Your search keyword '"Bourboulia, Dimitra"' showing total 8 results

1. Editorial: A new chapter for Cell Stress and Chaperones

Author

Bourboulia, Dimitra, Blair, Laura J., Clark, Melody S., Edkins, Adrienne L., Hightower, Lawrence E., Mollapour, Mehdi, Prahlad, Veena, Repasky, Elizabeth A., Truebano, Manuela, Truman, Andrew W., Truttmann, Matthias C., van Oosten-Hawle, Patricija, Woodford, Mark R., Bourboulia, Dimitra, Blair, Laura J., Clark, Melody S., Edkins, Adrienne L., Hightower, Lawrence E., Mollapour, Mehdi, Prahlad, Veena, Repasky, Elizabeth A., Truebano, Manuela, Truman, Andrew W., Truttmann, Matthias C., van Oosten-Hawle, Patricija, and Woodford, Mark R.

Published

2024

2. Second Virtual International Symposium on Cellular and Organismal Stress Responses, September 8-9, 2022

Author

van Oosten-Hawle, Patricija, Backe, Sarah J., Ben-Zvi, Anat, Bourboulia, Dimitra, Brancaccio, Mara, Brodsky, Jeff, Clark, Melody, Colombo, Giorgio, Cox, Marc B., de los Rios, Paolo, Echtenkamp, Frank, Edkins, Adrienne, Freeman, Brian, Goloubinoff, Pierre, Houry, Walid, Johnson, Jill, LaPointe, Paul, Li, Wei, Mezger, Valerie, Neckers, Len, Nillegoda, Nadinath B., Prahlad, Veena, Reitzel, Adam, Scherz-Shouval, Ruth, Sistonen, Lea, Tsai, Francis T. F., Woodford, Mark R., Mollapour, Mehdi, Truman, Andrew W., van Oosten-Hawle, Patricija, Backe, Sarah J., Ben-Zvi, Anat, Bourboulia, Dimitra, Brancaccio, Mara, Brodsky, Jeff, Clark, Melody, Colombo, Giorgio, Cox, Marc B., de los Rios, Paolo, Echtenkamp, Frank, Edkins, Adrienne, Freeman, Brian, Goloubinoff, Pierre, Houry, Walid, Johnson, Jill, LaPointe, Paul, Li, Wei, Mezger, Valerie, Neckers, Len, Nillegoda, Nadinath B., Prahlad, Veena, Reitzel, Adam, Scherz-Shouval, Ruth, Sistonen, Lea, Tsai, Francis T. F., Woodford, Mark R., Mollapour, Mehdi, and Truman, Andrew W.

Abstract

The Second International Symposium on Cellular and Organismal Stress Responses took place virtually on September 8-9, 2022. This meeting was supported by the Cell Stress Society International (CSSI) and organized by Patricija Van OostenHawle and Andrew Truman (University of North Carolina at Charlotte, USA) and Mehdi Mollapour (SUNY Upstate Medical University, USA). The goal of this symposium was to continue the theme from the initial meeting in 2020 by providing a platform for established researchers, new investigators, postdoctoral fellows, and students to present and exchange ideas on various topics on cellular stress and chaperones. We will summarize the highlights of the meeting here and recognize those that received recognition from the CSSI.

Published

2023

3. Second Virtual International Symposium on Cellular and Organismal Stress Responses, September 8–9, 2022 [Meeting Review]

Author

van Oosten-Hawle, Patricija, Backe, Sarah J., Ben-Zvi, Anat, Bourboulia, Dimitra, Brancaccio, Mara, Brodsky, Jeff, Clark, Melody, Colombo, Giorgio, Cox, Marc B., De Los Rios, Paolo, Echtenkamp, Frank, Edkins, Adrienne, Freeman, Brian, Goloubinoff, Pierre, Houry, Walid, Johnson, Jill, LaPointe, Paul, Li, Wei, Mezger, Valerie, Neckers, Len, Nillegoda, Nadinath B., Prahlad, Veena, Reitzel, Adam, Scherz-Shouval, Ruth, Sistonen, Lea, Tsai, Francis T. F., Woodford, Mark R., Mollapour, Mehdi, Truman, Andrew W., van Oosten-Hawle, Patricija, Backe, Sarah J., Ben-Zvi, Anat, Bourboulia, Dimitra, Brancaccio, Mara, Brodsky, Jeff, Clark, Melody, Colombo, Giorgio, Cox, Marc B., De Los Rios, Paolo, Echtenkamp, Frank, Edkins, Adrienne, Freeman, Brian, Goloubinoff, Pierre, Houry, Walid, Johnson, Jill, LaPointe, Paul, Li, Wei, Mezger, Valerie, Neckers, Len, Nillegoda, Nadinath B., Prahlad, Veena, Reitzel, Adam, Scherz-Shouval, Ruth, Sistonen, Lea, Tsai, Francis T. F., Woodford, Mark R., Mollapour, Mehdi, and Truman, Andrew W.

Abstract

The Second International Symposium on Cellular and Organismal Stress Responses took place virtually on September 8–9, 2022. This meeting was supported by the Cell Stress Society International (CSSI) and organized by Patricija Van Oosten-Hawle and Andrew Truman (University of North Carolina at Charlotte, USA) and Mehdi Mollapour (SUNY Upstate Medical University, USA). The goal of this symposium was to continue the theme from the initial meeting in 2020 by providing a platform for established researchers, new investigators, postdoctoral fellows, and students to present and exchange ideas on various topics on cellular stress and chaperones. We will summarize the highlights of the meeting here and recognize those that received recognition from the CSSI.

Published

2023

4. Swe1Wee1-dependent tyrosine phosphorylation of Hsp90 regulates distinct facets of chaperone function

Author

Mollapour, Mehdi, Tsutsumi, Shinji, Donnelly, Alison C., Beebe, Kristin, Tokita, Mari J., Lee, Min-Jung, Lee, Sunmin, Morra, Giulia, Bourboulia, Dimitra, Scroggins, Bradley T., Colombo, Giorgio, Blagg, Brian S., Panaretou, Barry, Stetler-Stevenson, William G., Trepel, Jane B., Piper, Peter W., Prodromou, Chrisostomos, Pearl, Laurence H., Neckers, Len, Mollapour, Mehdi, Tsutsumi, Shinji, Donnelly, Alison C., Beebe, Kristin, Tokita, Mari J., Lee, Min-Jung, Lee, Sunmin, Morra, Giulia, Bourboulia, Dimitra, Scroggins, Bradley T., Colombo, Giorgio, Blagg, Brian S., Panaretou, Barry, Stetler-Stevenson, William G., Trepel, Jane B., Piper, Peter W., Prodromou, Chrisostomos, Pearl, Laurence H., and Neckers, Len

Abstract

Saccharomyces WEE1 (Swe1), the only “true” tyrosine kinase in budding yeast, is an Hsp90 client protein. Here we show that Swe1Wee1 phosphorylates a conserved tyrosine residue (Y24 in yeast Hsp90 and Y38 in human Hsp90?) in the N domain of Hsp90. Phosphorylation is cell-cycle associated and modulates the ability of Hsp90 to chaperone a selected clientele, including v-Src and several other kinases. Nonphosphorylatable mutants have normal ATPase activity, support yeast viability, and productively chaperone the Hsp90 client glucocorticoid receptor. Deletion of SWE1 in yeast increases Hsp90 binding to its inhibitor geldanamycin, and pharmacologic inhibition/silencing of Wee1 sensitizes cancer cells to Hsp90 inhibitor-induced apoptosis. These findings demonstrate that Hsp90 chaperoning of distinct client proteins is differentially regulated by specific posttranslational modification of a unique subcellular pool of the chaperone, and they provide a strategy to increase the cellular potency of Hsp90 inhibitors.

Published

2010

5. Swe1Wee1-dependent tyrosine phosphorylation of Hsp90 regulates distinct facets of chaperone function

Author

Mollapour, Mehdi, Tsutsumi, Shinji, Donnelly, Alison C., Beebe, Kristin, Tokita, Mari J., Lee, Min-Jung, Lee, Sunmin, Morra, Giulia, Bourboulia, Dimitra, Scroggins, Bradley T., Colombo, Giorgio, Blagg, Brian S., Panaretou, Barry, Stetler-Stevenson, William G., Trepel, Jane B., Piper, Peter W., Prodromou, Chrisostomos, Pearl, Laurence H., Neckers, Len, Mollapour, Mehdi, Tsutsumi, Shinji, Donnelly, Alison C., Beebe, Kristin, Tokita, Mari J., Lee, Min-Jung, Lee, Sunmin, Morra, Giulia, Bourboulia, Dimitra, Scroggins, Bradley T., Colombo, Giorgio, Blagg, Brian S., Panaretou, Barry, Stetler-Stevenson, William G., Trepel, Jane B., Piper, Peter W., Prodromou, Chrisostomos, Pearl, Laurence H., and Neckers, Len

Abstract

Saccharomyces WEE1 (Swe1), the only “true” tyrosine kinase in budding yeast, is an Hsp90 client protein. Here we show that Swe1Wee1 phosphorylates a conserved tyrosine residue (Y24 in yeast Hsp90 and Y38 in human Hsp90?) in the N domain of Hsp90. Phosphorylation is cell-cycle associated and modulates the ability of Hsp90 to chaperone a selected clientele, including v-Src and several other kinases. Nonphosphorylatable mutants have normal ATPase activity, support yeast viability, and productively chaperone the Hsp90 client glucocorticoid receptor. Deletion of SWE1 in yeast increases Hsp90 binding to its inhibitor geldanamycin, and pharmacologic inhibition/silencing of Wee1 sensitizes cancer cells to Hsp90 inhibitor-induced apoptosis. These findings demonstrate that Hsp90 chaperoning of distinct client proteins is differentially regulated by specific posttranslational modification of a unique subcellular pool of the chaperone, and they provide a strategy to increase the cellular potency of Hsp90 inhibitors.

Published

2010

6. Swe1Wee1-dependent tyrosine phosphorylation of Hsp90 regulates distinct facets of chaperone function

Author

Mollapour, Mehdi, Tsutsumi, Shinji, Donnelly, Alison C., Beebe, Kristin, Tokita, Mari J., Lee, Min-Jung, Lee, Sunmin, Morra, Giulia, Bourboulia, Dimitra, Scroggins, Bradley T., Colombo, Giorgio, Blagg, Brian S., Panaretou, Barry, Stetler-Stevenson, William G., Trepel, Jane B., Piper, Peter W., Prodromou, Chrisostomos, Pearl, Laurence H., Neckers, Len, Mollapour, Mehdi, Tsutsumi, Shinji, Donnelly, Alison C., Beebe, Kristin, Tokita, Mari J., Lee, Min-Jung, Lee, Sunmin, Morra, Giulia, Bourboulia, Dimitra, Scroggins, Bradley T., Colombo, Giorgio, Blagg, Brian S., Panaretou, Barry, Stetler-Stevenson, William G., Trepel, Jane B., Piper, Peter W., Prodromou, Chrisostomos, Pearl, Laurence H., and Neckers, Len

Abstract

Saccharomyces WEE1 (Swe1), the only “true” tyrosine kinase in budding yeast, is an Hsp90 client protein. Here we show that Swe1Wee1 phosphorylates a conserved tyrosine residue (Y24 in yeast Hsp90 and Y38 in human Hsp90?) in the N domain of Hsp90. Phosphorylation is cell-cycle associated and modulates the ability of Hsp90 to chaperone a selected clientele, including v-Src and several other kinases. Nonphosphorylatable mutants have normal ATPase activity, support yeast viability, and productively chaperone the Hsp90 client glucocorticoid receptor. Deletion of SWE1 in yeast increases Hsp90 binding to its inhibitor geldanamycin, and pharmacologic inhibition/silencing of Wee1 sensitizes cancer cells to Hsp90 inhibitor-induced apoptosis. These findings demonstrate that Hsp90 chaperoning of distinct client proteins is differentially regulated by specific posttranslational modification of a unique subcellular pool of the chaperone, and they provide a strategy to increase the cellular potency of Hsp90 inhibitors.

Published

2010

7. Kaposi sarcoma herpesvirus-induced cellular reprogramming contributes to the lymphatic endothelial gene expression in Kaposi sarcoma.

Author

Wang, Hsei-Wei, Trotter, Matthew W B, Lagos, Dimitrios, Bourboulia, Dimitra, Henderson, Stephen, Mäkinen, Taija, Elliman, Stephen, Flanagan, Adrienne M, Alitalo, Kari, Boshoff, Chris, Wang, Hsei-Wei, Trotter, Matthew W B, Lagos, Dimitrios, Bourboulia, Dimitra, Henderson, Stephen, Mäkinen, Taija, Elliman, Stephen, Flanagan, Adrienne M, Alitalo, Kari, and Boshoff, Chris

Abstract

The biology of Kaposi sarcoma is poorly understood because the dominant cell type in Kaposi sarcoma lesions is not known. We show by gene expression microarrays that neoplastic cells of Kaposi sarcoma are closely related to lymphatic endothelial cells (LECs) and that Kaposi sarcoma herpesvirus (KSHV) infects both LECs and blood vascular endothelial cells (BECs) in vitro. The gene expression microarray profiles of infected LECs and BECs show that KSHV induces transcriptional reprogramming of both cell types. The lymphangiogenic molecules VEGF-D and angiopoietin-2 were elevated in the plasma of individuals with acquired immune deficiency syndrome and Kaposi sarcoma. These data show that the gene expression profile of Kaposi sarcoma resembles that of LECs, that KSHV induces a transcriptional drift in both LECs and BECs and that lymphangiogenic molecules are involved in the pathogenesis of Kaposi sarcoma.

Published

2004

8. Antibodies against human herpesvirus 8 in black South African patients with cancer

Author

Sitas, Freddy, Carrara, Henri, Beral, Valerie, Newton, Rob, Reeves, Gillian, Bull, Diana, Jentsch, Ute, Pacella-Norman, Rosana, Bourboulia, Dimitra, Whitby, Denise, Boshoff, Chris, Weiss, Robin, Patel, Moosa, Ruff, Paul, Bezwoda, Werner R., Retter, Edna, Hale, Martin, Sitas, Freddy, Carrara, Henri, Beral, Valerie, Newton, Rob, Reeves, Gillian, Bull, Diana, Jentsch, Ute, Pacella-Norman, Rosana, Bourboulia, Dimitra, Whitby, Denise, Boshoff, Chris, Weiss, Robin, Patel, Moosa, Ruff, Paul, Bezwoda, Werner R., Retter, Edna, and Hale, Martin

Abstract

Background Infection with human herpesvirus 8 (HHV-8) has been consistently linked to Kaposi's sarcoma, but its mode of transmission, association with other cancers, and interaction with the human immunodeficiency virus type 1 (HIV-1) are largely unknown. Methods Between January 1992 and December 1997, we interviewed 3591 black patients with cancer in Johannesburg and Soweto, South Africa. Blood was tested for antibodies against HIV-1 and HHV-8 in 3344 of the patients. Antibodies against HHV-8 were detected with an indirect immunofluorescence assay. The intensity of the fluorescent signal correlated well with the titers of antibodies (P<0.001). The relations among the presence of anti–HHV-8 antibodies, sociodemographic and behavioral factors, type of cancer, and the presence or absence of coexistent HIV-1 infection were examined with the use of unconditional logistic-regression models. Results Among the 3293 subjects with cancers other than Kaposi's sarcoma, the standardized seroprevalence of antibodies against HHV-8 was 32 percent, which did not differ significantly from the standardized seroprevalence among black blood donors. Among these 3293 patients, the prevalence of antibodies against HHV-8 increased with increasing age (P<0.001) and an increasing number of sexual partners (P=0.05) and decreased with increasing years of education (P=0.007); it was not strongly associated with HIV-1 infection. Anti–HHV-8 antibodies were more frequent among black than white blood donors (P<0.001). Among the 51 patients with Kaposi's sarcoma, the standardized seroprevalence of antibodies against HHV-8 was 83 percent, significantly higher than the prevalence among those without Kaposi's sarcoma (P<0.001). For 16 other specific types of cancer, including multiple myeloma (108 cases) and prostate cancer (202 cases), the variation in the standardized seroprevalence of antibodies against HHV-8 was not remarkable. At a given intensity of fluorescence of anti–HHV-8 antibodies, Kaposi's

Published

1999