulin does not affect levels of GLUT1 expression it does induce a translocation of the transporter to the plasma membrane. This translocation is associated with increased transport of glucose into the cell. GLUT1 is the main glucose transporter expressed in osteosarcoma, furthermore, this transporter is regulated by insulin in human MG-63 cells. One possible mechanism through which insulin is involved in cancer progression is by increasing the amount of glucose available to the cancer cell.
Isoform 1 of the sodium-vitamin C co-transporter (SVCT1) is expressed in the apical membrane of p... more Isoform 1 of the sodium-vitamin C co-transporter (SVCT1) is expressed in the apical membrane of proximal tubule epithelial cells in adult human and mouse kidneys. This study is aimed at analyzing the expression and function of SVCTs during kidney development. RT-PCR and immunohistochemical analyses revealed that SVCT1 expression is increased progressively during postnatal kidney development. However, SVCT1 transcripts were barely detected, if not absent, in the embryonic kidney. Instead, the high-affinity transporter, isoform 2 (SVCT2), was strongly expressed in the developing kidney from E15; its expression decreased at postnatal stages. Immunohistochemical analyses showed a dynamic distribution of SVCT2 in epithelial cells during kidney development. In renal cortex tubular epithelial cells, intracellular distribution of SVCT2 was observed at E19 with distribution in the basolateral membrane at P1. In contrast, SVCT2 was localized to the apical and basolateral membranes between E17 and E19 in medullary kidney tubular cells but was distributed intracellularly at P1. In agreement with these findings, functional expression of SVCT2, but not SVCT1 was detected in human embryonic kidney-derived (HEK293) cells. In addition, kinetic analysis suggested that an ascorbate-dependent mechanism accounts for targeted SVCT2 expression in the developing kidney during medullary epithelial cell differentiation. However, during cortical tubular differentiation, SVCT1 was induced and localized to the apical membrane of tubular epithelial cells. SVCT2 showed a basolateral polarization only for the first days of postnatal life. These studies suggest that the uptake of vitamin C mediated by different SVCTs plays differential roles during the ontogeny of kidney tubular epithelial cells.
The probable presence of oxytocin in the hypothalamo-hypophysial system of two reptilian species,... more The probable presence of oxytocin in the hypothalamo-hypophysial system of two reptilian species, the snake Natrix maura and the turtle Mauremys caspica, was re-investigated. A high-pressure liquid chromatographic analysis of the turtle neural lobe revealed the ...
Reissner's fiber (RF) has been isolated, solubilized, and used to raise polyclonal antibo... more Reissner's fiber (RF) has been isolated, solubilized, and used to raise polyclonal antibodies. The present investigation has been designed: (1) to obtain antibodies against RF-glycoproteins in their native form (anti-RF-BI), after irreversible denaturation by alkylation (anti-RF-A), and after alkylation and deglycosylation by using endoglycosidase F (anti-RF-DE); (2) to use these antisera for a comparative immunocytochemical study of the subcommissural organ (SCO)-RF complex; (3) to establish the molecular mass of the deglycosylated RF-glycoproteins. Anti-RF-BI reacts with the SCO of all the species investigated. Anti-RF-A and anti-RF-DE only react with bovine SCO and RF. The three antisera stain the same bands in immunoblots of extracts of bovine SCO and RF, but anti-RF-A and anti-RF-DE reveal additional bands. The epitope common to all species reacting with anti-RF-BI is thus probably conformational in nature and associated with the integrity of the disulfide bonds. The lack of antibodies against conserved sequential epitopes in anti-RF-A does not support previous assumptions on the conserved nature of the SCO secretion. After deglycosylation by using endoglycosidase F, the RF-glycoproteins present a reduction in their molecular mass ranging between 10% and 25%. The three larger compounds (450, 300, and 230 kDa) lose their affinity for Limax flavus agglutinin (affinity = sialic acid), whereas the 190-kDa compound (170 kDa after deglycosylation) keeps its affinity for this lectin suggesting that it has N-linked and O-linked carbohydrate moieties, the three larger proteins probably having only N-linked carbohydrates.
Osteosarcoma is the most common type of malignant bone cancer, accounting for 35% of primary bone... more Osteosarcoma is the most common type of malignant bone cancer, accounting for 35% of primary bone malignancies. Because cancer cells utilize glucose as their primary energy substrate, the expression and regulation of glucose transporters (GLUT) may be important in tumor development and progression. GLUT expression has not been studied previously in human osteosarcoma cell lines. Furthermore, although insulin and insulin-like growth factor (IGF-I) play an important role in cell proliferation and tumor progression, the role of these hormones on GLUT expression and glucose uptake, and their possible relation to osteosarcoma, have also not been studied. We determined the effect of insulin and IGF-I on GLUT expression and glucose transport in three well-characterized human osteosarcoma cell lines (MG-63, SaOs-2, and U2-Os) using immunocytochemical, RT-PCR and functional kinetic analyses. Furthermore we also studied GLUT isoform expression in osteosarcoma primary tumors and metastases by in situ hybridization and immunohistochemical analyses. RT-PCR and immunostaining show that GLUT1 is the main isoform expressed in the cell lines and tissues studied, respectively. Immunocytochemical analysis shows that although insulin does not affect levels of GLUT1 expression it does induce a translocation of the transporter to the plasma membrane. This translocation is associated with increased transport of glucose into the cell. GLUT1 is the main glucose transporter expressed in osteosarcoma, furthermore, this transporter is regulated by insulin in human MG-63 cells. One possible mechanism through which insulin is involved in cancer progression is by increasing the amount of glucose available to the cancer cell.
Isoform 1 of the sodium-vitamin C co-transporter (SVCT1) is expressed in the apical membrane of p... more Isoform 1 of the sodium-vitamin C co-transporter (SVCT1) is expressed in the apical membrane of proximal tubule epithelial cells in adult human and mouse kidneys. This study is aimed at analyzing the expression and function of SVCTs during kidney development. RT-PCR and immunohistochemical analyses revealed that SVCT1 expression is increased progressively during postnatal kidney development. However, SVCT1 transcripts were barely detected, if not absent, in the embryonic kidney. Instead, the high-affinity transporter, isoform 2 (SVCT2), was strongly expressed in the developing kidney from E15; its expression decreased at postnatal stages. Immunohistochemical analyses showed a dynamic distribution of SVCT2 in epithelial cells during kidney development. In renal cortex tubular epithelial cells, intracellular distribution of SVCT2 was observed at E19 with distribution in the basolateral membrane at P1. In contrast, SVCT2 was localized to the apical and basolateral membranes between E17 and E19 in medullary kidney tubular cells but was distributed intracellularly at P1. In agreement with these findings, functional expression of SVCT2, but not SVCT1 was detected in human embryonic kidney-derived (HEK293) cells. In addition, kinetic analysis suggested that an ascorbate-dependent mechanism accounts for targeted SVCT2 expression in the developing kidney during medullary epithelial cell differentiation. However, during cortical tubular differentiation, SVCT1 was induced and localized to the apical membrane of tubular epithelial cells. SVCT2 showed a basolateral polarization only for the first days of postnatal life. These studies suggest that the uptake of vitamin C mediated by different SVCTs plays differential roles during the ontogeny of kidney tubular epithelial cells.
The probable presence of oxytocin in the hypothalamo-hypophysial system of two reptilian species,... more The probable presence of oxytocin in the hypothalamo-hypophysial system of two reptilian species, the snake Natrix maura and the turtle Mauremys caspica, was re-investigated. A high-pressure liquid chromatographic analysis of the turtle neural lobe revealed the ...
Reissner's fiber (RF) has been isolated, solubilized, and used to raise polyclonal antibo... more Reissner's fiber (RF) has been isolated, solubilized, and used to raise polyclonal antibodies. The present investigation has been designed: (1) to obtain antibodies against RF-glycoproteins in their native form (anti-RF-BI), after irreversible denaturation by alkylation (anti-RF-A), and after alkylation and deglycosylation by using endoglycosidase F (anti-RF-DE); (2) to use these antisera for a comparative immunocytochemical study of the subcommissural organ (SCO)-RF complex; (3) to establish the molecular mass of the deglycosylated RF-glycoproteins. Anti-RF-BI reacts with the SCO of all the species investigated. Anti-RF-A and anti-RF-DE only react with bovine SCO and RF. The three antisera stain the same bands in immunoblots of extracts of bovine SCO and RF, but anti-RF-A and anti-RF-DE reveal additional bands. The epitope common to all species reacting with anti-RF-BI is thus probably conformational in nature and associated with the integrity of the disulfide bonds. The lack of antibodies against conserved sequential epitopes in anti-RF-A does not support previous assumptions on the conserved nature of the SCO secretion. After deglycosylation by using endoglycosidase F, the RF-glycoproteins present a reduction in their molecular mass ranging between 10% and 25%. The three larger compounds (450, 300, and 230 kDa) lose their affinity for Limax flavus agglutinin (affinity = sialic acid), whereas the 190-kDa compound (170 kDa after deglycosylation) keeps its affinity for this lectin suggesting that it has N-linked and O-linked carbohydrate moieties, the three larger proteins probably having only N-linked carbohydrates.
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Papers by F. Nualart