A novel FGFR1 inhibitor CYY292 suppresses tumor progression, invasion, and metastasis of glioblastoma by inhibiting the Akt/GSK3β/snail signaling axis

Glioblastoma (GBM) is a malignant brain tumor that grows quickly, spreads widely, and is resistant to treatment. Fibroblast growth factor receptor (FGFR)1 is a receptor tyrosine kinase that regulates cellular processes, including proliferation, survival, migration, and differentiation. FGFR1 was pre...

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Autores principales: Bi, Yanran, Zheng, Ruiling, Hu, Jiahao, Shi, Ruiqing, Shi, Junfeng, Wang, Yutao, Wang, Peng, Jiang, Wenyi, Kim, Gyudong, Liu, Zhiguo, Li, Xiaokun, Lin, Li
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Chongqing Medical University 2023
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Full Length Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10425802/
https://www.ncbi.nlm.nih.gov/pubmed/37588207
http://dx.doi.org/10.1016/j.gendis.2023.02.035
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author Bi, Yanran
Zheng, Ruiling
Hu, Jiahao
Shi, Ruiqing
Shi, Junfeng
Wang, Yutao
Wang, Peng
Jiang, Wenyi
Kim, Gyudong
Liu, Zhiguo
Li, Xiaokun
Lin, Li
author_facet Bi, Yanran
Zheng, Ruiling
Hu, Jiahao
Shi, Ruiqing
Shi, Junfeng
Wang, Yutao
Wang, Peng
Jiang, Wenyi
Kim, Gyudong
Liu, Zhiguo
Li, Xiaokun
Lin, Li
author_sort Bi, Yanran
collection PubMed
description Glioblastoma (GBM) is a malignant brain tumor that grows quickly, spreads widely, and is resistant to treatment. Fibroblast growth factor receptor (FGFR)1 is a receptor tyrosine kinase that regulates cellular processes, including proliferation, survival, migration, and differentiation. FGFR1 was predominantly expressed in GBM tissues, and FGFR1 expression was negatively correlated with overall survival. We rationally designed a novel small molecule CYY292, which exhibited a strong affinity for the FGFR1 protein in GBM cell lines in vitro. CYY292 also exerted an effect on the conserved Ser777 residue of FGFR1. CYY292 dose-dependently inhibited cell proliferation, epithelial–mesenchymal transition, stemness, invasion, and migration in vitro by specifically targeting the FGFR1/AKT/Snail pathways in GBM cells, and this effect was prevented by pharmacological inhibitors and critical gene knockdown. In vivo experiments revealed that CYY292 inhibited U87MG tumor growth more effectively than AZD4547. CYY292 also efficiently reduced GBM cell proliferation and increased survival in orthotopic GBM models. This study further elucidates the function of FGFR1 in the GBM and reveals the effect of CYY292, which targets FGFR1, on downstream signaling pathways directly reducing GBM cell growth, invasion, and metastasis and thus impairing the recruitment, activation, and function of immune cells.
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spelling pubmed-104258022023-08-16 A novel FGFR1 inhibitor CYY292 suppresses tumor progression, invasion, and metastasis of glioblastoma by inhibiting the Akt/GSK3β/snail signaling axis Bi, Yanran Zheng, Ruiling Hu, Jiahao Shi, Ruiqing Shi, Junfeng Wang, Yutao Wang, Peng Jiang, Wenyi Kim, Gyudong Liu, Zhiguo Li, Xiaokun Lin, Li Genes Dis Full Length Article Glioblastoma (GBM) is a malignant brain tumor that grows quickly, spreads widely, and is resistant to treatment. Fibroblast growth factor receptor (FGFR)1 is a receptor tyrosine kinase that regulates cellular processes, including proliferation, survival, migration, and differentiation. FGFR1 was predominantly expressed in GBM tissues, and FGFR1 expression was negatively correlated with overall survival. We rationally designed a novel small molecule CYY292, which exhibited a strong affinity for the FGFR1 protein in GBM cell lines in vitro. CYY292 also exerted an effect on the conserved Ser777 residue of FGFR1. CYY292 dose-dependently inhibited cell proliferation, epithelial–mesenchymal transition, stemness, invasion, and migration in vitro by specifically targeting the FGFR1/AKT/Snail pathways in GBM cells, and this effect was prevented by pharmacological inhibitors and critical gene knockdown. In vivo experiments revealed that CYY292 inhibited U87MG tumor growth more effectively than AZD4547. CYY292 also efficiently reduced GBM cell proliferation and increased survival in orthotopic GBM models. This study further elucidates the function of FGFR1 in the GBM and reveals the effect of CYY292, which targets FGFR1, on downstream signaling pathways directly reducing GBM cell growth, invasion, and metastasis and thus impairing the recruitment, activation, and function of immune cells. Chongqing Medical University 2023-04-03 /pmc/articles/PMC10425802/ /pubmed/37588207 http://dx.doi.org/10.1016/j.gendis.2023.02.035 Text en © 2023 The Authors. Publishing services by Elsevier B.V. on behalf of KeAi Communications Co., Ltd. https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Full Length Article
Bi, Yanran
Zheng, Ruiling
Hu, Jiahao
Shi, Ruiqing
Shi, Junfeng
Wang, Yutao
Wang, Peng
Jiang, Wenyi
Kim, Gyudong
Liu, Zhiguo
Li, Xiaokun
Lin, Li
A novel FGFR1 inhibitor CYY292 suppresses tumor progression, invasion, and metastasis of glioblastoma by inhibiting the Akt/GSK3β/snail signaling axis
title A novel FGFR1 inhibitor CYY292 suppresses tumor progression, invasion, and metastasis of glioblastoma by inhibiting the Akt/GSK3β/snail signaling axis
title_full A novel FGFR1 inhibitor CYY292 suppresses tumor progression, invasion, and metastasis of glioblastoma by inhibiting the Akt/GSK3β/snail signaling axis
title_fullStr A novel FGFR1 inhibitor CYY292 suppresses tumor progression, invasion, and metastasis of glioblastoma by inhibiting the Akt/GSK3β/snail signaling axis
title_full_unstemmed A novel FGFR1 inhibitor CYY292 suppresses tumor progression, invasion, and metastasis of glioblastoma by inhibiting the Akt/GSK3β/snail signaling axis
title_short A novel FGFR1 inhibitor CYY292 suppresses tumor progression, invasion, and metastasis of glioblastoma by inhibiting the Akt/GSK3β/snail signaling axis
title_sort novel fgfr1 inhibitor cyy292 suppresses tumor progression, invasion, and metastasis of glioblastoma by inhibiting the akt/gsk3β/snail signaling axis
topic Full Length Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10425802/
https://www.ncbi.nlm.nih.gov/pubmed/37588207
http://dx.doi.org/10.1016/j.gendis.2023.02.035
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