Your search keyword '"Cubas P"' showing total 8 results

1. Axl, a prognostic and therapeutic target in acute myeloid leukemia mediates paracrine crosstalk of leukemia cells with bone marrow stroma

Author

Ben-Batalla, Isabel, Schultze, Alexander, Wroblewski, Mark, Erdmann, Robert, Heuser, Michael, Waizenegger, Jonas S., Riecken, Kristoffer, Binder, Mascha, Schewe, Denis, Sawall, Stefanie, Witzke, Victoria, Cubas-Cordova, Miguel, Janning, Melanie, Wellbrock, Jasmin, Fehse, Boris, Hagel, Christian, Krauter, Jürgen, Ganser, Arnold, Lorens, James B., Fiedler, Walter, Carmeliet, Peter, Pantel, Klaus, Bokemeyer, Carsten, and Loges, Sonja

Abstract

Acute myeloid leukemia (AML) represents a clonal disease of hematopoietic progenitors characterized by acquired heterogenous genetic changes that alter normal mechanisms of proliferation, self-renewal, and differentiation.1 Although 40% to 45% of patients younger than 65 years of age can be cured with current therapies, only 10% of older patients reach long-term survival.1 Because only very few novel AML drugs were approved in the past 2 decades, there is an urgent need to identify novel targets and therapeutic strategies to treat underserved AML patients. We report here that Axl, a member of the Tyro3, Axl, Mer receptor tyrosine kinase family,2-4 represents an independent prognostic marker and therapeutic target in AML. AML cells induce expression and secretion of the Axl ligand growth arrest–specific gene 6 (Gas6) by bone marrow–derived stromal cells (BMDSCs). Gas6 in turn mediates proliferation, survival, and chemoresistance of Axl-expressing AML cells. This Gas6-Axl paracrine axis between AML cells and BMDSCs establishes a chemoprotective tumor cell niche that can be abrogated by Axl-targeting approaches. Axl inhibition is active in FLT3-mutated and FLT3 wild-type AML, improves clinically relevant end points, and its efficacy depends on presence of Gas6 and Axl. Axl inhibition alone or in combination with chemotherapy might represent a novel therapeutic avenue for AML.

Published

2013

2. Axl, a prognostic and therapeutic target in acute myeloid leukemia mediates paracrine crosstalk of leukemia cells with bone marrow stroma

Author

Ben-Batalla, Isabel, Schultze, Alexander, Wroblewski, Mark, Erdmann, Robert, Heuser, Michael, Waizenegger, Jonas S., Riecken, Kristoffer, Binder, Mascha, Schewe, Denis, Sawall, Stefanie, Witzke, Victoria, Cubas-Cordova, Miguel, Janning, Melanie, Wellbrock, Jasmin, Fehse, Boris, Hagel, Christian, Krauter, Jürgen, Ganser, Arnold, Lorens, James B., Fiedler, Walter, Carmeliet, Peter, Pantel, Klaus, Bokemeyer, Carsten, and Loges, Sonja

Abstract

Acute myeloid leukemia (AML) represents a clonal disease of hematopoietic progenitors characterized by acquired heterogenous genetic changes that alter normal mechanisms of proliferation, self-renewal, and differentiation.1Although 40% to 45% of patients younger than 65 years of age can be cured with current therapies, only 10% of older patients reach long-term survival.1Because only very few novel AML drugs were approved in the past 2 decades, there is an urgent need to identify novel targets and therapeutic strategies to treat underserved AML patients. We report here that Axl, a member of the Tyro3, Axl, Mer receptor tyrosine kinase family,2-4represents an independent prognostic marker and therapeutic target in AML. AML cells induce expression and secretion of the Axl ligand growth arrest–specific gene 6 (Gas6) by bone marrow–derived stromal cells (BMDSCs). Gas6 in turn mediates proliferation, survival, and chemoresistance of Axl-expressing AML cells. This Gas6-Axl paracrine axis between AML cells and BMDSCs establishes a chemoprotective tumor cell niche that can be abrogated by Axl-targeting approaches. Axl inhibition is active in FLT3-mutated and FLT3 wild-type AML, improves clinically relevant end points, and its efficacy depends on presence of Gas6 and Axl. Axl inhibition alone or in combination with chemotherapy might represent a novel therapeutic avenue for AML.

Published

2013

3. Impaired T-cell responses to sphingosine-1-phosphate in HIV-1 infected lymph nodes

Author

Mudd, Joseph C., Murphy, Patrick, Manion, Maura, Debernardo, Robert, Hardacre, Jeffrey, Ammori, John, Hardy, Gareth A., Harding, Clifford V., Mahabaleshwar, Ganapati H., Jain, Mukesh K., Jacobson, Jeffrey M., Brooks, Ari D., Lewis, Sharon, Schacker, Timothy W., Anderson, Jodi, Haddad, Elias K., Cubas, Rafael A., Rodriguez, Benigno, Sieg, Scott F., and Lederman, Michael M.

Abstract

The determinants of HIV-1-associated lymphadenopathy are poorly understood. We hypothesized that lymphocytes could be sequestered in the HIV-1+ lymph node (LN) through impairments in sphingosine-1-phosphate (S1P) responsiveness. To test this hypothesis, we developed novel assays for S1P-induced Akt phosphorylation and actin polymerization. In the HIV-1+ LN, naïve CD4 T cells and central memory CD4 and CD8 T cells had impaired Akt phosphorylation in response to S1P, whereas actin polymerization responses to S1P were impaired dramatically in all LN maturation subsets. These defects were improved with antiretroviral therapy. LN T cells expressing CD69 were unable to respond to S1P in either assay, yet impaired S1P responses were also seen in HIV-1+ LN T cells lacking CD69 expression. Microbial elements, HIV-1, and interferon α – putative drivers of HIV-1associated immune activation all tended to increase CD69 expression and reduce T-cell responses to S1P in vitro. Impairment in T-cell egress from lymph nodes through decreased S1P responsiveness may contribute to HIV-1-associated LN enlargement and to immune dysregulation in a key organ of immune homeostasis.

Published

2013

4. Impaired T-cell responses to sphingosine-1-phosphate in HIV-1 infected lymph nodes

Author

Mudd, Joseph C., Murphy, Patrick, Manion, Maura, Debernardo, Robert, Hardacre, Jeffrey, Ammori, John, Hardy, Gareth A., Harding, Clifford V., Mahabaleshwar, Ganapati H., Jain, Mukesh K., Jacobson, Jeffrey M., Brooks, Ari D., Lewis, Sharon, Schacker, Timothy W., Anderson, Jodi, Haddad, Elias K., Cubas, Rafael A., Rodriguez, Benigno, Sieg, Scott F., and Lederman, Michael M.

Abstract

The determinants of HIV-1-associated lymphadenopathy are poorly understood. We hypothesized that lymphocytes could be sequestered in the HIV-1+ lymph node (LN) through impairments in sphingosine-1-phosphate (S1P) responsiveness. To test this hypothesis, we developed novel assays for S1P-induced Akt phosphorylation and actin polymerization. In the HIV-1+ LN, naïve CD4 T cells and central memory CD4 and CD8 T cells had impaired Akt phosphorylation in response to S1P, whereas actin polymerization responses to S1P were impaired dramatically in all LN maturation subsets. These defects were improved with antiretroviral therapy. LN T cells expressing CD69 were unable to respond to S1P in either assay, yet impaired S1P responses were also seen in HIV-1+ LN T cells lacking CD69 expression. Microbial elements, HIV-1, and interferon α – putative drivers of HIV-1associated immune activation all tended to increase CD69 expression and reduce T-cell responses to S1P in vitro. Impairment in T-cell egress from lymph nodes through decreased S1P responsiveness may contribute to HIV-1-associated LN enlargement and to immune dysregulation in a key organ of immune homeostasis.

Published

2013

5. BGB324 Represents an Axl and BCR-ABL1 Inhibitor with Activity in the T315I Mutant

Author

Erdmann, Robert, Jorgensen, Heather, Ben-Batalla, Isabel, Kruse, Nils, Micklem, David, von Amsberg, Gunhild, Schafhausen, Philippe, Schultze, Alexander, Wroblewski, Mark, Binder, Mascha, Cubas-Cordova, Miguel, Hadlich, Tobias, Janning, Melanie, Sawall, Stefanie, Gensch, Victoria, Allan, Elaine K, Mukherjee, Leena, Morrison, Heather, Cassells, Jennifer, Kroeger, Nicolaus, Lorens, James, Clark, Richard E., Koschmieder, Steffen, Vandenberghe, Peter, Brümmendorf, Tim H., Hochhaus, Andreas, Carmeliet, Peter, Holyoake, Tessa L., Pantel, Klaus, Bokemeyer, Carsten, and Loges, Sonja

Abstract

Loges: BerGenBio: Research Funding, travel support, advisory boards Other.

Published

2014

6. BGB324 Represents an Axl and BCR-ABL1 Inhibitor with Activity in the T315I Mutant

Author

Erdmann, Robert, Jorgensen, Heather, Ben-Batalla, Isabel, Kruse, Nils, Micklem, David, von Amsberg, Gunhild, Schafhausen, Philippe, Schultze, Alexander, Wroblewski, Mark, Binder, Mascha, Cubas-Cordova, Miguel, Hadlich, Tobias, Janning, Melanie, Sawall, Stefanie, Gensch, Victoria, Allan, Elaine K, Mukherjee, Leena, Morrison, Heather, Cassells, Jennifer, Kroeger, Nicolaus, Lorens, James, Clark, Richard E., Koschmieder, Steffen, Vandenberghe, Peter, Brümmendorf, Tim H., Hochhaus, Andreas, Carmeliet, Peter, Holyoake, Tessa L., Pantel, Klaus, Bokemeyer, Carsten, and Loges, Sonja

Abstract

BCR-ABL1 inhibitors have revolutionized the treatment of CML patients. However several drawbacks remain, including clinical resistance of T315I-mutated CML. Further, the clinical success of ponatinib, a selective inhibitor of T315I-mutated BCR-ABL1 is hampered by vascular side effects. Therefore, novel treatment strategies are warranted especially in T315I-mutated CML.

Published

2014

7. Axl Represents a Therapeutic Target In T315I-Mutated and WT Chronic Myeloid Leukemia

Author

Erdmann, Robert, Jorgensen, Heather, Schultze, Alexander, von Amsberg, Gunhild, Ben-Battala, Isabel, Wroblewski, Mark, Cordova, Miguel Cubas, Sawall, Stefanie, Witzke, Victoria, Allan, Elaine K, Mukherjee, Leena, Morrison, Heather, Cassels, Jennifer, Schafhausen, Philippe, Kroeger, Nicolaus, Lorens, James, Clark, Richard E., Vandenberghe, Peter, Brümmendorf, Tim H., Hochhaus, Andreas, Carmeliet, Peter, Pantel, Klaus, Bokemeyer, Carsten, Holyoake, Tessa L., and Loges, Sonja

Abstract

Loges: BerGenBio: research support Other.

Published

2013

8. Axl Represents a Therapeutic Target In T315I-Mutated and WT Chronic Myeloid Leukemia

Author

Erdmann, Robert, Jorgensen, Heather, Schultze, Alexander, von Amsberg, Gunhild, Ben-Battala, Isabel, Wroblewski, Mark, Cordova, Miguel Cubas, Sawall, Stefanie, Witzke, Victoria, Allan, Elaine K, Mukherjee, Leena, Morrison, Heather, Cassels, Jennifer, Schafhausen, Philippe, Kroeger, Nicolaus, Lorens, James, Clark, Richard E., Vandenberghe, Peter, Brümmendorf, Tim H., Hochhaus, Andreas, Carmeliet, Peter, Pantel, Klaus, Bokemeyer, Carsten, Holyoake, Tessa L., and Loges, Sonja

Abstract

BCR-ABL1 inhibitors have revolutionized treatment of CML patients. However several drawbacks remain, including therapy resistance of T315I-mutated CML and incapability of current drugs to eliminate quiescent CML stem cells warranting development of novel therapies. In addition, drugs with the potential to enhance efficacy of BCR-ABL1 targeting agents could improve treatment of CML patients. Members of the Tyro3, Axl, Mer receptor (TAMR) tyrosine kinase family are abundantly expressed in physiological and malignant hematopoiesis and their ligand Gas6 can support hematopoietic (progenitor) cells. Evidence in the literature indicates that Axl is upregulated upon treatment with imatinib (IM).

Published

2013