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409 results on '"Baloglu, Erkan"'

1. Anticancer Efficacy of KRASG12C Inhibitors Is Potentiated by PAK4 Inhibitor KPT9274 in Preclinical Models of KRASG12C-Mutant Pancreatic and Lung Cancers.

Author

Khan, Husain, Aboukameel, Amro, Alkhalili, Osama, Uddin, Md, Bannoura, Sahar, Mzannar, Yousef, Azar, Ibrahim, Beal, Eliza, Tobon, Miguel, Kim, Steve, Beydoun, Rafic, Baloglu, Erkan, Senapedis, William, El-Rayes, Bassel, Philip, Philip, Mohammad, Ramzi, Shields, Anthony, Al Hallak, Mohammed, Azmi, Asfar, and Nagasaka, Misako

Subjects
Humans, Lung Neoplasms, Carcinoma, Non-Small-Cell Lung, Protein Kinase Inhibitors, Pancreatic Neoplasms, Carcinoma, Pancreatic Ductal, Proto-Oncogene Proteins p21(ras), p21-Activated Kinases
Abstract

KRASG12C inhibitors, such as sotorasib and adagrasib, have revolutionized cancer treatment for patients with KRASG12C-mutant tumors. However, patients receiving these agents as monotherapy often develop drug resistance. To address this issue, we evaluated the combination of the PAK4 inhibitor KPT9274 and KRASG12C inhibitors in preclinical models of pancreatic ductal adenocarcinoma (PDAC) and non-small cell lung cancer (NSCLC). PAK4 is a hub molecule that links several major signaling pathways and is known for its tumorigenic role in mutant Ras-driven cancers. We found that cancer cells resistant to KRASG12C inhibitor were sensitive to KPT9274-induced growth inhibition. Furthermore, KPT9274 synergized with sotorasib and adagrasib to inhibit the growth of KRASG12C-mutant cancer cells and reduce their clonogenic potential. Mechanistically, this combination suppressed cell growth signaling and downregulated cell-cycle markers. In a PDAC cell line-derived xenograft (CDX) model, the combination of a suboptimal dose of KPT9274 with sotorasib significantly reduced the tumor burden (P= 0.002). Similarly, potent antitumor efficacy was observed in an NSCLC CDX model, in which KPT9274, given as maintenance therapy, prevented tumor relapse following the discontinuation of sotorasib treatment (P= 0.0001). Moreover, the combination of KPT9274 and sotorasib enhances survival. In conclusion, this is the first study to demonstrate that KRASG12C inhibitors can synergize with the PAK4 inhibitor KPT9274 and combining KRASG12C inhibitors with KPT9274 can lead to remarkably enhanced antitumor activity and survival benefits, providing a novel combination therapy for patients with cancer who do not respond or develop resistance to KRASG12C inhibitor treatment.

Published
2023

3. Publisher Correction: PAK4 inhibition improves PD-1 blockade immunotherapy

Author

Abril-Rodriguez, Gabriel, Torrejon, Davis Y, Liu, Wei, Zaretsky, Jesse M, Nowicki, Theodore S, Tsoi, Jennifer, Puig-Saus, Cristina, Baselga-Carretero, Ignacio, Medina, Egmidio, Quist, Michael J, Garcia, Alejandro J, Senapedis, William, Baloglu, Erkan, Kalbasi, Anusha, Cheung-Lau, Gardenia, Berent-Maoz, Beata, Comin-Anduix, Begoña, Hu-Lieskovan, Siwen, Wang, Cun-Yu, Grasso, Catherine S, and Ribas, Antoni

Published
2020

4. PAK4 inhibition improves PD-1 blockade immunotherapy

Author

Abril-Rodriguez, Gabriel, Torrejon, Davis Y, Liu, Wei, Zaretsky, Jesse M, Nowicki, Theodore S, Tsoi, Jennifer, Puig-Saus, Cristina, Baselga-Carretero, Ignacio, Medina, Egmidio, Quist, Michael J, Garcia, Alejandro J, Senapedis, William, Baloglu, Erkan, Kalbasi, Anusha, Cheung-Lau, Gardenia, Berent-Maoz, Beata, Comin-Anduix, Begoña, Hu-Lieskovan, Siwen, Wang, Cun-Yu, Grasso, Catherine S, and Ribas, Antoni

Subjects
Cancer, Vaccine Related, Immunization, 2.1 Biological and endogenous factors, Aetiology, 5.1 Pharmaceuticals, Development of treatments and therapeutic interventions, Animals, CD8-Positive T-Lymphocytes, Immune Checkpoint Inhibitors, Immunotherapy, Mice, Neoplasms, Programmed Cell Death 1 Receptor, p21-Activated Kinases
Abstract

Lack of tumor infiltration by immune cells is the main mechanism of primary resistance to programmed cell death protein 1 (PD-1) blockade therapies for cancer. It has been postulated that cancer cell-intrinsic mechanisms may actively exclude T cells from tumors, suggesting that the finding of actionable molecules that could be inhibited to increase T cell infiltration may synergize with checkpoint inhibitor immunotherapy. Here, we show that p21-activated kinase 4 (PAK4) is enriched in non-responding tumor biopsies with low T cell and dendritic cell infiltration. In mouse models, genetic deletion of PAK4 increased T cell infiltration and reversed resistance to PD-1 blockade in a CD8 T cell-dependent manner. Furthermore, combination of anti-PD-1 with the PAK4 inhibitor KPT-9274 improved anti-tumor response compared with anti-PD-1 alone. Therefore, high PAK4 expression is correlated with low T cell and dendritic cell infiltration and a lack of response to PD-1 blockade, which could be reversed with PAK4 inhibition.

Published
2020

6. Anticystogenic activity of a small molecule PAK4 inhibitor may be a novel treatment for autosomal dominant polycystic kidney disease

Author

Hwang, Vicki J, Zhou, Xia, Chen, Xiaonan, Trott, Josephine, Abu Aboud, Omran, Shim, Kyuhwan, Dionne, Lai Kuan, Chmiel, Kenneth J, Senapedis, William, Baloglu, Erkan, Mahjoub, Moe R, Li, Xiaogang, and Weiss, Robert H

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Congenital Structural Anomalies, Pediatric, Kidney Disease, Polycystic Kidney Disease, 5.1 Pharmaceuticals, Development of treatments and therapeutic interventions, Renal and urogenital, Cancer, Acrylamides, Aminopyridines, Animals, Apoptosis, Cell Proliferation, Cytokines, Disease Models, Animal, Drug Evaluation, Preclinical, Epithelial Cells, Female, Humans, Kidney, Male, Mice, Mice, Transgenic, NAD, Nicotinamide Phosphoribosyltransferase, Organ Culture Techniques, Phosphorylation, Polycystic Kidney, Autosomal Dominant, Receptors, Cell Surface, Signal Transduction, TRPP Cation Channels, beta Catenin, p21-Activated Kinases, ADPKD, apoptosis, signaling, Urology & Nephrology, Clinical sciences
Abstract

Autosomal Dominant Polycystic Kidney Disease (ADPKD) is a common hereditary renal disease with no currently available targeted therapies. Based on the established connection between β-catenin signaling and renal ciliopathies, and on data from our and other laboratories showing striking similarities of this disease and cancer, we evaluated the use of an orally bioavailable small molecule, KPT-9274 (a dual inhibitor of the protein kinase PAK4 and nicotinamide phosphoribosyl transferase), for treatment of ADPKD. Treatment of PKD-derived cells with this compound not only reduces PAK4 steady-state protein levels and regulates β-catenin signaling, but also inhibits nicotinamide phosphoribosyl transferase, the rate-limiting enzyme in a key NAD salvage pathway. KPT-9274 can attenuate cellular proliferation and induce apoptosis associated with a decrease in active (phosphorylated) PAK4 and β-catenin in several Pkd1-null murine cell lines, with a less pronounced effect on the corresponding phenotypically normal cells. Additionally, KPT-9274 shows inhibition of cystogenesis in an ex vivo model of cyclic AMP-induced cystogenesis as well as in the early stage Pkd1flox/flox:Pkhd1-Cre mouse model, the latter showing confirmation of specific anti-proliferative, apoptotic, and on-target effects. NAD biosynthetic attenuation by KPT-9274, while critical for highly proliferative cancer cells, does not appear to be important in the slower growing cystic epithelial cells during cystogenesis. KPT-9274 was not toxic in our ADPKD animal model or in other cancer models. Thus, this small molecule inhibitor could be evaluated in a clinical trial as a viable therapy of ADPKD.

Published
2017

7. Selinexor (KPT-330) has antitumor activity against anaplastic thyroid carcinoma in vitro and in vivo and enhances sensitivity to doxorubicin.

Author

Garg, Manoj, Kanojia, Deepika, Mayakonda, Anand, Ganesan, Trivadi S, Sadhanandhan, Bindhya, Suresh, Sidhanth, S, Sneha, Nagare, Rohit P, Said, Jonathan W, Doan, Ngan B, Ding, Ling-Wen, Baloglu, Erkan, Shacham, Sharon, Kauffman, Michael, and Koeffler, H Phillip

Subjects
Tumor Cells, Cultured, Animals, Humans, Thyroid Neoplasms, Disease Models, Animal, Hydrazines, Triazoles, Doxorubicin, Karyopherins, Receptors, Cytoplasmic and Nuclear, Antineoplastic Agents, Treatment Outcome, Neoplasm Transplantation, Apoptosis, Models, Biological, Cell Cycle Checkpoints, Heterografts, Thyroid Carcinoma, Anaplastic, Tumor Cells, Cultured, Disease Models, Animal, Receptors, Cytoplasmic and Nuclear, Models, Biological, Thyroid Carcinoma, Anaplastic
Abstract

Anaplastic thyroid carcinoma (ATC) is one of the most lethal malignancies having no effective treatment. Exportin-1 (XPO1) is the key mediator of nuclear export of many tumor suppressor proteins and is overexpressed in human cancers. In this study, we examined the therapeutic potential of selinexor (XPO1 inhibitor) against human ATC cells both in vitro and in vivo. Here, we showed that XPO1 is robustly expressed in primary ATC samples and human ATC cell lines. Silencing of XPO1 by either shRNA or selinexor significantly reduced cellular growth and induced cell cycle arrest, apoptosis of ATC cells by altering the protein expression of cancer-related genes. Moreover, selinexor significantly inhibited tumor growth of ATC xenografts. Microarray analysis showed enrichment of DNA replication, cell cycle, cell cycle checkpoint and TNF pathways in selinexor treated ATC cells. Importantly, selinexor decreased AXL and GAS6 levels in CAL62 and HTH83 cells and suppressed the phosphorylation of downstream targets of AXL signaling such as AKT and P70S6K. Finally, a combination of selinexor with doxorubicin demonstrated a synergistic decrease in the cellular proliferation of several ATC cells. These results provide a rationale for investigating the efficacy of combining selinexor and doxorubicin therapy to improve the outcome of ATC patients.

Published
2017

8. Targeting super-enhancer-associated oncogenes in oesophageal squamous cell carcinoma

Author

Jiang, Yan-Yi, Lin, De-Chen, Mayakonda, Anand, Hazawa, Masaharu, Ding, Ling-Wen, Chien, Wen-Wen, Xu, Liang, Chen, Ye, Xiao, Jin-Fen, Senapedis, William, Baloglu, Erkan, Kanojia, Deepika, Shang, Li, Xu, Xin, Yang, Henry, Tyner, Jeffrey W, Wang, Ming-Rong, and Koeffler, H Phillip

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Digestive Diseases, Human Genome, Rare Diseases, Cancer, Genetics, Biotechnology, 5.1 Pharmaceuticals, 2.1 Biological and endogenous factors, Aetiology, Development of treatments and therapeutic interventions, Acrylamides, Adaptor Proteins, Signal Transducing, Aminopyridines, Animals, Antineoplastic Agents, Carcinoma, Squamous Cell, Cell Line, Tumor, Cell Proliferation, Core Binding Factor Alpha 2 Subunit, Cyclin-Dependent Kinases, Drug Screening Assays, Antitumor, Esophageal Neoplasms, Female, Gene Expression, Gene Expression Profiling, HSP40 Heat-Shock Proteins, High-Throughput Screening Assays, Humans, Mice, Neoplasm Transplantation, Oncogenes, Phenylenediamines, Phosphoproteins, Pyrimidines, Sequence Analysis, RNA, Sterol Regulatory Element Binding Protein 2, Transcription Factors, Transcriptome, YAP-Signaling Proteins, p21-Activated Kinases, Cyclin-Dependent Kinase-Activating Kinase, CANCER, CELL BIOLOGY, OESOPHAGEAL CANCER, ONCOGENES, Clinical Sciences, Paediatrics and Reproductive Medicine, Gastroenterology & Hepatology, Clinical sciences, Nutrition and dietetics
Abstract

ObjectivesOesophageal squamous cell carcinoma (OSCC) is an aggressive malignancy and the major histological subtype of oesophageal cancer. Although recent large-scale genomic analysis has improved the description of the genetic abnormalities of OSCC, few targetable genomic lesions have been identified, and no molecular therapy is available. This study aims to identify druggable candidates in this tumour.DesignHigh-throughput small-molecule inhibitor screening was performed to identify potent anti-OSCC compounds. Whole-transcriptome sequencing (RNA-Seq) and chromatin immunoprecipitation sequencing (ChIP-Seq) were conducted to decipher the mechanisms of action of CDK7 inhibition in OSCC. A variety of in vitro and in vivo cellular assays were performed to determine the effects of candidate genes on OSCC malignant phenotypes.ResultsThe unbiased high-throughput small-molecule inhibitor screening led us to discover a highly potent anti-OSCC compound, THZ1, a specific CDK7 inhibitor. RNA-Seq revealed that low-dose THZ1 treatment caused selective inhibition of a number of oncogenic transcripts. Notably, further characterisation of the genomic features of these THZ1-sensitive transcripts demonstrated that they were frequently associated with super-enhancer (SE). Moreover, SE analysis alone uncovered many OSCC lineage-specific master regulators. Finally, integrative analysis of both THZ1-sensitive and SE-associated transcripts identified a number of novel OSCC oncogenes, including PAK4, RUNX1, DNAJB1, SREBF2 and YAP1, with PAK4 being a potential druggable kinase.ConclusionsOur integrative approaches led to a catalogue of SE-associated master regulators and oncogenic transcripts, which may significantly promote both the understanding of OSCC biology and the development of more innovative therapies.

Published
2017

9. Molecular mechanism and therapeutic implications of selinexor (KPT-330) in liposarcoma

Author

Garg, Manoj, Kanojia, Deepika, Mayakonda, Anand, Said, Jonathan W, Doan, Ngan B, Chien, Wenwen, Ganesan, Trivadi S, Chuang, Linda Shyue Huey, Venkatachalam, Nachiyappan, Baloglu, Erkan, Shacham, Sharon, Kauffman, Michael, and Koeffler, H Phillip

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Biotechnology, Cancer, 2.1 Biological and endogenous factors, 5.1 Pharmaceuticals, Aetiology, Development of treatments and therapeutic interventions, Animals, Antineoplastic Agents, Apoptosis, Aurora Kinase A, Aurora Kinase B, Cell Cycle Checkpoints, Cell Line, Tumor, Cell Proliferation, Dose-Response Relationship, Drug, Gene Expression Regulation, Neoplastic, Humans, Hydrazines, Insulin-Like Growth Factor Binding Protein 5, Karyopherins, Liposarcoma, Male, Mice, Proto-Oncogene Proteins c-akt, RNA Interference, Receptor, IGF Type 1, Receptors, Cytoplasmic and Nuclear, Receptors, Somatomedin, Signal Transduction, Time Factors, Transfection, Triazoles, Tumor Burden, Xenograft Model Antitumor Assays, selinexor, IGFBP5, xenograft, cell cycle, Oncology and carcinogenesis
Abstract

Exportin-1 mediates nuclear export of multiple tumor suppressor and growth regulatory proteins. Aberrant expression of exportin-1 is noted in human malignancies, resulting in cytoplasmic mislocalization of its target proteins. We investigated the efficacy of selinexor against liposarcoma cells both in vitro and in vivo. Exportin-1 was highly expressed in liposarcoma samples and cell lines as determined by immunohistochemistry, western blot, and immunofluorescence assay. Knockdown of endogenous exportin-1 inhibited proliferation of liposarcoma cells. Selinexor also significantly decreased cell proliferation as well as induced cell cycle arrest and apoptosis of liposarcoma cells. The drug also significantly decreased tumor volumes and weights of liposarcoma xenografts. Importantly, selinexor inhibited insulin-like growth factor 1 (IGF1) activation of IGF-1R/AKT pathway through upregulation of insulin-like growth factor binding protein 5 (IGFBP5). Further, overexpression and knockdown experiments showed that IGFBP5 acts as a tumor suppressor and its expression was restored upon selinexor treatment of liposarcoma cells. Selinexor decreased aurora kinase A and B levels in these cells and inhibitors of these kinases suppressed the growth of the liposarcoma cells. Overall, our study showed that selinexor treatment restored tumor suppressive function of IGFBP5 and inhibited aurora kinase A and B in liposarcoma cells supporting the usefulness of selinexor as a potential therapeutic strategy for the treatment of this cancer.

Published
2017

10. Dual PAK4-NAMPT Inhibition Impacts Growth and Survival, and Increases Sensitivity to DNA-Damaging Agents in Waldenström Macroglobulinemia

Author

Li, Na, Lopez, Michael A., Linares Gómez, María, Kumar, Subodh, Oliva, Stefania, Martinez-Lopez, Joaquin, Xu, Lian, Xu, Yan, Perini, Tommaso, Senapedis, William, Baloglu, Erkan, Shammas, Masood A., Hunter, Zachary, Anderson, Kenneth C., Treon, Steven P., Munshi, Nikhil C., Fulciniti, Mariateresa, Li, Na, Lopez, Michael A., Linares Gómez, María, Kumar, Subodh, Oliva, Stefania, Martinez-Lopez, Joaquin, Xu, Lian, Xu, Yan, Perini, Tommaso, Senapedis, William, Baloglu, Erkan, Shammas, Masood A., Hunter, Zachary, Anderson, Kenneth C., Treon, Steven P., Munshi, Nikhil C., and Fulciniti, Mariateresa

Abstract

Purpose: p21-activated kinase 4 (PAK4) plays a significant biological and functional role in a number of malignancies, including multiple myeloma (MM). On the basis of our promising findings in MM, we here characterize PAK4 expression and role in WM cells, as well effect of dual PAK4-NAMPT inhibitor (KPT-9274) against WM cell growth and viability. Experimental Design: We have analyzed mRNA and protein expression levels of PAK4 in WM cells, and used loss-offunction approach to investigate its contribution to WM cell viability. We have further tested the in vitro and in vivo effect of KPT-9274 against WM cell growth and viability. Results: We report here high-level expression and functional role of PAK4 in WM, as demonstrated by shRNA-mediated knockdown; and significant impact of KPT-9274 on WM cell growth and viability. The growth inhibitory effect of KPT-9274 was associated with decreased PAK4 expression and NAMPT activity, as well as induction of apoptosis. Interestingly, in WM cell lines treated with KPT-9274, we detected a significant impact on DNA damage and repair genes. Moreover, we observed that apart from inducing DNA damage, KPT-9274 specifically decreased RAD51 and the double-strand break repair by the homologous recombination pathway. As a result, when combined with a DNA alkylating agents bendamustine and melphalan, KPT-9274 provided a synergistic inhibition of cell viability in WM cell lines and primary patient WM cells in vitro and in vivo. Conclusions: These results support the clinical investigation of KPT-9274 in combination with DNA-damaging agent for treatment of WM., NIH, Department of Veterans Affairs Merit Review Award, Depto. de Bioquímica y Biología Molecular, Fac. de Farmacia, TRUE, pub

Published
2024

11. Venetoclax response is enhanced by selective inhibitor of nuclear export compounds in hematologic malignancies

Author

Fischer, Melissa A., Friedlander, Sharon Y., Arrate, Maria P., Chang, Hua, Gorska, Agnieszka E., Fuller, Londa D., Ramsey, Haley E., Kashyap, Trinayan, Argueta, Christian, Debler, Sophie, Byrne, Michael, Villaume, Matthew T., Shaver, Aaron C., Senapedis, William, Landesman, Yosef, Baloglu, Erkan, Shacham, Sharon, and Savona, Michael R.

Published
2020
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12. Abstract B077: KRASG12D inhibitor MRTX1133 synergizes with the next generation nuclear transport protein inhibitor eltanexor resulting in enhanced antitumor activity against pancreatic ductal adenocarcinoma

Author

Khan, Husain Y., primary, Aboukameel, Amro, additional, Uddin, Md Hafiz, additional, Al-Hallak, Mohammad Najeeb, additional, Beal, Eliza W., additional, Azar, Ibrahim, additional, Baloglu, Erkan, additional, Beydoun, Rafic, additional, Sukari, Ammar, additional, Nagasaka, Misako, additional, Mohamed, Amr, additional, Kaseb, Ahmed, additional, Philip, Philip A., additional, El-Rayes, Basel, additional, Chen, Herbert, additional, Shields, Anthony, additional, and Azmi, Asfar, additional

Published
2024
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13. Dual and Specific Inhibition of NAMPT and PAK4 By KPT-9274 Decreases Kidney Cancer Growth

Author

Abu Aboud, Omran, Chen, Ching-Hsien, Senapedis, William, Baloglu, Erkan, Argueta, Christian, and Weiss, Robert H

Subjects
Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Biological Sciences, Cancer, Rare Diseases, Kidney Disease, Biotechnology, 5.1 Pharmaceuticals, Aetiology, 2.1 Biological and endogenous factors, Development of treatments and therapeutic interventions, Acrylamides, Aminopyridines, Animals, Antibodies, Monoclonal, Antineoplastic Agents, Apoptosis, Cell Cycle, Cell Line, Tumor, Cell Movement, Cell Proliferation, Cell Survival, Disease Models, Animal, Humans, Kidney Neoplasms, Male, Mice, Molecular Targeted Therapy, NAD, Nicotinamide Phosphoribosyltransferase, Signal Transduction, Tumor Burden, Xenograft Model Antitumor Assays, beta Catenin, p21-Activated Kinases, Pharmacology and Pharmaceutical Sciences, Oncology & Carcinogenesis, Biochemistry and cell biology, Oncology and carcinogenesis
Abstract

Kidney cancer (or renal cell carcinoma, RCC) is the sixth most common malignancy in the United States and one of the relatively few whose incidence is increasing. Because of the near universal resistance which occurs with the use of current treatment regimens, reprogrammed metabolic pathways are being investigated as potential targets for novel therapies of this disease. Borrowing from studies on other malignancies, we have identified the PAK4 and NAD biosynthetic pathways as being essential for RCC growth. We now show, using the dual PAK4/NAMPT inhibitor KPT-9274, that interference with these signaling pathways results in reduction of G2-M transit as well as induction of apoptosis and decrease in cell invasion and migration in several human RCC cell lines. Mechanistic studies demonstrate that inhibition of the PAK4 pathway by KPT-9274 attenuates nuclear β-catenin as well as the Wnt/β-catenin targets cyclin D1 and c-Myc. Furthermore, NAPRT1 downregulation, which we show occurs in all RCC cell lines tested, makes this tumor highly dependent on NAMPT for its NAD requirements, such that inhibition of NAMPT by KPT-9274 leads to decreased survival of these rapidly proliferating cells. When KPT-9274 was administered in vivo to a 786-O (VHL-mut) human RCC xenograft model, there was dose-dependent inhibition of tumor growth with no apparent toxicity; KPT-9274 demonstrated the expected on-target effects in this mouse model. KPT-9274 is being evaluated in a phase I human clinical trial in solid tumors and lymphomas, which will allow this data to be rapidly translated into the clinic for the treatment of RCC. Mol Cancer Ther; 15(9); 2119-29. ©2016 AACR.

Published
2016

14. CRM1 Inhibition Promotes Cytotoxicity in Ewing Sarcoma Cells by Repressing EWS-FLI1–Dependent IGF-1 Signaling

Author

Sun, Haibo, Lin, De-Chen, Cao, Qi, Guo, Xiao, Marijon, Helene, Zhao, Zhiqiang, Gery, Sigal, Xu, Liang, Yang, Henry, Pang, Brendan, Lee, Victor Kwan Min, Lim, Huey Jin, Doan, Ngan, Said, Jonathan W, Chu, Peiguo, Mayakonda, Anand, Thomas, Tom, Forscher, Charles, Baloglu, Erkan, Shacham, Sharon, Rajalingam, Raja, and Koeffler, H Phillip

Subjects
Pediatric, Pediatric Cancer, Rare Diseases, Cancer, Biotechnology, Genetics, Animals, Antineoplastic Combined Chemotherapy Protocols, Apoptosis, Bone Neoplasms, Cell Line, Tumor, Cell Survival, Drug Synergism, Female, Gene Knockdown Techniques, Humans, Hydrazines, Imidazoles, Immunoblotting, Immunohistochemistry, Insulin-Like Growth Factor I, Karyopherins, Mice, Mice, Nude, Oncogene Proteins, Fusion, Proto-Oncogene Protein c-fli-1, Pyrazines, RNA-Binding Protein EWS, Real-Time Polymerase Chain Reaction, Receptors, Cytoplasmic and Nuclear, Sarcoma, Ewing, Signal Transduction, Triazoles, Xenograft Model Antitumor Assays, Oncology and Carcinogenesis, Oncology & Carcinogenesis
Abstract

Ewing sarcoma (EWS) is an aggressive bone malignancy that mainly affects children and young adults. The mechanisms by which EWS (EWSR1) fusion genes drive the disease are not fully understood. CRM1 (XPO1) traffics proteins from the nucleus, including tumor suppressors and growth factors, and is overexpressed in many cancers. A small-molecule inhibitor of CRM1, KPT-330, has shown therapeutic promise, but has yet to be investigated in the context of EWS. In this study, we demonstrate that CRM1 is also highly expressed in EWS. shRNA-mediated or pharmacologic inhibition of CRM1 in EWS cells dramatically decreased cell growth while inducing apoptosis, cell-cycle arrest, and protein expression alterations to several cancer-related factors. Interestingly, silencing of CRM1 markedly reduced EWS-FLI1 fusion protein expression at the posttranscriptional level and upregulated the expression of the well-established EWS-FLI1 target gene, insulin-like growth factor binding protein 3 (IGFBP3), which inhibits IGF-1. Accordingly, KPT-330 treatment attenuated IGF-1-induced activation of the IGF-1R/AKT pathway. Furthermore, knockdown of IGFBP3 increased cell growth and rescued the inhibitory effects on IGF-1 signaling triggered by CRM1 inhibition. Finally, treatment of EWS cells with a combination of KPT-330 and the IGF-1R inhibitor, linsitinib, synergistically decreased cell proliferation both in vitro and in vivo Taken together, these findings provide a strong rationale for investigating the efficacy of combinatorial inhibition of CRM1 and IGF-1R for the treatment of EWS. Cancer Res; 76(9); 2687-97. ©2016 AACR.

Published
2016

15. Small-Molecule RORγt Antagonists Inhibit T Helper 17 Cell Transcriptional Network by Divergent Mechanisms

Author

Xiao, Sheng, Yosef, Nir, Yang, Jianfei, Wang, Yonghui, Zhou, Ling, Zhu, Chen, Wu, Chuan, Baloglu, Erkan, Schmidt, Darby, Ramesh, Radha, Lobera, Mercedes, Sundrud, Mark S, Tsai, Pei-Yun, Xiang, Zhijun, Wang, Jinsong, Xu, Yan, Lin, Xichen, Kretschmer, Karsten, Rahl, Peter B, Young, Richard A, Zhong, Zhong, Hafler, David A, Regev, Aviv, Ghosh, Shomir, Marson, Alexander, and Kuchroo, Vijay K

Subjects
Biomedical and Clinical Sciences, Immunology, Biotechnology, Neurodegenerative, Autoimmune Disease, Genetics, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Androstenols, Animals, Benzeneacetamides, Benzhydryl Compounds, Cell Differentiation, Cell Line, Tumor, Cell Lineage, Cytokines, Digoxin, Encephalomyelitis, Autoimmune, Experimental, Gene Regulatory Networks, Heterocyclic Compounds, 4 or More Rings, Humans, Mice, Mice, Inbred C57BL, Mice, Knockout, Multiple Sclerosis, Myelin-Oligodendrocyte Glycoprotein, Nuclear Receptor Subfamily 1, Group F, Member 3, Peptide Fragments, Protein Binding, Structure-Activity Relationship, Systems Biology, T-Lymphocyte Subsets, Th17 Cells, Transcription, Genetic, Transcriptional Activation
Abstract

We identified three retinoid-related orphan receptor gamma t (RORγt)-specific inhibitors that suppress T helper 17 (Th17) cell responses, including Th17-cell-mediated autoimmune disease. We systemically characterized RORγt binding in the presence and absence of drugs with corresponding whole-genome transcriptome sequencing. RORγt acts as a direct activator of Th17 cell signature genes and a direct repressor of signature genes from other T cell lineages; its strongest transcriptional effects are on cis-regulatory sites containing the RORα binding motif. RORγt is central in a densely interconnected regulatory network that shapes the balance of T cell differentiation. Here, the three inhibitors modulated the RORγt-dependent transcriptional network to varying extents and through distinct mechanisms. Whereas one inhibitor displaced RORγt from its target loci, the other two inhibitors affected transcription predominantly without removing DNA binding. Our work illustrates the power of a system-scale analysis of transcriptional regulation to characterize potential therapeutic compounds that inhibit pathogenic Th17 cells and suppress autoimmunity.

Published
2014

17. Functional role and therapeutic targeting of p21-activated kinase 4 in multiple myeloma

Author

Fulciniti, Mariateresa, Martinez-Lopez, Joaquin, Senapedis, William, Oliva, Stefania, Lakshmi Bandi, Rajya, Amodio, Nicola, Xu, Yan, Szalat, Raphael, Gulla, Annamaria, Samur, Mehmet K., Roccaro, Aldo, Linares, Maria, Cea, Michele, Baloglu, Erkan, Argueta, Christian, Landesman, Yosef, Shacham, Sharon, Liu, Siyuan, Schenone, Monica, Wu, Shiaw-Lin, Karger, Barry, Prabhala, Rao, Anderson, Kenneth C., and Munshi, Nikhil C.

Published
2017
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19. Supplementary Data from PAK4-NAMPT Dual Inhibition Sensitizes Pancreatic Neuroendocrine Tumors to Everolimus

Author

Mpilla, Gabriel B., primary, Uddin, Md. Hafiz, primary, Al-Hallak, Mohammed N., primary, Aboukameel, Amro, primary, Li, Yiwei, primary, Kim, Steve H., primary, Beydoun, Rafic, primary, Dyson, Gregory, primary, Baloglu, Erkan, primary, Senapedis, William T., primary, Landesman, Yosef, primary, Wagner, Kay-Uwe, primary, Viola, Nerissa T., primary, El-Rayes, Bassel F., primary, Philip, Philip A., primary, Mohammad, Ramzi M., primary, and Azmi, Asfar S., primary

Published
2023
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25. Supplementary Table 1 from Nuclear–Cytoplasmic Transport Is a Therapeutic Target in Myelofibrosis

Author

Yan, Dongqing, primary, Pomicter, Anthony D., primary, Tantravahi, Srinivas, primary, Mason, Clinton C., primary, Senina, Anna V., primary, Ahmann, Jonathan M., primary, Wang, Qiang, primary, Than, Hein, primary, Patel, Ami B., primary, Heaton, William L., primary, Eiring, Anna M., primary, Clair, Phillip M., primary, Gantz, Kevin C., primary, Redwine, Hannah M., primary, Swierczek, Sabina I., primary, Halverson, Brayden J., primary, Baloglu, Erkan, primary, Shacham, Sharon, primary, Khorashad, Jamshid S., primary, Kelley, Todd W., primary, Salama, Mohamed E., primary, Miles, Rodney R., primary, Boucher, Kenneth M., primary, Prchal, Josef T., primary, O'Hare, Thomas, primary, and Deininger, Michael W., primary

Published
2023
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26. Supplementary Figure 6 from Nuclear–Cytoplasmic Transport Is a Therapeutic Target in Myelofibrosis

Author

Yan, Dongqing, primary, Pomicter, Anthony D., primary, Tantravahi, Srinivas, primary, Mason, Clinton C., primary, Senina, Anna V., primary, Ahmann, Jonathan M., primary, Wang, Qiang, primary, Than, Hein, primary, Patel, Ami B., primary, Heaton, William L., primary, Eiring, Anna M., primary, Clair, Phillip M., primary, Gantz, Kevin C., primary, Redwine, Hannah M., primary, Swierczek, Sabina I., primary, Halverson, Brayden J., primary, Baloglu, Erkan, primary, Shacham, Sharon, primary, Khorashad, Jamshid S., primary, Kelley, Todd W., primary, Salama, Mohamed E., primary, Miles, Rodney R., primary, Boucher, Kenneth M., primary, Prchal, Josef T., primary, O'Hare, Thomas, primary, and Deininger, Michael W., primary

Published
2023
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27. Supplementary Table 2 from Nuclear–Cytoplasmic Transport Is a Therapeutic Target in Myelofibrosis

Author

Yan, Dongqing, primary, Pomicter, Anthony D., primary, Tantravahi, Srinivas, primary, Mason, Clinton C., primary, Senina, Anna V., primary, Ahmann, Jonathan M., primary, Wang, Qiang, primary, Than, Hein, primary, Patel, Ami B., primary, Heaton, William L., primary, Eiring, Anna M., primary, Clair, Phillip M., primary, Gantz, Kevin C., primary, Redwine, Hannah M., primary, Swierczek, Sabina I., primary, Halverson, Brayden J., primary, Baloglu, Erkan, primary, Shacham, Sharon, primary, Khorashad, Jamshid S., primary, Kelley, Todd W., primary, Salama, Mohamed E., primary, Miles, Rodney R., primary, Boucher, Kenneth M., primary, Prchal, Josef T., primary, O'Hare, Thomas, primary, and Deininger, Michael W., primary

Published
2023
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28. Movie S2 from The Second-Generation Exportin-1 Inhibitor KPT-8602 Demonstrates Potent Activity against Acute Lymphoblastic Leukemia

Author

Vercruysse, Thomas, primary, De Bie, Jolien, primary, Neggers, Jasper E., primary, Jacquemyn, Maarten, primary, Vanstreels, Els, primary, Schmid-Burgk, Jonathan L., primary, Hornung, Veit, primary, Baloglu, Erkan, primary, Landesman, Yosef, primary, Senapedis, William, primary, Shacham, Sharon, primary, Dagklis, Antonis, primary, Cools, Jan, primary, and Daelemans, Dirk, primary

Published
2023
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29. Supplementary Table 3-8 from Nuclear–Cytoplasmic Transport Is a Therapeutic Target in Myelofibrosis

Author

Yan, Dongqing, primary, Pomicter, Anthony D., primary, Tantravahi, Srinivas, primary, Mason, Clinton C., primary, Senina, Anna V., primary, Ahmann, Jonathan M., primary, Wang, Qiang, primary, Than, Hein, primary, Patel, Ami B., primary, Heaton, William L., primary, Eiring, Anna M., primary, Clair, Phillip M., primary, Gantz, Kevin C., primary, Redwine, Hannah M., primary, Swierczek, Sabina I., primary, Halverson, Brayden J., primary, Baloglu, Erkan, primary, Shacham, Sharon, primary, Khorashad, Jamshid S., primary, Kelley, Todd W., primary, Salama, Mohamed E., primary, Miles, Rodney R., primary, Boucher, Kenneth M., primary, Prchal, Josef T., primary, O'Hare, Thomas, primary, and Deininger, Michael W., primary

Published
2023
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30. Supplementary Figure 3 from Nuclear–Cytoplasmic Transport Is a Therapeutic Target in Myelofibrosis

Author

Yan, Dongqing, primary, Pomicter, Anthony D., primary, Tantravahi, Srinivas, primary, Mason, Clinton C., primary, Senina, Anna V., primary, Ahmann, Jonathan M., primary, Wang, Qiang, primary, Than, Hein, primary, Patel, Ami B., primary, Heaton, William L., primary, Eiring, Anna M., primary, Clair, Phillip M., primary, Gantz, Kevin C., primary, Redwine, Hannah M., primary, Swierczek, Sabina I., primary, Halverson, Brayden J., primary, Baloglu, Erkan, primary, Shacham, Sharon, primary, Khorashad, Jamshid S., primary, Kelley, Todd W., primary, Salama, Mohamed E., primary, Miles, Rodney R., primary, Boucher, Kenneth M., primary, Prchal, Josef T., primary, O'Hare, Thomas, primary, and Deininger, Michael W., primary

Published
2023
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31. Supplemental Tables from CRM1 Inhibition Promotes Cytotoxicity in Ewing Sarcoma Cells by Repressing EWS-FLI1–Dependent IGF-1 Signaling

Author

Sun, Haibo, primary, Lin, De-Chen, primary, Cao, Qi, primary, Guo, Xiao, primary, Marijon, Helene, primary, Zhao, Zhiqiang, primary, Gery, Sigal, primary, Xu, Liang, primary, Yang, Henry, primary, Pang, Brendan, primary, Lee, Victor Kwan Min, primary, Lim, Huey Jin, primary, Doan, Ngan, primary, Said, Jonathan W., primary, Chu, Peiguo, primary, Mayakonda, Anand, primary, Thomas, Tom, primary, Forscher, Charles, primary, Baloglu, Erkan, primary, Shacham, Sharon, primary, Rajalingam, Raja, primary, and Koeffler, H. Phillip, primary

Published
2023
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32. Supplemental Figures from CRM1 Inhibition Promotes Cytotoxicity in Ewing Sarcoma Cells by Repressing EWS-FLI1–Dependent IGF-1 Signaling

Author

Sun, Haibo, primary, Lin, De-Chen, primary, Cao, Qi, primary, Guo, Xiao, primary, Marijon, Helene, primary, Zhao, Zhiqiang, primary, Gery, Sigal, primary, Xu, Liang, primary, Yang, Henry, primary, Pang, Brendan, primary, Lee, Victor Kwan Min, primary, Lim, Huey Jin, primary, Doan, Ngan, primary, Said, Jonathan W., primary, Chu, Peiguo, primary, Mayakonda, Anand, primary, Thomas, Tom, primary, Forscher, Charles, primary, Baloglu, Erkan, primary, Shacham, Sharon, primary, Rajalingam, Raja, primary, and Koeffler, H. Phillip, primary

Published
2023
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33. Supplemental Figure legends from CRM1 Inhibition Promotes Cytotoxicity in Ewing Sarcoma Cells by Repressing EWS-FLI1–Dependent IGF-1 Signaling

Author

Sun, Haibo, primary, Lin, De-Chen, primary, Cao, Qi, primary, Guo, Xiao, primary, Marijon, Helene, primary, Zhao, Zhiqiang, primary, Gery, Sigal, primary, Xu, Liang, primary, Yang, Henry, primary, Pang, Brendan, primary, Lee, Victor Kwan Min, primary, Lim, Huey Jin, primary, Doan, Ngan, primary, Said, Jonathan W., primary, Chu, Peiguo, primary, Mayakonda, Anand, primary, Thomas, Tom, primary, Forscher, Charles, primary, Baloglu, Erkan, primary, Shacham, Sharon, primary, Rajalingam, Raja, primary, and Koeffler, H. Phillip, primary

Published
2023
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34. Data from CRM1 Inhibition Promotes Cytotoxicity in Ewing Sarcoma Cells by Repressing EWS-FLI1–Dependent IGF-1 Signaling

Author

Sun, Haibo, primary, Lin, De-Chen, primary, Cao, Qi, primary, Guo, Xiao, primary, Marijon, Helene, primary, Zhao, Zhiqiang, primary, Gery, Sigal, primary, Xu, Liang, primary, Yang, Henry, primary, Pang, Brendan, primary, Lee, Victor Kwan Min, primary, Lim, Huey Jin, primary, Doan, Ngan, primary, Said, Jonathan W., primary, Chu, Peiguo, primary, Mayakonda, Anand, primary, Thomas, Tom, primary, Forscher, Charles, primary, Baloglu, Erkan, primary, Shacham, Sharon, primary, Rajalingam, Raja, primary, and Koeffler, H. Phillip, primary

Published
2023
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35. Anticancer efficacy of KRASG12C inhibitors is potentiated by PAK4 inhibitor KPT9274 in preclinical models of KRASG12C mutant pancreatic and lung cancers

Author

Khan, Husain Yar, primary, Nagasaka, Misako, additional, Aboukameel, Amro, additional, Alkhalili, Osama, additional, Uddin, Md. Hafiz, additional, Bannoura, Sahar, additional, Mzannar, Yousef, additional, Azar, Ibrahim, additional, Beal, Eliza, additional, Tobon, Miguel, additional, Kim, Steve, additional, Beydoun, Rafic, additional, Baloglu, Erkan, additional, Senapedis, William, additional, El-Rayes, Bassel, additional, Philip, Philip A., additional, Mohammad, Ramzi M., additional, Shields, Anthony F., additional, Al-Hallak, Mohammed Najeeb, additional, and Azmi, Asfar S., additional

Published
2023
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38. Abstract 5315: Anti-tumor activity of KRASG12C inhibitors is enhanced when combined with Cdc42 effector p21-activated kinase 4 targeting agents

Author

Khan, Husain Yar, primary, Bannoura, Sahar, additional, Mamdani, Hirva, additional, Aboukameel, Amro, additional, Mzannar, Yousef, additional, Li, Yiwei, additional, Al-Hallak, Mohammad Najeeb, additional, Azar, Ibrahim, additional, Kim, Steve, additional, Beydoun, Rafic, additional, Mohammad, Ramzi, additional, Landesman, Yosef, additional, Zhang, Yue, additional, Baloglu, Erkan, additional, Senapedis, William, additional, Sukari, Ammar, additional, Nagasaka, Misako, additional, Shields, Anthony, additional, and Azmi, Asfar S., additional

Published
2022
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40. A covalent PIN1 inhibitor selectively targets cancer cells by a dual mechanism of action

Author

Campaner, Elena, Rustighi, Alessandra, Zannini, Alessandro, Cristiani, Alberto, Piazza, Silvano, Ciani, Yari, Kalid, Ori, Golan, Gali, Baloglu, Erkan, Shacham, Sharon, Valsasina, Barbara, Cucchi, Ulisse, Pippione, Agnese Chiara, Lolli, Marco Lucio, Giabbai, Barbara, Storici, Paola, Carloni, Paolo, Rossetti, Giulia, Benvenuti, Federica, Bello, Ezia, D’Incalci, Maurizio, Cappuzzello, Elisa, Rosato, Antonio, and Del Sal, Giannino

Published
2017
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41. PAK4 and NAMPT as Novel Therapeutic Targets in Diffuse Large B-Cell Lymphoma, Follicular Lymphoma, and Mantle Cell Lymphoma

Author

Khan, Husain Yar, primary, Uddin, Md. Hafiz, additional, Balasubramanian, Suresh Kumar, additional, Sulaiman, Noor, additional, Iqbal, Marium, additional, Chaker, Mahmoud, additional, Aboukameel, Amro, additional, Li, Yiwei, additional, Senapedis, William, additional, Baloglu, Erkan, additional, Mohammad, Ramzi M., additional, Zonder, Jeffrey, additional, and Azmi, Asfar S., additional

Published
2021
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42. A phase 1 clinical trial of oral eltanexor in patients with relapsed or refractory multiple myeloma

Author

Cornell, Robert Frank, primary, Baz, Rachid, additional, Richter, Joshua R., additional, Rossi, Adriana, additional, Vogl, Dan T., additional, Chen, Christine, additional, Shustik, Chaim, additional, Alvarez, Mariano J., additional, Shen, Yao, additional, Unger, T. J., additional, Ben‐Shahar, Osnat, additional, Wang, Hongwei, additional, Baloglu, Erkan, additional, Senapedis, William, additional, Ma, Xiwen, additional, Landesman, Yosef, additional, Bai, Xiang, additional, Bader, Justin, additional, Xu, Hongmei, additional, Marshall, Tracey, additional, Chang, Hua, additional, Walker, Christopher J., additional, Shah, Jatin, additional, Shacham, Sharon, additional, Kauffman, Michael G., additional, and Hofmeister, Craig C., additional

Published
2021
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43. Dual Targeting PAK4 and NAMPT As a Novel Therapeutic Approach for Aggressive Non-Hodgkin's Lymphoma

Author

Balasubramanian, Suresh Kumar, primary, Khan, Husain, additional, Uddin, Md. Hafiz, additional, Aboukameel, Amro, additional, Li, Yiwei, additional, Zonder, Jeffrey A., additional, Senapedis, William T., additional, Baloglu, Erkan, additional, Mohammad, Ramzi, additional, Shah, Jatin J., additional, Landesman, Yosef, additional, Shacham, Sharon, additional, Kauffman, Michael G., additional, and Azmi, Asfar Sohail, additional

Published
2021
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45. PAK4-NAMPT Dual Inhibition Sensitizes Pancreatic Neuroendocrine Tumors to Everolimus

Author

Mpilla, Gabriel B., primary, Uddin, Md. Hafiz, additional, Al-Hallak, Mohammed N., additional, Aboukameel, Amro, additional, Li, Yiwei, additional, Kim, Steve H., additional, Beydoun, Rafic, additional, Dyson, Gregory, additional, Baloglu, Erkan, additional, Senapedis, William T., additional, Landesman, Yosef, additional, Wagner, Kay-Uwe, additional, Viola, Nerissa T., additional, El-Rayes, Bassel F., additional, Philip, Philip A., additional, Mohammad, Ramzi M., additional, and Azmi, Asfar S., additional

Published
2021
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47. XPO1-dependent nuclear export is a druggable vulnerability in KRAS-mutant lung cancer

Author

Kim, Jimi, McMillan, Elizabeth, Kim, Hyun Seok, Venkateswaran, Niranjan, Makkar, Gurbani, Rodriguez-Canales, Jaime, Villalobos, Pamela, Neggers, Jasper Edgar, Mendiratta, Saurabh, Wei, Shuguang, Landesman, Yosef, Senapedis, William, Baloglu, Erkan, Chow, Chi-Wan B., Frink, Robin E., Gao, Boning, Roth, Michael, Minna, John D., Daelemans, Dirk, Wistuba, Ignacio I., Posner, Bruce A., Scaglioni, Pier Paolo, and White, Michael A.

Subjects
Lung cancer -- Care and treatment -- Genetic aspects, Gene mutation -- Health aspects, GTPases -- Health aspects -- Genetic aspects, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Jimi Kim [1]; Elizabeth McMillan [1]; Hyun Seok Kim [2]; Niranjan Venkateswaran [3]; Gurbani Makkar [1]; Jaime Rodriguez-Canales [4]; Pamela Villalobos [4]; Jasper Edgar Neggers [5]; Saurabh Mendiratta [1]; [...]

Published
2016
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50. Targeting XPO1 and PAK4 in 8505C Anaplastic Thyroid Cancer Cells: Putative Implications for Overcoming Lenvatinib Therapy Resistance

Author

Khan, Husain Yar, primary, Ge, James, additional, Nagasaka, Misako, additional, Aboukameel, Amro, additional, Mpilla, Gabriel, additional, Muqbil, Irfana, additional, Szlaczky, Mark, additional, Chaker, Mahmoud, additional, Baloglu, Erkan, additional, Landesman, Yosef, additional, Mohammad, Ramzi M., additional, Azmi, Asfar S., additional, and Sukari, Ammar, additional

Published
2019
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