Involvement of RAGE in radiation-induced acquisition of malignant phenotypes in human glioblastoma cells

Glioblastoma (GBM), a highly aggressive malignant tumor of the central nervous system, is mainly treated with radiotherapy. However, since irradiation may lead to the acquisition of migration ability by cancer cells, thereby promoting tumor metastasis and invasion, it is important to understand the...

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Vydáno v:	Biochimica et biophysica acta. General subjects Ročník 1868; číslo 9; s. 130650
Hlavní autoři:	Seki, Hiromu, Kitabatake, Kazuki, Tanuma, Sei-ichi, Tsukimoto, Mitsutoshi
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Netherlands Elsevier B.V 01.09.2024
Témata:	actin Benzamides Brain Neoplasms - metabolism Brain Neoplasms - pathology Brain Neoplasms - radiotherapy Cell Line, Tumor Cell migration cell movement Cell Movement - radiation effects central nervous system Gamma Rays Glioblastoma Glioblastoma - metabolism Glioblastoma - pathology Glioblastoma - radiotherapy HMGB1 HMGB1 Protein - metabolism Humans irradiation metastasis nucleoproteins Phenotype phosphorylation Phosphorylation - radiation effects Pyruvates - pharmacology pyruvic acid Radiation radiotherapy RAGE Receptor for Advanced Glycation End Products - metabolism Signal Transduction STAT3 STAT3 Transcription Factor - metabolism RAGE HMGB1 Cell migration Glioblastoma Radiation STAT3
ISSN:	0304-4165, 1872-8006, 1872-8006
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Abstract	Glioblastoma (GBM), a highly aggressive malignant tumor of the central nervous system, is mainly treated with radiotherapy. However, since irradiation may lead to the acquisition of migration ability by cancer cells, thereby promoting tumor metastasis and invasion, it is important to understand the mechanism of cell migration enhancement in order to prevent recurrence of GBM. The receptor for advanced glycation end products (RAGE) is a pattern recognition receptor activated by high mobility group box 1 (HMGB1). In this study, we found that RAGE plays a role in the enhancement of cell migration by γ-irradiation in human GBM A172 cells. γ-Irradiation induced actin remodeling, a marker of motility acquisition, and enhancement of cell migration in A172 cells. Both phenotypes were suppressed by specific inhibitors of RAGE (FPS-ZM1 and TTP488) or by knockdown of RAGE. The HMGB1 inhibitor ethyl pyruvate similarly suppressed γ-irradiation-induced enhancement of cell migration. In addition, γ-irradiation-induced phosphorylation of STAT3 was suppressed by RAGE inhibitors, and a STAT3 inhibitor suppressed γ-irradiation-induced enhancement of cell migration, indicating that STAT3 is involved in the migration enhancement downstream of RAGE. Our results suggest that HMGB1-RAGE-STAT3 signaling is involved in radiation-induced enhancement of GBM cell migration, and may contribute to GBM recurrence by promoting metastasis and invasion. [Display omitted] •γ-Radiation induces enhanced migration of human glioblastoma cells.•RAGE and RAGE ligands are involved in radiation-induced cell migration.•STAT3 signaling is involved in radiation-induced cell migration.•Radiation-induced phosphorylation of STAT3 is mediated by RAGE.•HMGB1-RAGE-STAT3 signaling is involved in radiation-enhanced cell migration.
AbstractList	Glioblastoma (GBM), a highly aggressive malignant tumor of the central nervous system, is mainly treated with radiotherapy. However, since irradiation may lead to the acquisition of migration ability by cancer cells, thereby promoting tumor metastasis and invasion, it is important to understand the mechanism of cell migration enhancement in order to prevent recurrence of GBM. The receptor for advanced glycation end products (RAGE) is a pattern recognition receptor activated by high mobility group box 1 (HMGB1). In this study, we found that RAGE plays a role in the enhancement of cell migration by γ-irradiation in human GBM A172 cells. γ-Irradiation induced actin remodeling, a marker of motility acquisition, and enhancement of cell migration in A172 cells. Both phenotypes were suppressed by specific inhibitors of RAGE (FPS-ZM1 and TTP488) or by knockdown of RAGE. The HMGB1 inhibitor ethyl pyruvate similarly suppressed γ-irradiation-induced enhancement of cell migration. In addition, γ-irradiation-induced phosphorylation of STAT3 was suppressed by RAGE inhibitors, and a STAT3 inhibitor suppressed γ-irradiation-induced enhancement of cell migration, indicating that STAT3 is involved in the migration enhancement downstream of RAGE. Our results suggest that HMGB1-RAGE-STAT3 signaling is involved in radiation-induced enhancement of GBM cell migration, and may contribute to GBM recurrence by promoting metastasis and invasion. Glioblastoma (GBM), a highly aggressive malignant tumor of the central nervous system, is mainly treated with radiotherapy. However, since irradiation may lead to the acquisition of migration ability by cancer cells, thereby promoting tumor metastasis and invasion, it is important to understand the mechanism of cell migration enhancement in order to prevent recurrence of GBM. The receptor for advanced glycation end products (RAGE) is a pattern recognition receptor activated by high mobility group box 1 (HMGB1). In this study, we found that RAGE plays a role in the enhancement of cell migration by γ-irradiation in human GBM A172 cells. γ-Irradiation induced actin remodeling, a marker of motility acquisition, and enhancement of cell migration in A172 cells. Both phenotypes were suppressed by specific inhibitors of RAGE (FPS-ZM1 and TTP488) or by knockdown of RAGE. The HMGB1 inhibitor ethyl pyruvate similarly suppressed γ-irradiation-induced enhancement of cell migration. In addition, γ-irradiation-induced phosphorylation of STAT3 was suppressed by RAGE inhibitors, and a STAT3 inhibitor suppressed γ-irradiation-induced enhancement of cell migration, indicating that STAT3 is involved in the migration enhancement downstream of RAGE. Our results suggest that HMGB1-RAGE-STAT3 signaling is involved in radiation-induced enhancement of GBM cell migration, and may contribute to GBM recurrence by promoting metastasis and invasion. [Display omitted] •γ-Radiation induces enhanced migration of human glioblastoma cells.•RAGE and RAGE ligands are involved in radiation-induced cell migration.•STAT3 signaling is involved in radiation-induced cell migration.•Radiation-induced phosphorylation of STAT3 is mediated by RAGE.•HMGB1-RAGE-STAT3 signaling is involved in radiation-enhanced cell migration. Glioblastoma (GBM), a highly aggressive malignant tumor of the central nervous system, is mainly treated with radiotherapy. However, since irradiation may lead to the acquisition of migration ability by cancer cells, thereby promoting tumor metastasis and invasion, it is important to understand the mechanism of cell migration enhancement in order to prevent recurrence of GBM. The receptor for advanced glycation end products (RAGE) is a pattern recognition receptor activated by high mobility group box 1 (HMGB1). In this study, we found that RAGE plays a role in the enhancement of cell migration by γ-irradiation in human GBM A172 cells. γ-Irradiation induced actin remodeling, a marker of motility acquisition, and enhancement of cell migration in A172 cells. Both phenotypes were suppressed by specific inhibitors of RAGE (FPS-ZM1 and TTP488) or by knockdown of RAGE. The HMGB1 inhibitor ethyl pyruvate similarly suppressed γ-irradiation-induced enhancement of cell migration. In addition, γ-irradiation-induced phosphorylation of STAT3 was suppressed by RAGE inhibitors, and a STAT3 inhibitor suppressed γ-irradiation-induced enhancement of cell migration, indicating that STAT3 is involved in the migration enhancement downstream of RAGE. Our results suggest that HMGB1-RAGE-STAT3 signaling is involved in radiation-induced enhancement of GBM cell migration, and may contribute to GBM recurrence by promoting metastasis and invasion.Glioblastoma (GBM), a highly aggressive malignant tumor of the central nervous system, is mainly treated with radiotherapy. However, since irradiation may lead to the acquisition of migration ability by cancer cells, thereby promoting tumor metastasis and invasion, it is important to understand the mechanism of cell migration enhancement in order to prevent recurrence of GBM. The receptor for advanced glycation end products (RAGE) is a pattern recognition receptor activated by high mobility group box 1 (HMGB1). In this study, we found that RAGE plays a role in the enhancement of cell migration by γ-irradiation in human GBM A172 cells. γ-Irradiation induced actin remodeling, a marker of motility acquisition, and enhancement of cell migration in A172 cells. Both phenotypes were suppressed by specific inhibitors of RAGE (FPS-ZM1 and TTP488) or by knockdown of RAGE. The HMGB1 inhibitor ethyl pyruvate similarly suppressed γ-irradiation-induced enhancement of cell migration. In addition, γ-irradiation-induced phosphorylation of STAT3 was suppressed by RAGE inhibitors, and a STAT3 inhibitor suppressed γ-irradiation-induced enhancement of cell migration, indicating that STAT3 is involved in the migration enhancement downstream of RAGE. Our results suggest that HMGB1-RAGE-STAT3 signaling is involved in radiation-induced enhancement of GBM cell migration, and may contribute to GBM recurrence by promoting metastasis and invasion.
ArticleNumber	130650
Author	Tanuma, Sei-ichi Tsukimoto, Mitsutoshi Kitabatake, Kazuki Seki, Hiromu
Author_xml	– sequence: 1 givenname: Hiromu surname: Seki fullname: Seki, Hiromu organization: Department of Radiation Biosciences, Faculty of Pharmaceutical Sciences, Tokyo University of Science, Noda, Chiba, Japan – sequence: 2 givenname: Kazuki surname: Kitabatake fullname: Kitabatake, Kazuki organization: Department of Radiation Biosciences, Faculty of Pharmaceutical Sciences, Tokyo University of Science, Noda, Chiba, Japan – sequence: 3 givenname: Sei-ichi surname: Tanuma fullname: Tanuma, Sei-ichi organization: Meikai University Research Institute of Odontology, Sakado, Saitama, Japan – sequence: 4 givenname: Mitsutoshi surname: Tsukimoto fullname: Tsukimoto, Mitsutoshi email: tsukim@rs.noda.tus.ac.jp organization: Department of Radiation Biosciences, Faculty of Pharmaceutical Sciences, Tokyo University of Science, Noda, Chiba, Japan
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Keywords	RAGE HMGB1 Cell migration Glioblastoma Radiation STAT3
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Snippet	Glioblastoma (GBM), a highly aggressive malignant tumor of the central nervous system, is mainly treated with radiotherapy. However, since irradiation may lead...
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SubjectTerms	actin Benzamides Brain Neoplasms - metabolism Brain Neoplasms - pathology Brain Neoplasms - radiotherapy Cell Line, Tumor Cell migration cell movement Cell Movement - radiation effects central nervous system Gamma Rays Glioblastoma Glioblastoma - metabolism Glioblastoma - pathology Glioblastoma - radiotherapy HMGB1 HMGB1 Protein - metabolism Humans irradiation metastasis nucleoproteins Phenotype phosphorylation Phosphorylation - radiation effects Pyruvates - pharmacology pyruvic acid Radiation radiotherapy RAGE Receptor for Advanced Glycation End Products - metabolism Signal Transduction STAT3 STAT3 Transcription Factor - metabolism
Title	Involvement of RAGE in radiation-induced acquisition of malignant phenotypes in human glioblastoma cells
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