Your search keyword '"Erdin, Serkan"' showing total 5 results

1. Brigatinib causes tumor shrinkage in both NF2-deficient meningioma and schwannoma through inhibition of multiple tyrosine kinases but not ALK.

Author

Chang, Long-Sheng, Oblinger, Janet L., Smith, Abbi E., Ferrer, Marc, Angus, Steven P., Hawley, Eric, Petrilli, Alejandra M., Beauchamp, Roberta L., Riecken, Lars Björn, Erdin, Serkan, Poi, Ming, Huang, Jie, Bessler, Waylan K., Zhang, Xiaohu, Guha, Rajarshi, Thomas, Craig, Burns, Sarah S., Gilbert, Thomas S. K., Jiang, Li, and Li, Xiaohong

Subjects

PROTEIN-tyrosine kinases, FOCAL adhesion kinase, HIGH throughput screening (Drug development), KINASES, NEUROFIBROMATOSIS 2, TYROSINE, TUMOR suppressor genes

Abstract

Neurofibromatosis Type 2 (NF2) is an autosomal dominant genetic syndrome caused by mutations in the NF2 tumor suppressor gene resulting in multiple schwannomas and meningiomas. There are no FDA approved therapies for these tumors and their relentless progression results in high rates of morbidity and mortality. Through a combination of high throughput screens, preclinical in vivo modeling, and evaluation of the kinome en masse, we identified actionable drug targets and efficacious experimental therapeutics for the treatment of NF2 related schwannomas and meningiomas. These efforts identified brigatinib (ALUNBRIG®), an FDA-approved inhibitor of multiple tyrosine kinases including ALK, to be a potent inhibitor of tumor growth in established NF2 deficient xenograft meningiomas and a genetically engineered murine model of spontaneous NF2 schwannomas. Surprisingly, neither meningioma nor schwannoma cells express ALK. Instead, we demonstrate that brigatinib inhibited multiple tyrosine kinases, including EphA2, Fer and focal adhesion kinase 1 (FAK1). These data demonstrate the power of the de novo unbiased approach for drug discovery and represents a major step forward in the advancement of therapeutics for the treatment of NF2 related malignancies. [ABSTRACT FROM AUTHOR]

Published

2021

2. Traditional and systems biology based drug discovery for the rare tumor syndrome neurofibromatosis type 2.

Author

null, null, Allaway, Robert, Angus, Steve P., Beauchamp, Roberta L., Blakeley, Jaishri O., Bott, Marga, Burns, Sarah S., Carlstedt, Annemarie, Chang, Long-Sheng, Chen, Xin, Clapp, D. Wade, Desouza, Patrick A., Erdin, Serkan, Fernandez-Valle, Cristina, Guinney, Justin, Gusella, James F., Haggarty, Stephen J., Johnson, Gary L., La Rosa, Salvatore, and Morrison, Helen

Subjects

SYSTEMS biology, NEUROFIBROMATOSIS 2, TUMOR suppressor genes, SCHWANNOMAS, NEOPLASTIC cell transformation

Abstract

Neurofibromatosis 2 (NF2) is a rare tumor suppressor syndrome that manifests with multiple schwannomas and meningiomas. There are no effective drug therapies for these benign tumors and conventional therapies have limited efficacy. Various model systems have been created and several drug targets have been implicated in NF2-driven tumorigenesis based on known effects of the absence of merlin, the product of the NF2 gene. We tested priority compounds based on known biology with traditional dose-concentration studies in meningioma and schwann cell systems. Concurrently, we studied functional kinome and gene expression in these cells pre- and post-treatment to determine merlin deficient molecular phenotypes. Cell viability results showed that three agents (GSK2126458, Panobinostat, CUDC-907) had the greatest activity across schwannoma and meningioma cell systems, but merlin status did not significantly influence response. In vivo, drug effect was tumor specific with meningioma, but not schwannoma, showing response to GSK2126458 and Panobinostat. In culture, changes in both the transcriptome and kinome in response to treatment clustered predominantly based on tumor type. However, there were differences in both gene expression and functional kinome at baseline between meningioma and schwannoma cell systems that may form the basis for future selective therapies. This work has created an openly accessible resource () of fully characterized isogenic schwannoma and meningioma cell systems as well as a rich data source of kinome and transcriptome data from these assay systems before and after treatment that enables single and combination drug discovery based on molecular phenotype. [ABSTRACT FROM AUTHOR]

Published

2018

3. Accurate Protein Structure Annotation through Competitive Diffusion of Enzymatic Functions over a Network of Local Evolutionary Similarities

Author

Venner, Eric, primary, Lisewski, Andreas Martin, additional, Erdin, Serkan, additional, Ward, R. Matthew, additional, Amin, Shivas R., additional, and Lichtarge, Olivier, additional

Published

2010

4. De-Orphaning the Structural Proteome through Reciprocal Comparison of Evolutionarily Important Structural Features

Author

Ward, R. Matthew, primary, Erdin, Serkan, additional, Tran, Tuan A., additional, Kristensen, David M., additional, Lisewski, Andreas Martin, additional, and Lichtarge, Olivier, additional

Published

2008

5. Traditional and systems biology based drug discovery for the rare tumor syndrome neurofibromatosis type 2.

Author

Allaway R, Angus SP, Beauchamp RL, Blakeley JO, Bott M, Burns SS, Carlstedt A, Chang LS, Chen X, Clapp DW, Desouza PA, Erdin S, Fernandez-Valle C, Guinney J, Gusella JF, Haggarty SJ, Johnson GL, La Rosa S, Morrison H, Petrilli AM, Plotkin SR, Pratap A, Ramesh V, Sciaky N, Stemmer-Rachamimov A, Stuhlmiller TJ, Talkowski ME, Welling DB, Yates CW, Zawistowski JS, and Zhao WN

Subjects

Animals, Carcinogenesis genetics, Cell Line, Tumor, Cell Survival drug effects, Gene Expression Regulation, Neoplastic, Humans, Meningeal Neoplasms drug therapy, Meningeal Neoplasms pathology, Mice, Morpholines pharmacology, Neurilemmoma drug therapy, Neurilemmoma pathology, Neurofibromatosis 2 drug therapy, Neurofibromatosis 2 pathology, Panobinostat pharmacology, Pyridazines, Pyrimidines pharmacology, Quinolines pharmacology, Sulfonamides pharmacology, Systems Biology, Transcriptome genetics, Meningeal Neoplasms genetics, Neurilemmoma genetics, Neurofibromatosis 2 genetics, Neurofibromin 2 genetics

Abstract

Neurofibromatosis 2 (NF2) is a rare tumor suppressor syndrome that manifests with multiple schwannomas and meningiomas. There are no effective drug therapies for these benign tumors and conventional therapies have limited efficacy. Various model systems have been created and several drug targets have been implicated in NF2-driven tumorigenesis based on known effects of the absence of merlin, the product of the NF2 gene. We tested priority compounds based on known biology with traditional dose-concentration studies in meningioma and schwann cell systems. Concurrently, we studied functional kinome and gene expression in these cells pre- and post-treatment to determine merlin deficient molecular phenotypes. Cell viability results showed that three agents (GSK2126458, Panobinostat, CUDC-907) had the greatest activity across schwannoma and meningioma cell systems, but merlin status did not significantly influence response. In vivo, drug effect was tumor specific with meningioma, but not schwannoma, showing response to GSK2126458 and Panobinostat. In culture, changes in both the transcriptome and kinome in response to treatment clustered predominantly based on tumor type. However, there were differences in both gene expression and functional kinome at baseline between meningioma and schwannoma cell systems that may form the basis for future selective therapies. This work has created an openly accessible resource (www.synapse.org/SynodosNF2) of fully characterized isogenic schwannoma and meningioma cell systems as well as a rich data source of kinome and transcriptome data from these assay systems before and after treatment that enables single and combination drug discovery based on molecular phenotype., Competing Interests: The authors have declared that no competing interests exist.

Published

2018