Yigong Wei, Kun Zhou, Cheng Wang, Xiaolin Du, Zhengdi Wang, Guangtang Chen, Huan Zhang, Xuhui Hui
{"title":"来自 M1 极化巨噬细胞的外泌体 miR-142-3p 通过调节 HMGB1 介导的 PD-1/PD-L1 检查点抑制胶质母细胞瘤的细胞生长和免疫逃逸","authors":"Yigong Wei, Kun Zhou, Cheng Wang, Xiaolin Du, Zhengdi Wang, Guangtang Chen, Huan Zhang, Xuhui Hui","doi":"10.1111/jnc.16224","DOIUrl":null,"url":null,"abstract":"Glioblastoma (GBM) is one of the most prevalent cancerous brain tumors. Former studies have reported that exosomes derived from M1‐polarized macrophages (M1 exosomes) inhibit tumor occurrence and development through delivery of tumor suppressor genes. Also, microRNA‐142‐3p (miR‐142‐3p) has been verified to function as a tumor suppressor. GBM cell proliferation was evaluated by Cell Counting Kit‐8 (CCK‐8), colony formation assay and 5‐ethynyl‐2′‐deoxyuridine (EdU) assay; cell apoptosis was determined by flow cytometry analysis and terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL) assay. Mechanism investigations were conducted for analyzing the molecular mechanism by which miR‐142‐3p and M1 exosomes affect GBM progression. Upregulation of miR‐142‐3p expression was detected in M1‐polarized macrophages and M1 exosomes. M1 exosomes inhibit GBM cell proliferation and trigger cell apoptosis. Functionally, miR‐142‐3p silencing promotes the proliferation and inhibits the apoptosis of GBM cells treated with M1 exosomes. As for molecular mechanism, miR‐142‐3p inhibits GBM cell growth via targeting high‐mobility group box 1 (HMGB1). In addition, miR‐142‐3p/HMGB1 axis affects GBM cell immune escape through modulation of programmed death‐1/programmed death ligand‐1 (PD‐1/PD‐L1) checkpoint. Our study demonstrated that exosomal miR‐142‐3p from M1‐polarized macrophages suppresses cell growth and immune escape in GBM through regulating HMGB1‐mediated PD‐1/PD‐L1 checkpoint.<jats:boxed-text content-type=\"graphic\" position=\"anchor\"><jats:graphic xmlns:xlink=\"http://www.w3.org/1999/xlink\" mimetype=\"image/png\" position=\"anchor\" specific-use=\"enlarged-web-image\" xlink:href=\"graphic/jnc16224-fig-0006-m.png\"><jats:alt-text>image</jats:alt-text></jats:graphic></jats:boxed-text>","PeriodicalId":16527,"journal":{"name":"Journal of Neurochemistry","volume":null,"pages":null},"PeriodicalIF":4.2000,"publicationDate":"2024-09-18","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Exosomal miR‐142‐3p from M1‐polarized macrophages suppresses cell growth and immune escape in glioblastoma through regulating HMGB1‐mediated PD‐1/PD‐L1 checkpoint\",\"authors\":\"Yigong Wei, Kun Zhou, Cheng Wang, Xiaolin Du, Zhengdi Wang, Guangtang Chen, Huan Zhang, Xuhui Hui\",\"doi\":\"10.1111/jnc.16224\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Glioblastoma (GBM) is one of the most prevalent cancerous brain tumors. Former studies have reported that exosomes derived from M1‐polarized macrophages (M1 exosomes) inhibit tumor occurrence and development through delivery of tumor suppressor genes. Also, microRNA‐142‐3p (miR‐142‐3p) has been verified to function as a tumor suppressor. GBM cell proliferation was evaluated by Cell Counting Kit‐8 (CCK‐8), colony formation assay and 5‐ethynyl‐2′‐deoxyuridine (EdU) assay; cell apoptosis was determined by flow cytometry analysis and terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL) assay. Mechanism investigations were conducted for analyzing the molecular mechanism by which miR‐142‐3p and M1 exosomes affect GBM progression. Upregulation of miR‐142‐3p expression was detected in M1‐polarized macrophages and M1 exosomes. M1 exosomes inhibit GBM cell proliferation and trigger cell apoptosis. Functionally, miR‐142‐3p silencing promotes the proliferation and inhibits the apoptosis of GBM cells treated with M1 exosomes. As for molecular mechanism, miR‐142‐3p inhibits GBM cell growth via targeting high‐mobility group box 1 (HMGB1). In addition, miR‐142‐3p/HMGB1 axis affects GBM cell immune escape through modulation of programmed death‐1/programmed death ligand‐1 (PD‐1/PD‐L1) checkpoint. 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Exosomal miR‐142‐3p from M1‐polarized macrophages suppresses cell growth and immune escape in glioblastoma through regulating HMGB1‐mediated PD‐1/PD‐L1 checkpoint
Glioblastoma (GBM) is one of the most prevalent cancerous brain tumors. Former studies have reported that exosomes derived from M1‐polarized macrophages (M1 exosomes) inhibit tumor occurrence and development through delivery of tumor suppressor genes. Also, microRNA‐142‐3p (miR‐142‐3p) has been verified to function as a tumor suppressor. GBM cell proliferation was evaluated by Cell Counting Kit‐8 (CCK‐8), colony formation assay and 5‐ethynyl‐2′‐deoxyuridine (EdU) assay; cell apoptosis was determined by flow cytometry analysis and terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL) assay. Mechanism investigations were conducted for analyzing the molecular mechanism by which miR‐142‐3p and M1 exosomes affect GBM progression. Upregulation of miR‐142‐3p expression was detected in M1‐polarized macrophages and M1 exosomes. M1 exosomes inhibit GBM cell proliferation and trigger cell apoptosis. Functionally, miR‐142‐3p silencing promotes the proliferation and inhibits the apoptosis of GBM cells treated with M1 exosomes. As for molecular mechanism, miR‐142‐3p inhibits GBM cell growth via targeting high‐mobility group box 1 (HMGB1). In addition, miR‐142‐3p/HMGB1 axis affects GBM cell immune escape through modulation of programmed death‐1/programmed death ligand‐1 (PD‐1/PD‐L1) checkpoint. Our study demonstrated that exosomal miR‐142‐3p from M1‐polarized macrophages suppresses cell growth and immune escape in GBM through regulating HMGB1‐mediated PD‐1/PD‐L1 checkpoint.image
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Journal of Neurochemistry focuses on molecular, cellular and biochemical aspects of the nervous system, the pathogenesis of neurological disorders and the development of disease specific biomarkers. It is devoted to the prompt publication of original findings of the highest scientific priority and value that provide novel mechanistic insights, represent a clear advance over previous studies and have the potential to generate exciting future research.
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