Your search keyword '"Rivas, Candy"' showing total 5 results

1. Development and Testing of Pharmacological Tools to Evaluate the Role of Protease-Activated Receptor-2 in Allergic Asthma

Author

Burt, Janis M., Fregosi, Ralph F., Vanderah, Todd W., Ledford, Julie G., Rivas, Candy Mavis, Burt, Janis M., Fregosi, Ralph F., Vanderah, Todd W., Ledford, Julie G., and Rivas, Candy Mavis

Abstract

Despite the variety of asthma pharmacotherapy options that exist, a large subset of asthma patients present with poorly controlled disease. Extensive studies supporting a central role for Protease-Activated Receptor-2 (PAR2) in allergic asthma pathophysiology have promoted drug development efforts towards this molecular target. I report here that PAR2 antagonist C391 blocks signaling and symptoms caused by the asthma causing allergen Alternaria alternata. I show C391 effectively inhibits A. alternata-induced PAR2-MAPK and -Ca2+ signaling in vitro and attenuates asthma symptom development (e.g. airway hyperresponsiveness, excessive mucus production, and inflammation) in a murine model of asthma. Use of in vitro studies enable the cell-specific examination of PAR2 contribution to A. alternata-induced airway inflammation. I show PAR2 signaling plays an important role in the initiation of asthma through the finding that PAR2 signaling is required for full cytokine and chemokine release from A. alternata-exposed epithelial cells when I compare release from parental cells and CRISPR-produced PAR2 knockout cells. C391 inhibition of PAR2 signaling in A. alternata-induced lymphocyte migration reveal PAR2 signaling is required for effective chemotaxis. Finally, I show development and screening of three novel PAR2 ligands, C732, C781 and C782. Cell impedance screening and PAR2 binding assessment highlight C781 as a lead compound for asthma therapy. Further PAR2 signaling characterization reveals C781 to be a PAR2-specific, biased MAPK antagonist. My studies demonstrate for the first time that a PAR2-specific antagonist provides pharmacological control of asthma in a pre-clinical model and presents novel lead compounds for improved drug development.

Published

2019

2. The HSP90 Inhibitor Ganetespib Synergizes with the MET Kinase Inhibitor Crizotinib in both Crizotinib-Sensitive and -Resistant MET-Driven Tumor Models

Author

Miyajima, Naoto, Tsutsumi, Shinji, Sourbier, Carole, Beebe, Kristin, Mollapour, Mehdi, Rivas, Candy, Yoshida, Soichiro, Trepel, Jane B., Huang, Ying, Tatokoro, Manabu, Shinohara, Nobuo, Nonomura, Katsuya, Neckers, Len, Miyajima, Naoto, Tsutsumi, Shinji, Sourbier, Carole, Beebe, Kristin, Mollapour, Mehdi, Rivas, Candy, Yoshida, Soichiro, Trepel, Jane B., Huang, Ying, Tatokoro, Manabu, Shinohara, Nobuo, Nonomura, Katsuya, and Neckers, Len

Abstract

The proto-oncogene MET is aberrantly activated via overexpression or mutation in numerous cancers, making it a prime anticancer molecular target. However, the clinical success of MET-directed tyrosine kinase inhibitors (TKI) has been limited due, in part, to mutations in the MET kinase domain that confer therapeutic resistance. Circumventing this problem remains a key challenge to improving durable responses in patients receiving MET-targeted therapy. MET is an HSP90-dependent kinase, and in this report we show that HSP90 preferentially interacts with and stabilizes activated MET, regardless of whether the activation is ligand-dependent or is a consequence of kinase domain mutation. In contrast, many MET-TKI show a preference for the inactive form of the kinase, and activating mutations in MET can confer resistance. Combining the HSP90 inhibitor ganetespib with the MET-TKI crizotinib achieves synergistic inhibition of MET, its downstream signaling pathways, and tumor growth in both TKI-sensitive and -resistant MET-driven tumor models. These data suggest that inclusion of an HSP90 inhibitor can partially restore TKI sensitivity to previously resistant MET mutants, and they provide the foundation for clinical evaluation of this therapeutic combination in patients with MET-driven cancers. (C)2013 AACR.

Published

2013

3. The HSP90 Inhibitor Ganetespib Synergizes with the MET Kinase Inhibitor Crizotinib in both Crizotinib-Sensitive and -Resistant MET-Driven Tumor Models

Author

Miyajima, Naoto, Tsutsumi, Shinji, Sourbier, Carole, Beebe, Kristin, Mollapour, Mehdi, Rivas, Candy, Yoshida, Soichiro, Trepel, Jane B., Huang, Ying, Tatokoro, Manabu, Shinohara, Nobuo, Nonomura, Katsuya, Neckers, Len, Miyajima, Naoto, Tsutsumi, Shinji, Sourbier, Carole, Beebe, Kristin, Mollapour, Mehdi, Rivas, Candy, Yoshida, Soichiro, Trepel, Jane B., Huang, Ying, Tatokoro, Manabu, Shinohara, Nobuo, Nonomura, Katsuya, and Neckers, Len

Abstract

The proto-oncogene MET is aberrantly activated via overexpression or mutation in numerous cancers, making it a prime anticancer molecular target. However, the clinical success of MET-directed tyrosine kinase inhibitors (TKI) has been limited due, in part, to mutations in the MET kinase domain that confer therapeutic resistance. Circumventing this problem remains a key challenge to improving durable responses in patients receiving MET-targeted therapy. MET is an HSP90-dependent kinase, and in this report we show that HSP90 preferentially interacts with and stabilizes activated MET, regardless of whether the activation is ligand-dependent or is a consequence of kinase domain mutation. In contrast, many MET-TKI show a preference for the inactive form of the kinase, and activating mutations in MET can confer resistance. Combining the HSP90 inhibitor ganetespib with the MET-TKI crizotinib achieves synergistic inhibition of MET, its downstream signaling pathways, and tumor growth in both TKI-sensitive and -resistant MET-driven tumor models. These data suggest that inclusion of an HSP90 inhibitor can partially restore TKI sensitivity to previously resistant MET mutants, and they provide the foundation for clinical evaluation of this therapeutic combination in patients with MET-driven cancers. (C)2013 AACR.

Published

2013

4. The HSP90 Inhibitor Ganetespib Synergizes with the MET Kinase Inhibitor Crizotinib in both Crizotinib-Sensitive and -Resistant MET-Driven Tumor Models

Author

Miyajima, Naoto, Tsutsumi, Shinji, Sourbier, Carole, Beebe, Kristin, Mollapour, Mehdi, Rivas, Candy, Yoshida, Soichiro, Trepel, Jane B., Huang, Ying, Tatokoro, Manabu, 1000090250422, Shinohara, Nobuo, 1000060113750, Nonomura, Katsuya, Neckers, Len, Miyajima, Naoto, Tsutsumi, Shinji, Sourbier, Carole, Beebe, Kristin, Mollapour, Mehdi, Rivas, Candy, Yoshida, Soichiro, Trepel, Jane B., Huang, Ying, Tatokoro, Manabu, 1000090250422, Shinohara, Nobuo, 1000060113750, Nonomura, Katsuya, and Neckers, Len

Abstract

The proto-oncogene MET is aberrantly activated via overexpression or mutation in numerous cancers, making it a prime anticancer molecular target. However, the clinical success of MET-directed tyrosine kinase inhibitors (TKI) has been limited due, in part, to mutations in the MET kinase domain that confer therapeutic resistance. Circumventing this problem remains a key challenge to improving durable responses in patients receiving MET-targeted therapy. MET is an HSP90-dependent kinase, and in this report we show that HSP90 preferentially interacts with and stabilizes activated MET, regardless of whether the activation is ligand-dependent or is a consequence of kinase domain mutation. In contrast, many MET-TKI show a preference for the inactive form of the kinase, and activating mutations in MET can confer resistance. Combining the HSP90 inhibitor ganetespib with the MET-TKI crizotinib achieves synergistic inhibition of MET, its downstream signaling pathways, and tumor growth in both TKI-sensitive and -resistant MET-driven tumor models. These data suggest that inclusion of an HSP90 inhibitor can partially restore TKI sensitivity to previously resistant MET mutants, and they provide the foundation for clinical evaluation of this therapeutic combination in patients with MET-driven cancers. (C)2013 AACR.

Published

2013

5. The HSP90 Inhibitor Ganetespib Synergizes with the MET Kinase Inhibitor Crizotinib in both Crizotinib-Sensitive and -Resistant MET-Driven Tumor Models

Author

Miyajima, Naoto, Tsutsumi, Shinji, Sourbier, Carole, Beebe, Kristin, Mollapour, Mehdi, Rivas, Candy, Yoshida, Soichiro, Trepel, Jane B., Huang, Ying, Tatokoro, Manabu, Shinohara, Nobuo, Nonomura, Katsuya, Neckers, Len, Miyajima, Naoto, Tsutsumi, Shinji, Sourbier, Carole, Beebe, Kristin, Mollapour, Mehdi, Rivas, Candy, Yoshida, Soichiro, Trepel, Jane B., Huang, Ying, Tatokoro, Manabu, Shinohara, Nobuo, Nonomura, Katsuya, and Neckers, Len

Abstract

The proto-oncogene MET is aberrantly activated via overexpression or mutation in numerous cancers, making it a prime anticancer molecular target. However, the clinical success of MET-directed tyrosine kinase inhibitors (TKI) has been limited due, in part, to mutations in the MET kinase domain that confer therapeutic resistance. Circumventing this problem remains a key challenge to improving durable responses in patients receiving MET-targeted therapy. MET is an HSP90-dependent kinase, and in this report we show that HSP90 preferentially interacts with and stabilizes activated MET, regardless of whether the activation is ligand-dependent or is a consequence of kinase domain mutation. In contrast, many MET-TKI show a preference for the inactive form of the kinase, and activating mutations in MET can confer resistance. Combining the HSP90 inhibitor ganetespib with the MET-TKI crizotinib achieves synergistic inhibition of MET, its downstream signaling pathways, and tumor growth in both TKI-sensitive and -resistant MET-driven tumor models. These data suggest that inclusion of an HSP90 inhibitor can partially restore TKI sensitivity to previously resistant MET mutants, and they provide the foundation for clinical evaluation of this therapeutic combination in patients with MET-driven cancers. (C)2013 AACR.

Published

2013