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Cyclopeptide moroidin inhibits vasculogenic mimicry formed by glioblastoma cells via regulating β-catenin activation and EMT pathways 被引量:1
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作者 Pengxiang Min Yingying Li +7 位作者 Cuirong Wang Junting Fan Shangming Liu Xiang Chen Yamin Tang Feng Han Aixia Zhang Lili Feng 《Journal of Biomedical Research》 CAS CSCD 2024年第4期322-333,共12页
Glioblastoma(GBM)is a highly vascularized malignant brain tumor with poor clinical outcomes.Vasculogenic mimicry(VM)formed by aggressive GBM cells is an alternative approach for tumor blood supply and contributes to t... Glioblastoma(GBM)is a highly vascularized malignant brain tumor with poor clinical outcomes.Vasculogenic mimicry(VM)formed by aggressive GBM cells is an alternative approach for tumor blood supply and contributes to the failure of anti-angiogenic therapy.To date,there is still a lack of effective drugs that target VM formation in GBM.In the present study,we evaluated the effects of the plant cyclopeptide moroidin on VM formed by GBM cells and investigated its underlying molecular mechanisms.Moroidin significantly suppressed cell migration,tube formation,and the expression levels ofα-smooth muscle actin and matrix metalloproteinase-9 in human GBM cell lines at sublethal concentrations.The RNA sequencing data suggested the involvement of the epithelialmesenchymal transition(EMT)pathway in the mechanism of moroidin.Exposure to moroidin led to a concentration-dependent decrease in the expression levels of the EMT markers N-cadherin and vimentin in GBM cells.Moreover,moroidin significantly reduced the level of phosphorylated extracellular signal-regulated protein kinase(p-ERK)and inhibited the activation of β-catenin.Finally,we demonstrated that the plant cyclopeptide moroidin inhibited VM formation by GBM cells through inhibiting the ERK/β-catenin-mediated EMT.Therefore,our study indicates a potential application of moroidin as an anti-VM agent in the treatment of GBM. 展开更多
关键词 moroidin vasculogenic mimicry glioblastoma EMT Β-CATENIN
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Efficacy and safety of anlotinib combined with the STUPP regimen in patients with newly diagnosed glioblastoma: a multicenter, single-arm, phase Ⅱ trial
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作者 Shuzhen Lai Peijing Li +15 位作者 Xiaohui Liu Guihong Liu Tieming Xie Xing Zhang Xiaoxuan Wang Jing Huang Yiqiang Tang Zhigang Liu Guoping Shen Chaoming Li Fangxiao Lu Lei Wang Fagui Jiang Caixing Sun Yuanyuan Chen Ming Chen 《Cancer Biology & Medicine》 SCIE CAS CSCD 2024年第5期433-444,共12页
Objective:Glioblastomas are highly vascularized malignant tumors.We determined the efficacy and safety of the anti-angiogenic multi-kinase inhibitor,anlotinib,for a newly diagnosed glioblastoma.Methods:This multicente... Objective:Glioblastomas are highly vascularized malignant tumors.We determined the efficacy and safety of the anti-angiogenic multi-kinase inhibitor,anlotinib,for a newly diagnosed glioblastoma.Methods:This multicenter,single-arm trial(NCT04119674)enrolled 33 treatment-naïve patients with histologically proven glioblastomas between March 2019 and November 2020.Patients underwent treatment with the standard STUPP regimen[fractionated focal irradiation in daily fractions of 1.8-2 Gy given 5 d/w×6 w(total=54-60 Gy)]or radiotherapy plus continuous daily temozolomide(TMZ)(75 mg/m^(2)of body surface area/d,7 d/w from the first to the last day of radiotherapy),followed by 6 cycles of adjuvant TMZ(150-200 mg/m^(2)×5 d during each 28-d cycle)plus anlotinib(8 mg/d on d 1-14 of each 3-w cycle for 2 cycles during concomitant chemoradiotherapy,8 maximal cycles as adjuvant therapy,followed by maintenance at 8 mg/d.The primary endpoint was progression-free survival(PFS).Secondary endpoints included overall survival(OS)and adverse events(AEs).Results:Thirty-three patients received the planned treatment.The median PFS was 10.9 months(95%CI,9.9-18.7 months)and the 12-month PFS rate was 48.5%.The median OS was 17.4 months(95%CI,14.5-21.1 months)and the 12-month OS rate was 81.8%.The most common AEs included hypertriglyceridemia[58%(n=19)],hypoalbuminemia[46%(n=15)],and hypercholesterolemia[46%(n=15)]during concurrent chemoradiotherapy and leukopenia[73%(n=24)],hypertriglyceridemia[67%(n=22)],and neutropenia[52%(n=17)]during adjuvant therapy.Five patients discontinued treatment due to AEs.HEG1(HR,5.6;95%CI,1.3-23.7;P=0.021)and RP1L1 alterations(HR,11.1;95%CI,2.2-57.2;P=0.004)were associated with a significantly shorter PFS.Conclusions:Anlotinib plus the STUPP regimen has promising anti-tumor activity against glioblastoma and manageable toxicity.HEG1 and RP1L1 alterations might be novel predictive biomarkers of the response to anlotinib. 展开更多
关键词 glioblastoma ANTI-ANGIOGENESIS multi-kinase inhibitor anlotinib TEMOZOLOMIDE progression-free survival
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Comprehensive understanding of glioblastoma molecular phenotypes:classification,characteristics,and transition
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作者 Can Xu Pengyu Hou +7 位作者 Xiang Li Menglin Xiao Ziqi Zhang Ziru Li Jianglong Xu Guoming Liu Yanli Tan Chuan Fang 《Cancer Biology & Medicine》 SCIE CAS CSCD 2024年第5期363-381,共19页
Among central nervous system-associated malignancies,glioblastoma(GBM)is the most common and has the highest mortality rate.The high heterogeneity of GBM cell types and the complex tumor microenvironment frequently le... Among central nervous system-associated malignancies,glioblastoma(GBM)is the most common and has the highest mortality rate.The high heterogeneity of GBM cell types and the complex tumor microenvironment frequently lead to tumor recurrence and sudden relapse in patients treated with temozolomide.In precision medicine,research on GBM treatment is increasingly focusing on molecular subtyping to precisely characterize the cellular and molecular heterogeneity,as well as the refractory nature of GBM toward therapy.Deep understanding of the different molecular expression patterns of GBM subtypes is critical.Researchers have recently proposed tetra fractional or tripartite methods for detecting GBM molecular subtypes.The various molecular subtypes of GBM show significant differences in gene expression patterns and biological behaviors.These subtypes also exhibit high plasticity in their regulatory pathways,oncogene expression,tumor microenvironment alterations,and differential responses to standard therapy.Herein,we summarize the current molecular typing scheme of GBM and the major molecular/genetic characteristics of each subtype.Furthermore,we review the mesenchymal transition mechanisms of GBM under various regulators. 展开更多
关键词 glioblastoma molecular phenotype CLASSIFICATION CHARACTERISTIC mesenchymal transition
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NUDT5 promotes the growth,metastasis,and Warburg effect of IDH wild-type glioblastoma multiforme cells by upregulating TRIM47
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作者 Zi-Fa Zhang Shu-Ming Liu 《Asian Pacific Journal of Tropical Biomedicine》 SCIE CAS 2024年第2期82-92,共11页
Objective:To explore the regulatory mechanism of NUDT5 in glioblastoma multiforme(GBM).Methods:GEPIA database was used to predict the expressions of NUDT5 and tripartite motif family proteins 47(TRIM47)in GBM patients... Objective:To explore the regulatory mechanism of NUDT5 in glioblastoma multiforme(GBM).Methods:GEPIA database was used to predict the expressions of NUDT5 and tripartite motif family proteins 47(TRIM47)in GBM patients.RT-qPCR and Western blot analyses were performed to examine NUDT5 expression in GBM cells.LN-229 cell proliferation,migration as well as invasion were estimated by CCK-8,colony formation,wound healing,and Transwell assays following interference with NUDT5.ECAR assay,L-lactic acid kit,glucose detection kit,and ATP detection kit were applied for the detection of glycolysis-related indexes.Co-immunoprecipitation experiment was carried out to verify the relationship between NUDT5 and TRIM47.Results:GEPIA database showed that NUDT5 expression was significantly increased in GBM patients.Inhibiting the expression of NUDT5 in GBM cells significantly suppressed the viability,proliferation,invasion,migration,and glycolysis of GBM cells.Moreover,TRIM47 was highly expressed in GBM cells and interacted with NUDT5.Overexpression of TRIM47 partially reversed the inhibitory effect of NUDT5 downregulation on the proliferation,metastasis,and glycolysis of GBM cells.Conclusions:NUDT5 promotes the growth,metastasis,and Warburg effect of GBM cells by upregulating TRIM47.Both NUDT5 and TRIM47 can be used as targets for GMB treatment. 展开更多
关键词 glioblastoma multiforme NUDT5 TRIM47 GROWTH METASTASIS Warburg effect
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GRIK1 promotes glioblastoma malignancy and is a novel prognostic factor of poor prognosis
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作者 GUOQIANG HOU XINHANG XU WEIXING HU 《Oncology Research》 SCIE 2024年第4期727-736,共10页
Primary tumors of the central nervous system(CNS)are classified into over 100 different histological types.The most common type of glioma is derived from astrocytes,and the most invasive glioblastoma(WHO IV)accounts f... Primary tumors of the central nervous system(CNS)are classified into over 100 different histological types.The most common type of glioma is derived from astrocytes,and the most invasive glioblastoma(WHO IV)accounts for over 57%of these tumors.Glioblastoma(GBM)is the most common and fatal tumor of the CNS,with strong growth and invasion capabilities,which makes complete surgical resection almost impossible.Despite various treatment methods such as surgery,radiotherapy,and chemotherapy,glioma is still an incurable disease,and the median survival time of patients with GBM is shorter than 15 months.Thus,molecular mechanisms of GBM characteristic invasive growth need to be clarified to improve the poor prognosis.Glutamate ionotropic receptor kainate type subunit 1(GRIK1)is essential for brain function and is involved in many mental and neurological diseases.However,GRIK1’s pathogenic roles and mechanisms in GBM are still unknown.Single-nuclear RNA sequencing of primary and recurrent GBM samples revealed that GRIK1 expression was noticeably higher in the recurrent samples.Moreover,immunohistochemical staining of an array of GBM samples showed that high levels of GRIK1 correlated with poor prognosis of GBM,consistent with The Cancer Genome Atlas database.Knockdown of GRIK1 retarded GBM cells growth,migration,and invasion.Taken together,these findings show that GRIK1 is a unique and important component in the development of GBM and may be considered as a biomarker for the diagnosis and therapy in individuals with GBM. 展开更多
关键词 glioblastoma GRIK1 INVASION PROLIFERATION PROGNOSIS
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A review on potential heterocycles for the treatment of glioblastoma targeting receptor tyrosine kinases
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作者 NILAM BHUSARE MAUSHMI KUMAR 《Oncology Research》 SCIE 2024年第5期849-875,共27页
Glioblastoma,the most aggressive form of brain tumor,poses significant challenges in terms of treatment success and patient survival.Current treatment modalities for glioblastoma include radiation therapy,surgical int... Glioblastoma,the most aggressive form of brain tumor,poses significant challenges in terms of treatment success and patient survival.Current treatment modalities for glioblastoma include radiation therapy,surgical intervention,and chemotherapy.Unfortunately,the median survival rate remains dishearteningly low at 12–15 months.One of the major obstacles in treating glioblastoma is the recurrence of tumors,making chemotherapy the primary approach for secondary glioma patients.However,the efficacy of drugs is hampered by the presence of the blood-brain barrier and multidrug resistance mechanisms.Consequently,considerable research efforts have been directed toward understanding the underlying signaling pathways involved in glioma and developing targeted drugs.To tackle glioma,numerous studies have examined kinase-downstream signaling pathways such as RAS-RAF-MEKERK-MPAK.By targeting specific signaling pathways,heterocyclic compounds have demonstrated efficacy in glioma therapeutics.Additionally,key kinases including phosphatidylinositol 3-kinase(PI3K),serine/threonine kinase,cytoplasmic tyrosine kinase(CTK),receptor tyrosine kinase(RTK)and lipid kinase(LK)have been considered for investigation.These pathways play crucial roles in drug effectiveness in glioma treatment.Heterocyclic compounds,encompassing pyrimidine,thiazole,quinazoline,imidazole,indole,acridone,triazine,and other derivatives,have shown promising results in targeting these pathways.As part of this review,we propose exploring novel structures with low toxicity and high potency for glioma treatment.The development of these compounds should strive to overcome multidrug resistance mechanisms and efficiently penetrate the blood-brain barrier.By optimizing the chemical properties and designing compounds with enhanced drug-like characteristics,we can maximize their therapeutic value and minimize adverse effects.Considering the complex nature of glioblastoma,these novel structures should be rigorously tested and evaluated for their efficacy and safety profiles. 展开更多
关键词 glioblastoma Kinase pathway PYRIMIDINE QUINAZOLINE HETEROCYCLES
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Silvestrol alleviates glioblastoma progression through ERK pathway modulation and MANBA and NRG-1 expression
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作者 LAN ZHOU QI ZHANG +1 位作者 BO TIAN FENG YANG 《BIOCELL》 SCIE 2024年第7期1081-1093,共13页
Background:Glioblastoma,a notably malignant tumor within the central nervous system,is distinguished by its aggressive behavior.Silvestrol,a robust inhibitor of the RNA helicase eukaryotic initiation factor 4A(eIF4A),... Background:Glioblastoma,a notably malignant tumor within the central nervous system,is distinguished by its aggressive behavior.Silvestrol,a robust inhibitor of the RNA helicase eukaryotic initiation factor 4A(eIF4A),has shown significant potential as an anticancer compound.Yet,the impact of silvestrol on glioblastoma,especially its molecular mechanisms,has not been fully elucidated.Methods:This investigation employed a variety of in vitro assays,such as cell counting kit-8(CCK-8),clonogenic,5-ethynyl-2′-deoxyuridine(EDU),wound healing,and flow cytometry,to evaluate cell cycle progression,apoptosis,cell viability,and migration.Western blot analysis was also performed to study the apoptosis and extracellular regulated kinase(ERK)pathways.After the ERK pathway was inhibited,differentially expressed genes(DEGs)in U87 cells were identified,followed by an analysis of target genes using the gene expression profiling interactive analysis(GEPIA)database.Results:Silvestrol significantly suppressed the proliferation,migration,and colony formation of glioma cells.It caused cell cycle arrest and enhanced apoptosis in these cells.Additionally,silvestrol stimulated the ERK pathway,with these effects being reversible by an ERK phosphorylation inhibitor.Transcriptome combined with GEPIA,GSCA,UALCAN,TIMER database screened 4 potential drug targets of silvestrol:chromosome 1 open reading frame 226(C1ORF226),mannosidase beta A(MANBA),IQ motif and Sec7 domain 2(IQSEC2),neuregulin 1(NRG-1).Among them,C1ORF226 was lower risk gene while MANBA,IQSEC2,and NRG-1 were high-risk genes.Furthermore,silvestrol notably reduced MANBA mRNA levels,which could be reversed by inhibiting ERK phosphorylation.Furthermore,silvestrol markedly decreased NRG-1 protein levels,with an additional reduction observed when the ERK pathway was blocked.Conclusion:Silvestrol’s anti-glioma effects are primarily due to the suppression of MANBA expression via the ERK pathway and possibly by hindering the translation of NRG-1 protein,thus reducing its expression.The downregulation of MANBA and NRG-1 proteins may be crucial in hindering glioma development and progression.These results highlight the intricate relationship between the ERK pathway and gene expression regulation in silvestrol’s therapeutic effectiveness against glioma. 展开更多
关键词 glioblastoma Silvestrol ERK pathway MANBA NRG-1
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Identification of TMEM159 as a biomarker of glioblastoma progression based on immune characteristics
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作者 JI SHI YE ZHANG +2 位作者 YI CHEN TANGJUN GUO HAOZHE PIAO 《BIOCELL》 SCIE 2024年第8期1241-1263,共23页
Background:Glioblastoma multiforme(GBM)is the most general malignancy of the primary central nervous system that is characterized by high aggressiveness and lethality.Transmembrane protein 159(TMEM159)is an endoplasmi... Background:Glioblastoma multiforme(GBM)is the most general malignancy of the primary central nervous system that is characterized by high aggressiveness and lethality.Transmembrane protein 159(TMEM159)is an endoplasmic reticulum protein that can form oligomers with seipin.The TMEM159-seipin complex decides the site of lipid droplet(LD)formation,and the formation of LDs is a marker of GBM.However,the role of TMEM159 in the progression of GBM has not been investigated to date.Methods:In this study,we examined the genes that may be associated with patient prognosis in GBM by bioinformatics analyses,and identified the key genes that affect the development of GBM using single-cell RNA sequencing technology.The biological functions of TMEM159 in GBM cells were additionally assessed by clone formation and transwell assays as well as using a model of chick embryo chorioallantois membrane(CAM)and western blotting.The association between TMEM159 and epidermal growth factor receptor(EGFR)was finally analyzed in GBM cells.Results:A prognostic model was established and validated for predicting the prognosis.Survival curve analysis showed a critical difference in the prognosis of the high-and low-risk groups predicted by the prognostic model.The results demonstrated that TMEM159 affected the proliferation and invasion of GBM cells.The chick embryo CAM assays demonstrated that the inhibition of TMEM159 expression reduced angiogenesis in the CAM model.Conclusions:The prognostic model achieved good predictive potential for high-risk patients.The findings also revealed that TMEM159 might be an important prognostic factor for GBM,indicating that the protein may be a promising therapeutic target for suppressing the development of GBM. 展开更多
关键词 Single-cell RNA sequencing glioblastoma TMEM159 EGFR ANGIOGENESIS
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IKIP downregulates THBS1/FAK signaling to suppress migration and invasion by glioblastoma cells
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作者 ZHAOYING ZHU YANJIA HU +9 位作者 FENG YE HAIBO TENG GUOLIANG YOU YUNHUI ZENG MENG TIAN JIANGUO XU JIN LI ZHIYONG LIU HAO LIU NIANDONG ZHENG 《Oncology Research》 SCIE 2024年第7期1173-1184,共12页
Background:Inhibitor of NF-κB kinase-interacting protein(IKIP)is known to promote proliferation of glioblastoma(GBM)cells,but how it affects migration and invasion by those cells is unclear.Methods:We compared levels... Background:Inhibitor of NF-κB kinase-interacting protein(IKIP)is known to promote proliferation of glioblastoma(GBM)cells,but how it affects migration and invasion by those cells is unclear.Methods:We compared levels of IKIP between glioma tissues and normal brain tissue in clinical samples and public databases.We examined the effects of IKIP overexpression and knockdown on the migration and invasion of GBM using transwell and wound healing assays,and we compared the transcriptomes under these different conditions to identify the molecular mechanisms involved.Results:Based on data from our clinical samples and from public databases,IKIP was overexpressed in GBM tumors,and its expression level correlated inversely with survival.IKIP overexpression in GBM cells inhibited migration and invasion in transwell and wound healing assays,whereas IKIP knockdown exerted the opposite effects.IKIP overexpression in GBM cells that were injected into mouse brain promoted tumor growth but inhibited tumor invasion of surrounding tissue.The effects of IKIP were associated with downregulation of THBS1 mRNA and concomitant inhibition of THBS1/FAK signaling.Conclusions:IKIP inhibits THBS1/FAK signaling to suppress migration and invasion of GBM cells. 展开更多
关键词 Inhibitor of NF-κB kinase-interacting protein(IKIP) glioblastoma(GBM) Migration Thrombospondin 1(THBS1) FAK signaling
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Celastrol inhibits inflammatory factors expression in glioblastoma
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作者 Na Qin Shu-Xian Yang +1 位作者 Shi-Man Gao Ting Zhu 《Traditional Medicine Research》 2024年第6期1-11,共11页
Background:Glioblastoma is one of the most common primary intracranial tumors of the central nervous system in adults.Although chemotherapy is an important component of glioblastoma treatment,its effectiveness remains... Background:Glioblastoma is one of the most common primary intracranial tumors of the central nervous system in adults.Although chemotherapy is an important component of glioblastoma treatment,its effectiveness remains unsatisfactory.Due to multiple immunosuppressive mechanisms,glioblastoma immunotherapy has not been effective in treating many patients as a result of the clinical breakthroughs in the field.Therefore,the development of cancer immunotherapy relies on the understanding of how tumors interact with the immune system and the analysis of their molecular determinants.This study identified the key interactions between immune cells in the glioma microenvironment using RNA microarrays and single-cell sequencing.Methods:First,we screened differentially expressed genes in tumor and control samples from GSE29796 and GSE50161 datasets using GEO2R.All differentially expressed genes were used to perform enrichment analysis and construct protein-protein interaction topological analysis to analyze the interaction between proteins.Using single-cell RNA sequencing data from the GSE162631 database,we identified immune cell types within the glioblastoma microenvironment,and validated the hub gene expression in these cells.In addition,based on the GEPIA and TIMER databases,hub genes were investigated and compared with immune infiltration to determine differential expression.Finally,CellChat was used to visualize the gene expression distribution and cell-to-cell communication analysis of the proteins between different types of cells.Results:We found that monocytes/macrophages may communicate with each other in the tumor microenvironment through MIF-(CD74+CXCR4)and MIF-(CD74+CD44).In addition,our study indicated that celastrol has the ability to inhibit inflammatory factors expression by MIF/CD74 signaling pathway in U87 cells.Conclusion:This study improved the effectiveness of cancer immunotherapy strategies and developed new ideas for immunotherapy that can be applied to glioblastoma. 展开更多
关键词 glioblastoma monocytes/macrophages single-cell RNA sequencing MIF/CD74 signaling pathway CELASTROL
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Hypoxia-inducible factor 1alpha and vascular endothelial growth factor in Glioblastoma Multiforme:a systematic review going beyond pathologic implications
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作者 DIMITRA P.VAGELI PANAGIOTIS G.DOUKAS +5 位作者 KERASIA GOUPOU ANTONIOS D.BENOS KYRIAKI ASTARA KONSTANTINA ZACHAROULI SOTIRIS SOTIRIOU MARIA IOANNOU 《Oncology Research》 SCIE 2024年第8期1239-1256,共18页
Glioblastoma multiforme(GBM)is an aggressive primary brain tumor characterized by extensive heterogeneity and vascular proliferation.Hypoxic conditions in the tissue microenvironment are considered a pivotal player le... Glioblastoma multiforme(GBM)is an aggressive primary brain tumor characterized by extensive heterogeneity and vascular proliferation.Hypoxic conditions in the tissue microenvironment are considered a pivotal player leading tumor progression.Specifically,hypoxia is known to activate inducible factors,such as hypoxia-inducible factor 1alpha(HIF-1α),which in turn can stimulate tumor neo-angiogenesis through activation of various downward mediators,such as the vascular endothelial growth factor(VEGF).Here,we aimed to explore the role of HIF-1α/VEGF immunophenotypes alone and in combination with other prognostic markers or clinical and image analysis data,as potential biomarkers of GBM prognosis and treatment efficacy.We performed a systematic review(Medline/Embase,and Pubmed database search was completed by 16th of April 2024 by two independent teams;PRISMA 2020).We evaluated methods of immunoassays,cell viability,or animal or patient survival methods of the retrieved studies to assess unbiased data.We used inclusion criteria,such as the evaluation of GBM prognosis based on HIF-1α/VEGF expression,other biomarkers or clinical and imaging manifestations in GBM related to HIF-1α/VEGF expression,application of immunoassays for protein expression,and evaluation of the effectiveness of GBM therapeutic strategies based on HIF-1α/VEGF expression.We used exclusion criteria,such as data not reporting both HIF-1αand VEGF or prognosis.We included 50 studies investigating in total 1319 GBM human specimens,18 different cell lines or GBM-derived stem cells,and 6 different animal models,to identify the association of HIF-1α/VEGF immunophenotypes,and with other prognostic factors,clinical and macroscopic data in GBM prognosis and therapeutic approaches.We found that increased HIF-1α/VEGF expression in GBM correlates with oncogenic factors,such as miR-210-3p,Oct4,AKT,COX-2,PDGF-C,PLDO3,M2 polarization,or ALK,leading to unfavorable survival.Reduced HIF-1α/VEGF expression correlates with FIH-1,ADNP,or STAT1 upregulation,as well as with clinical manifestations,like epileptogenicity,and a favorable prognosis of GBM.Based on our data,HIF-1αor VEGF immunophenotypes may be a useful tool to clarify MRI-PET imaging data distinguishing between GBM tumor progression and pseudoprogression.Finally,HIF-1α/VEGF immunophenotypes can reflect GBM treatment efficacy,including combined first-line treatment with histone deacetylase inhibitors,thimerosal,or an active metabolite of irinotecan,as well as STAT3 inhibitors alone,and resulting in a favorable tumor prognosis and patient survival.These data were supported by a combination of variable methods used to evaluate HIF-1α/VEGF immunophenotypes.Data limitations may include the use of less sensitive detection methods in some cases.Overall,our data support HIF-1α/VEGF’s role as biomarkers of GBM prognosis and treatment efficacy. 展开更多
关键词 glioblastoma multiforme(GBM) Astrocytoma Grade III Astrocytoma Grade IV Hypoxia-inducible factor 1alpha(HIF-1α) Vascular endothelial growth factor(VEGF)
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Cerebral Glioblastoma in Renal Transplant Recipient: A Case Report
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作者 Imane Saidi Meryem Benbella +2 位作者 Loubna Benamar Naima Ouzeddoun Tarik Bouattar 《Open Journal of Nephrology》 2024年第1期10-16,共7页
Cancers is a leading cause of mortality among transplant recipients. The most common cancers are skin tumors. Glioblastoma is the most frequent brain tumor in adults aged 45 - 70 years. It accounts for 12% - 15% of al... Cancers is a leading cause of mortality among transplant recipients. The most common cancers are skin tumors. Glioblastoma is the most frequent brain tumor in adults aged 45 - 70 years. It accounts for 12% - 15% of all intracranial tumors. It is characterized by its rapid development and poor prognosis. We report the case of a cerebral glioblastoma in a kidney transplant recipient. Clinical case: Mr G.R, 44 years old caucasian patient who underwent kidney transplantation. Immunosuppressive treatment included cyclosporine, mycophenolate mofetil and methylprednisolone. Creatinine levels after transplantation remained stable at 11 mg/L (96.8 μmol/l) with an estimated glomerular filtration rate (eGFR) of 77 ml/min/1.73m<sup>2</sup> after a 15 years of follow-up. A grade IV right fronto-callossal cerebral glioblastoma was diagnosed in our patient. EBV PCR was negative. Therefore, he underwent 25 sessions of radiotherapy combined with oral chemotherapy using temozolomide. One month later, the patient died due to cerebral edema with subfalcine herniation. Conclusion: This is a case of cerebral glioblastoma in a kidney transplant recipient, a population considered at risk for tumor development due to immunosuppressive treatment. This emphasizes the need for a lifelong surveillance and, more importantly a better balance between graft function preservation and the risks associated with immunosuppressants. 展开更多
关键词 glioblastoma Kidney Transplantation CANCER Immunossupression
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Expert opinion on translational research for advanced glioblastoma treatment 被引量:3
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作者 Xiaoteng Cui Yunfei Wang +2 位作者 Junhu Zhou Qixue Wang Chunsheng Kang 《Cancer Biology & Medicine》 SCIE CAS CSCD 2023年第5期344-352,共9页
Malignant gliomas are known to be one of the most difficult diseases to diagnose and treat because of the infiltrative growth pattern,rapid progression,and poor prognosis.Many antitumor drugs are not ideal for the tre... Malignant gliomas are known to be one of the most difficult diseases to diagnose and treat because of the infiltrative growth pattern,rapid progression,and poor prognosis.Many antitumor drugs are not ideal for the treatment of gliomas due to the blood-brain barrier.Temozolomide(TMZ)is a DNA alkylating agent that can cross the blood-brain barrier.As the only first-line chemotherapeutic drug for malignant gliomas at present,TMZ is widely utilized to provide a survival benefit;however,some patients are inherently insensitive to TMZ.In addition,patients could develop acquired resistance during TMZ treatment,which limits antitumor efficacy.To clarify the mechanism underlying TMZ resistance,numerous studies have provided multilevel solutions,such as improving the effective concentration of TMZ in tumors and developing novel small molecule drugs.This review discusses the in-depth mechanisms underlying TMZ drug resistance,thus aiming to provide possibilities for the establishment of personalized therapeutic strategies against malignant gliomas and the accelerated development and transformation of new targeted drugs. 展开更多
关键词 Malignant gliomas glioblastoma TEMOZOLOMIDE CHEMORESISTANCE small molecule drugs
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Nanosensitizers for sonodynamic therapy for glioblastoma multiforme: current progress and future perspectives 被引量:3
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作者 Qing-Long Guo Xing-Liang Dai +5 位作者 Meng-Yuan Yin Hong-Wei Cheng Hai-Sheng Qian Hua Wang Dao-Ming Zhu Xian-Wen Wang 《Military Medical Research》 SCIE CAS CSCD 2023年第1期94-112,共19页
Glioblastoma multiforme(GBM) is the most common primary malignant brain tumor, and it is associated with poor prognosis. Its characteristics of being highly invasive and undergoing heterogeneous genetic mutation, as w... Glioblastoma multiforme(GBM) is the most common primary malignant brain tumor, and it is associated with poor prognosis. Its characteristics of being highly invasive and undergoing heterogeneous genetic mutation, as well as the presence of the blood–brain barrier(BBB), have reduced the efficacy of GBM treatment. The emergence of a novel therapeutic method, namely, sonodynamic therapy(SDT), provides a promising strategy for eradicating tumors via activated sonosensitizers coupled with low-intensity ultrasound. SDT can provide tumor killing effects for deep-seated tumors, such as brain tumors. However, conventional sonosensitizers cannot effectively reach the tumor region and kill additional tumor cells, especially brain tumor cells. Efforts should be made to develop a method to help therapeutic agents pass through the BBB and accumulate in brain tumors. With the development of novel multifunctional nanosensitizers and newly emerging combination strategies, the killing ability and selectivity of SDT have greatly improved and are accompanied with fewer side effects. In this review, we systematically summarize the findings of previous studies on SDT for GBM, with a focus on recent developments and promising directions for future research. 展开更多
关键词 glioblastoma multiforme(GBM) Blood–brain barrier(BBB) Sonodynamic therapy(SDT) Sonosensitizers Combination therapy
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Nanomedicine-based combination therapies for overcoming temozolomide resistance in glioblastomas 被引量:2
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作者 Chun Wang Qiushi Li +1 位作者 Jian Xiao Yang Liu 《Cancer Biology & Medicine》 SCIE CAS CSCD 2023年第5期325-343,共19页
Glioblastoma(GBM)is the most common malignant brain tumor.Although current treatment strategies,including surgery,chemotherapy,and radiotherapy,have achieved clinical effects and prolonged the survival of patients,the... Glioblastoma(GBM)is the most common malignant brain tumor.Although current treatment strategies,including surgery,chemotherapy,and radiotherapy,have achieved clinical effects and prolonged the survival of patients,the gradual development of resistance against current therapies has led to a high recurrence rate and treatment failure.Mechanisms underlying the development of resistance involve multiple factors,including drug efflux,DNA damage repair,glioma stem cells,and a hypoxic tumor environment,which are usually correlative and promote each other.As many potential therapeutic targets have been discovered,combination therapy that regulates multiple resistance-related molecule pathways is considered an attractive strategy.In recent years,nanomedicine has revolutionized cancer therapies with optimized accumulation,penetration,internalization,and controlled release.Blood-brain barrier(BBB)penetration efficiency is also significantly improved through modifying ligands on nanomedicine and interacting with the receptors or transporters on the BBB.Moreover,different drugs for combination therapy usually process different pharmacokinetics and biodistribution,which can be further optimized with drug delivery systems to maximize the therapeutic efficiency of combination therapies.Herein the current achievements in nanomedicine-based combination therapy for GBM are discussed.This review aimed to provide a broader understanding of resistance mechanisms and nanomedicine-based combination therapies for future research on GBM treatment. 展开更多
关键词 Combination therapy drug resistance glioblastoma NANOTECHNOLOGY TEMOZOLOMIDE
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Development of glioblastoma organoids and their applications in personalized therapy 被引量:2
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作者 Can Xu Xiaoye Yuan +4 位作者 Pengyu Hou Ziru Li Changsheng Wang Chuan Fang Yanli Tan 《Cancer Biology & Medicine》 SCIE CAS CSCD 2023年第5期353-368,共16页
Glioblastomas(GBMs)are the brain tumors with the highest malignancy and poorest prognoses.GBM is characterized by high heterogeneity and resistance to drug treatment.Organoids are 3-dimensional cultures that are const... Glioblastomas(GBMs)are the brain tumors with the highest malignancy and poorest prognoses.GBM is characterized by high heterogeneity and resistance to drug treatment.Organoids are 3-dimensional cultures that are constructed in vitro and comprise cell types highly similar to those in organs or tissues in vivo,thus simulating specific structures and physiological functions of organs.Organoids have been technically developed into an advanced ex vivo disease model used in basic and preclinical research on tumors.Brain organoids,which simulate the brain microenvironment while preserving tumor heterogeneity,have been used to predict patients’therapeutic responses to antitumor drugs,thus enabling a breakthrough in glioma research.GBM organoids provide an effective supplementary model that reflects human tumors’biological characteristics and functions in vitro more directly and accurately than traditional experimental models.Therefore,GBM organoids are widely applicable in disease mechanism research,drug development and screening,and glioma precision treatments.This review focuses on the development of various GBM organoid models and their applications in identifying new individualized therapies against drug-resistant GBM. 展开更多
关键词 glioblastoma ORGANOIDS glioma stem cell drug screening
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Long non-coding RNA DPP10-AS1 represses the proliferation and invasiveness of glioblastoma by regulating miR-24-3p/CHD5 signaling pathway 被引量:3
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作者 JIWEI SUN LIANG XU +4 位作者 YESEN ZHANG HAORAN LI JIE FENG XUEFENG LU JUN DONG 《BIOCELL》 SCIE 2023年第12期2721-2733,共13页
This investigation aimed to unveil new prospective diagnosis-related biomarkers together with treatment targets against glioblastoma.Methods:The expression levels of long non-coding RNA(lncRNA)DPP10-AS1 were assessed ... This investigation aimed to unveil new prospective diagnosis-related biomarkers together with treatment targets against glioblastoma.Methods:The expression levels of long non-coding RNA(lncRNA)DPP10-AS1 were assessed using real-time quantitative polymerase chain reaction(RT-qPCR)within both the patient tissue specimens and glioblastoma cell lines.The relationship between lncRNA DPP10-AS1 expression in glioblastoma and patient prognosis was investigated.Cell Counting Kit-8(CCK-8),transwell,and clonogenic experiments were utilized to assess tumor cells’proliferation,invasiveness,and migratory potentials after lncRNA DPP10-AS1 expression was up or down-regulated.Using an online bioinformatics prediction tool,the intracellular localization of lncRNA DPP10-AS1 and its target miRNA were predicted,and RNA-FISH verified results.A dual-luciferase reporter experiment validated the relationship across miR-24-3p together with lncRNA DPP10-AS1.MiR-24-3p expression within glioblastoma was identified through RT-qPCR,and potential link across miR-24-3p and lncRNA DPP10-AS1 was assessed using Pearson correlation analysis.Moreover,influence from lncRNA DPP10-AS1/miR-24-3p axis upon glioblastoma cell progression was assessed in vivo via a subcutaneous xenograft tumor model.Results:The expression of lncRNA DPP10-AS1 was notably reduced in both surgical specimens of glioblastoma and the equivalent cell lines.Low level of lncRNA DPP10-AS1 in glioblastoma is following poor prognosis.The downregulation of lncRNA DPP10-AS1 in glioblastoma cells resulted in enhanced cellular proliferation,migration,and invasion capabilities,accompanied by downregulated E-cadherin and upregulated vimentin and N-cadherin.Additionally,the observed upregulation of lncRNA DPP10-AS1 demonstrated a substantial inhibitory function upon proliferation,invasion,and migratory capabilities of LN229 cells.Subcellular localization disclosed that lncRNA DPP10-AS1 had a binding site that interacted with miR-24-3p.Upregulated miR-24-3p was detected in glioblastomas,displaying an inverse correlation with lncRNA DPP10-AS1 expression.MiR-24-3p downstream target has been determined as chromodomain helicase DNA binding protein 5(CHD5).LncRNA DPP10-AS1 affected the invasion and proliferation of glioblastoma by controlling the miR-24-3p/CHD5 axis.Conclusion:The present study demonstrated that lncRNA DPP10-AS1 can inhibit the invasive,migratory,and proliferative properties of glioblastoma by regulating the miR-24-3p/CHD5 signaling pathway.Consequently,lncRNA DPP10-AS1 has potential as a tumor suppressor and might be utilized for accurate diagnosis and targeted treatments of glioblastomas. 展开更多
关键词 glioblastoma lncRNA DPP10-AS1 miR-24-3p Chromodomain helicase DNA binding protein 5
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Glioblastoma multiforme:Diagnosis, treatment, and invasion 被引量:1
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作者 Jiawei Li Lili Feng Yingmei Lu 《The Journal of Biomedical Research》 CAS CSCD 2023年第1期47-58,共12页
Glioblastoma multiforme(GBM) is an essentially incurable brain tumor, which has been explored for approximately a century. Nowadays, surgical resection, chemotherapy, and radiation therapy are still the standardized t... Glioblastoma multiforme(GBM) is an essentially incurable brain tumor, which has been explored for approximately a century. Nowadays, surgical resection, chemotherapy, and radiation therapy are still the standardized therapeutic options. However, due to the intrinsic invasion and metastasis features and the resistance to chemotherapy, the survival rate of glioblastoma patients remains unsatisfactory. To improve the current situation, much more research is needed to provide comprehensive knowledge of GBM. In this review, we summarize the latest updates on GBM treatment and invasion. Firstly, we review the traditional and emerging therapies that have been used for GBM treatment. Given the limited efficiency of these therapies, we further discuss the role of invasion in GBM recurrence and progression, and present current research progress on the mode and mechanisms of GBM invasion. 展开更多
关键词 glioblastoma multiforme DIAGNOSIS TREATMENT patterns of invasion invasion mechanism
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Immunotherapy in glioblastoma treatment:Current state and future prospects 被引量:1
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作者 Samuel Luca Rocha Pinheiro Fabian Fellipe Bueno Lemos +7 位作者 Hanna Santos Marques Marcel Silva Luz Luís Guilherme de Oliveira Silva Clara Faria Souza Mendes dos Santos Karolaine da Costa Evangelista Mariana Santos Calmon Matheus Sande Loureiro Fabrício Freire de Melo 《World Journal of Clinical Oncology》 CAS 2023年第4期138-159,共22页
Glioblastoma remains as the most common and aggressive malignant brain tumor,standing with a poor prognosis and treatment prospective.Despite the aggressive standard care,such as surgical resection and chemoradiation,... Glioblastoma remains as the most common and aggressive malignant brain tumor,standing with a poor prognosis and treatment prospective.Despite the aggressive standard care,such as surgical resection and chemoradiation,median survival rates are low.In this regard,immunotherapeutic strategies aim to become more attractive for glioblastoma,considering its recent advances and approaches.In this review,we provide an overview of the current status and progress in immunotherapy for glioblastoma,going through the fundamental knowledge on immune targeting to promising strategies,such as Chimeric antigen receptor T-Cell therapy,immune checkpoint inhibitors,cytokine-based treatment,oncolytic virus and vaccine-based techniques.At last,it is discussed innovative methods to overcome diverse challenges,and future perspectives in this area. 展开更多
关键词 glioblastoma IMMUNOTHERAPY Tumor microenvironment Chimeric antigen receptor T cell Oncolytic viruses Immune-checkpoint inhibitors Brain cancer
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Implantation of hydrogel-liposome nanoplatform inhibits glioblastoma relapse by inducing ferroptosis
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作者 Zixiao Wang Zihao Liu +15 位作者 Shan Wang Xin Bing Xiaoshuai Ji Dong He Min Han Yanbang Wei Chanyue Wang Qian Xia Jianqiao Yang Jiajia Gao Xianyong Yin Zhihai Wang Zehan Shang Jiacan Xu Tao Xin Qian Liu 《Asian Journal of Pharmaceutical Sciences》 SCIE CAS 2023年第3期64-78,共15页
Glioblastoma is acknowledged as the most aggressive cerebral tumor in adults.However,the efficacy of current standard therapy is seriously undermined by drug resistance and suppressive immune microenvironment.Ferropto... Glioblastoma is acknowledged as the most aggressive cerebral tumor in adults.However,the efficacy of current standard therapy is seriously undermined by drug resistance and suppressive immune microenvironment.Ferroptosis is a recently discovered form of iron-dependent cell death that may have excellent prospect as chemosensitizer.The utilization of ferropotosis inducer Erastin could significantly mediate chemotherapy sensitization of Temozolomide and exert anti-tumor effects in glioblastoma.In this study,a combination of hydrogel-liposome nanoplatform encapsulatedwith Temozolomide and ferroptosis inducer Erastin was constructed.Theαvβ3 integrin-binding peptide cyclic RGD was utilized to modify codelivery system to achieve glioblastoma targeting strategy.As biocompatible drug reservoirs,cross-linked GelMA(gelatin methacrylamide)hydrogel and cRGD-coated liposome realized the sustained release of internal contents.In the modified intracranial tumor resection model,GelMA-liposome system achieved slow release of Temozolomide and Erastin in situ for more than 14 d.The results indicated that nanoplatform(T+E@LPs-cRGD+GelMA)improved glioblastoma sensitivity to chemotherapeutic temozolomide and exerted satisfactory anti-tumor effects.It was demonstrated that the induction of ferroptosis could be utilized as a therapeutic strategy to overcome drug resistance.Furthermore,transcriptome sequencing was conducted to reveal the underlying mechanism that the nanoplatform(T+E@LPs-cRGD+GelMA)implicated in.It is suggested that GelMA-liposome system participated in the immune response and immunomodulation of glioblastoma via interferon/PD-L1 pathway.Collectively,this study proposed a potential combinatory therapeutic strategy for glioblastoma treatment. 展开更多
关键词 glioblastoma RELAPSE Hydrogel-liposome Ferroptosis Drug resistance IMMUNOMODULATION
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