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51. Resibufogenin Targets the ATP1A1 Signaling Cascade to Induce G2/M Phase Arrest and Inhibit Invasion in Glioma

Author

Zhang, Xun, Yao, Zhong, Xue, Zhiyi, Wang, Shuai, Liu, Xuemeng, Hu, Yaotian, Zhang, Yan, Wang, Jian, Li, Xingang, and Chen, Anjing

Subjects
Pharmacology, Pharmacology (medical)
Abstract

Resibufogenin (RB) is a major active ingredient in the traditional Chinese medicine Chansu and has garnered considerable attention for its efficacy in the treatment of cancer. However, the anticancer effects and underlying mechanisms of RB on glioblastoma (GBM) remain unknown. Here, we found that RB induced G2/M phase arrest and inhibited invasion in a primary GBM cell line, P3#GBM, and two GBM cell lines, U251 and A172. Subsequently, we demonstrated that RB-induced G2/M phase arrest occurred through downregulation of CDC25C and upregulation of p21, which was caused by activation of the MAPK/ERK pathway, and that RB inhibited GBM invasion by elevating intercellular Ca2+ to suppress the Src/FAK/Paxillin focal adhesion pathway. Intriguingly, we confirmed that upon RB binding to ATP1A1, Na+-K+-ATPase was activated as a receptor and then triggered the intracellular MAPK/ERK pathway and Ca2+-mediated Src/FAK/Paxillin focal adhesion pathway, which led to G2/M phase arrest and inhibited the invasion of GBM cells. Taken together, our findings reveal the antitumor mechanism of RB by targeting the ATP1A1 signaling cascade and two key signaling pathways and highlight the potential of RB as a new class of promising anticancer agents.

Published
2022

52. Knockdown of NUSAP1 inhibits cell proliferation and invasion through downregulation of TOP2A in human glioblastoma

Author

Hu, Yaotian, primary, Xue, Zhiyi, additional, Qiu, Chen, additional, Feng, Zichao, additional, Qi, Qichao, additional, Wang, Jiwei, additional, Jin, Wenxing, additional, Zhong, Zhaoyang, additional, Liu, Xiaofei, additional, Li, Wenjie, additional, Zhang, Qing, additional, Huang, Bin, additional, Chen, Anjing, additional, Wang, Jian, additional, Yang, Ning, additional, and Zhou, Wenjing, additional

Published
2022
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57. Identification and characterization of two morphologically distinct stem cell subpopulations from human urine samples

Author

Jun-Gen Hu, Chen Anjing, Hong-Wei Gao, Huiqi Xie, Jesse Li-Ling, Sheng-Fu Li, Yi-Zhou Huang, and Jin-Kui Pi

Subjects
0301 basic medicine, Urology, Mesenchyme, CD34, Motility, Nephron, Urine, Biology, Aquaporins, Kidney, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, Uromodulin, medicine, Humans, CD90, Cell Proliferation, Solute Carrier Family 12, Member 1, General Environmental Science, Wound Healing, Membrane Glycoproteins, CD24, Stem Cells, CD44, Cell Differentiation, Molecular biology, 030104 developmental biology, medicine.anatomical_structure, Gene Expression Regulation, 030220 oncology & carcinogenesis, biology.protein, Stem cell, General Agricultural and Biological Sciences, Octamer Transcription Factor-3, Biomarkers, Stem Cell Transplantation
Abstract

Urine-derived stem cells (USCs) have shown potentials for the treatment of skeletal and urological disorders. Based on published literature and our own data, USCs consist of heterogeneous populations of cells. In this paper, we identify and characterize two morphologically distinct subpopulations of USCs from human urine samples, named as spindle-shaped USCs (SS-USCs) and rice-shaped USCs (RS-USCs) respectively. The two subpopulations showed similar clone-forming efficiency, while SS-USCs featured faster proliferation, higher motility, and greater potential for osteogenic and adipogenic differentiation, RS-USCs showed greater potential for chondrogenic differentiation. POU5F1 was strongly expressed in both subpopulations, but MYC was weakly expressed. Both subpopulations showed similar patterns of CD24, CD29, CD34, CD44, CD73, CD90 and CD105 expression, while a higher percentage of RS-USCs were positive for CD133. SS-USCs were positive for VIM, weakly positive for SLC12A1 and UMOD, and negative for KRT18, NPHS1, AQP1 and AQP2, indicating a renal mesenchyme origin; while RS-USCs are positive for VIM, partially positive for KRT18, NPHS1, AQP1, SLC12A1 and UMOD, and negative for AQP2, indicating a nephron tubule origin. The above results can facilitate understanding of the biological characteristics of subpopulations of USCs, and provide a basis for further research and applications of such cells.

Published
2019

58. Correction: Procollagen-lysine 2-oxoglutarate 5-dioxygenase 2 promotes hypoxia-induced glioma migration and invasion

Author

Xu, Yangyang, primary, Zhang, Lin, additional, Wei, Yuzhen, additional, Zhang, Xin, additional, Xu, Ran, additional, Han, Mingzhi, additional, Huang, Bing, additional, Chen, Anjing, additional, Li, Wenjie, additional, Zhang, Qing, additional, Li, Gang, additional, Wang, Jian, additional, Zhao, Peng, additional, and Li, Xingang, additional

Published
2021
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59. Corrigendum to “miR-6858 plays a key role in the process of melatonin inhibition of the malignant biological behavior of glioma” [J. Clin. Neurosci. 87 (2021) 137–146]

Author

Wang, Chenglong, primary, Zhao, Zhimin, additional, Qi, Qichao, additional, Wang, Jiwei, additional, Kong, Yang, additional, Feng, Zichao, additional, Chen, Anjing, additional, Li, Wenjie, additional, Zhang, Qing, additional, Wang, Jian, additional, Huang, Bin, additional, and Li, Xingang, additional

Published
2021
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60. Identification of lncRNA Signature Associated With Pan-Cancer Prognosis

Author

Bao, Guoqing, primary, Xu, Ran, additional, Wang, Xiuying, additional, Ji, Jianxiong, additional, Wang, Linlin, additional, Li, Wenjie, additional, Zhang, Qing, additional, Huang, Bin, additional, Chen, Anjing, additional, Zhang, Di, additional, Kong, Beihua, additional, Yang, Qifeng, additional, Yuan, Cunzhong, additional, Wang, Xinyu, additional, Wang, Jian, additional, and Li, Xingang, additional

Published
2021
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62. Trifluoperazine prolongs the survival of experimental brain metastases by STAT3-dependent lysosome membrane permeabilization

Author

Zhang, Xin, Ding, Kaikai, Ji, Jianxiong, Parajuli, Himalaya, Aasen, Synnøve Nymark, Espedal, Heidi, Huang, Bin, Chen, Anjing, Wang, Jian, Li, Xingang, and Thorsen, Frits

Abstract

Brain metastasis is a major cause of mortality in melanoma patients. The blood-brain barrier (BBB) prevents most anti-tumor compounds from entering the brain, which significantly limits their use in the treatment of brain metastasis. One strategy in the development of new treatments is to assess the anti-tumor potential of drugs currently used in the clinic. Here, we tested the anti-tumor effect of the BBB-penetrating antipsychotic trifluoperazine (TFP) on metastatic melanoma. H1 and Melmet1 human metastatic melanoma cell lines were used in vitro and in vivo. TFP effects on viability and toxicity were evaluated in proliferation and colony formation assays. Preclinical, therapeutic efficacy was evaluated in NOD/SCID mice, after intracardial injection of tumor cells. Molecular studies using immunohistochemistry, western blots, immunofluorescence and transmission electron microscopy were used to gain mechanistic insight into the biological activity of TFP. Our results showed that TFP decreased cell viability and proliferation, colony formation and spheroid growth in vitro. The drug also decreased tumor burden in mouse brains and prolonged animal survival after injection of tumor cells (53.0 days vs 44.5 days), TFP treated vs untreated animals, respectively (P < 0.01). At the molecular level, TFP treatment led to increased levels of LC3B and p62 in vitro and in vivo, suggesting an inhibition of autophagic flux. A decrease in LysoTracker Red uptake after treatment indicated impaired acidification of lysosomes. TFP caused accumulation of electron dense vesicles, an indication of damaged lysosomes, and reduced the expression of cathepsin B, a main lysosomal protease. Acridine orange and galectin-3 immunofluorescence staining were evidence of TFP induction of lysosomal membrane permeabilization. Finally, TFP was cytotoxic to melanoma brain metastases based on the increased release of lactate dehydrogenase into media. Through knockdown experiments, the processes of TFP-induced lysosomal membrane permeabilization and cell death appeared to be STAT3 dependent. In conclusion, our work provides a strong rationale for further clinical investigation of TFP as an adjuvant therapy for melanoma patients with metastases to the brain. publishedVersion

Published
2020

63. Knockdown of NUSAP1 Inhibits Cell Proliferation and Invasion Through Down-Regulation of TOP2A in Human Glioblastoma

Author

Hu, Yaotian, primary, Xue, Zhiyi, additional, Qiu, Chen, additional, Feng, Zichao, additional, Qi, Qichao, additional, Wang, Jiwei, additional, Jin, Wenxing, additional, Zhong, Zhaoyang, additional, Liu, Xiaofei, additional, Li, Wenjie, additional, Zhang, Qing, additional, Huang, Bin, additional, Chen, Anjing, additional, Wang, Jian, additional, Yang, Ning, additional, and Zhou, Wenjing, additional

Published
2020
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66. Interfering with long non-coding RNA MIR22HG processing inhibits glioblastoma progression through suppression of Wnt/β-catenin signalling

Author

Han, Mingzhi, primary, Wang, Shuai, additional, Fritah, Sabrina, additional, Wang, Xu, additional, Zhou, Wenjing, additional, Yang, Ning, additional, Ni, Shilei, additional, Huang, Bin, additional, Chen, Anjing, additional, Li, Gang, additional, Miletic, Hrvoje, additional, Thorsen, Frits, additional, Bjerkvig, Rolf, additional, Li, Xingang, additional, and Wang, Jian, additional

Published
2019
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67. Therapeutic implications of altered cholesterol homeostasis mediated by loss of CYP46A1 in human glioblastoma

Author

Han, Mingzhi, primary, Wang, Shuai, additional, Yang, Ning, additional, Wang, Xu, additional, Zhao, Wenbo, additional, Saed, Halala Sdik, additional, Daubon, Thomas, additional, Huang, Bin, additional, Chen, Anjing, additional, Li, Gang, additional, Miletic, Hrvoje, additional, Thorsen, Frits, additional, Bjerkvig, Rolf, additional, Li, Xingang, additional, and Wang, Jian, additional

Published
2019
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68. Reduced expression of proteolipid protein 2 increases ER stress‐induced apoptosis and autophagy in glioblastoma

Author

Feng, Zichao, primary, Zhou, Wenjing, additional, Wang, Jiwei, additional, Qi, Qichao, additional, Han, Mingzhi, additional, Kong, Yang, additional, Hu, Yaotian, additional, Zhang, Yulin, additional, Chen, Anbin, additional, Huang, Bin, additional, Chen, Anjing, additional, Zhang, Di, additional, Li, Wenjie, additional, Zhang, Qing, additional, Bjerkvig, Rolf, additional, Wang, Jian, additional, Thorsen, Frits, additional, and Li, Xingang, additional

Published
2019
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69. Long Noncoding RNA SChLAP1 Forms a Growth-Promoting Complex with HNRNPL in Human Glioblastoma through Stabilization of ACTN4 and Activation of NF-κB Signaling

Author

Ji, Jianxiong, primary, Xu, Ran, additional, Ding, Kaikai, additional, Bao, Guoqing, additional, Zhang, Xin, additional, Huang, Bin, additional, Wang, Xinyu, additional, Martinez, Aurora, additional, Wang, Xiuying, additional, Li, Gang, additional, Miletic, Hrvoje, additional, Thorsen, Frits, additional, Bjerkvig, Rolf, additional, Xiang, Lei, additional, Han, Bo, additional, Chen, Anjing, additional, Li, Xingang, additional, and Wang, Jian, additional

Published
2019
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70. PMEPA1 isoform a drives progression of glioblastoma by promoting protein degradation of the Hippo pathway kinase LATS1

Author

Ji, Jianxiong, primary, Ding, Kaikai, additional, Luo, Tao, additional, Xu, Ran, additional, Zhang, Xin, additional, Huang, Bin, additional, Chen, Anjing, additional, Zhang, Di, additional, Miletic, Hrvoje, additional, Bjerkvig, Rolf, additional, Thorsen, Frits, additional, Wang, Jian, additional, and Li, Xingang, additional

Published
2019
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71. The Natural Flavonoid Galangin Elicits Apoptosis, Pyroptosis, and Autophagy in Glioblastoma

Author

Kong, Yang, primary, Feng, Zichao, additional, Chen, Anjing, additional, Qi, Qichao, additional, Han, Mingzhi, additional, Wang, Shuai, additional, Zhang, Yulin, additional, Zhang, Xin, additional, Yang, Ning, additional, Wang, Jiwei, additional, Huang, Bin, additional, Zhang, Qing, additional, Xiang, Guo, additional, Li, Wenjie, additional, Zhang, Di, additional, Wang, Jian, additional, and Li, Xingang, additional

Published
2019
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73. Epithelial membrane protein 1 promotes glioblastoma progression through the PI3K/AKT/mTOR signaling pathway

Author

Miao, Lifeng, primary, Jiang, Zheng, additional, Wang, Jiwei, additional, Yang, Ning, additional, Qi, Qichao, additional, Zhou, Wenjing, additional, Feng, Zichao, additional, Li, Wenjie, additional, Zhang, Qing, additional, Huang, Bin, additional, Chen, Anjing, additional, Zhang, Di, additional, Zhao, Peng, additional, and Li, Xingang, additional

Published
2019
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74. Composite elastomeric polyurethane scaffolds incorporating small intestinal submucosa for soft tissue engineering

Author

Mei Gong, Jesse Li-Ling, Zhijun Guo, Huiqi Xie, Sheng-Fu Li, Chen Anjing, Li Zhang, Yi Zhang, Lin-Cui Da, and Yi-Zhou Huang

Subjects
Materials science, Composite number, Polyurethanes, Biomedical Engineering, 02 engineering and technology, 010402 general chemistry, Elastomer, 01 natural sciences, Biochemistry, Biomaterials, Extracellular matrix, chemistry.chemical_compound, Materials Testing, Human Umbilical Vein Endothelial Cells, Humans, Viability assay, Intestinal Mucosa, Molecular Biology, Polyurethane, chemistry.chemical_classification, Tissue Engineering, Tissue Scaffolds, Soft tissue, General Medicine, Polymer, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Extracellular Matrix, chemistry, Elastomers, Isophorone diisocyanate, 0210 nano-technology, Biotechnology, Biomedical engineering
Abstract

Although soft tissue replacement has been clinically successful in many cases, the corresponding procedure has many limitations including the lack of resilience and mechanical integrity, significant donor-site morbidity, volume loss with time, and fibrous capsular contracture. These disadvantages can be alleviated by utilizing bio-absorbable scaffolds with high resilience and large strain, which are capable of stimulating natural tissue regeneration. Hence, the chemically crosslinked tridimensional scaffolds obtained by incorporating water-based polyurethane (PU) (which was synthesized from polytetramethylene ether glycol, isophorone diisocyanate, and 2,2-bis(hydroxymethyl) butyric acid) into a bioactive extracellular matrix consisting of small intestinal submucosa (SIS) have been tested in this study to develop a new approach for soft tissue engineering. After characterizing the structure and properties of the produced PU/SIS composites, the strength, Young’s modulus, and resilience of wet PU/SIS samples were compared with those of crosslinked PU. In addition, the fabricated specimens were investigated using human umbilical vein endothelial cells to evaluate their ability to enhance cell attachment and proliferation. As a result, the synthesized PU/SIS samples exhibited high resilience and were capable of enhancing cell viability with no evidence of cytotoxicity. Subcutaneous implantation in animals and the subsequent testing conducted after 2, 4, and 8 weeks indicated that sound implant integration and vascularization occurred inside the PU/SIS composites, while the presence of SIS promoted cell infiltration, angiogenesis, and ultimately tissue regeneration. The obtained results revealed that the produced PU/SIS composites were characterized by high bioactivity and resilience, and, therefore, could be used for soft tissue engineering applications. Statement of Significance Hybrid composites containing synthetic polymers with high mechanical strength and naturally derived components, which create a bio-mimetic environment, are one of the most promising biomaterials. Although synthetic polymer/ECM composites have been previously used for soft tissue repair, their resilience properties were not investigated in sufficient detail, while the development of elastic composites composed of synthetic polymers and ECMs in nontoxic aqueous solutions remains a rather challenging task. In this study, porous PU/SIS composites were fabricated in a non-toxic manner; the obtained materials exhibited sufficient mechanical support, which promote cell growth, angiogenesis, and tissue regeneration. The described method can be adapted for the development of scaffolds with various acellular matrices and subsequently used during the restoration of particular types of tissue.

Published
2016

75. Reduced expression of proteolipid protein 2 increases ER stress‐induced apoptosis and autophagy in glioblastoma.

Author

Feng, Zichao, Zhou, Wenjing, Wang, Jiwei, Qi, Qichao, Han, Mingzhi, Kong, Yang, Hu, Yaotian, Zhang, Yulin, Chen, Anbin, Huang, Bin, Chen, Anjing, Zhang, Di, Li, Wenjie, Zhang, Qing, Bjerkvig, Rolf, Wang, Jian, Thorsen, Frits, and Li, Xingang

Subjects
PROTEIN expression, MEMBRANE proteins, CELL death, ENDOPLASMIC reticulum, GLIOBLASTOMA multiforme
Abstract

Proteolipid protein 2 (PLP2) is an integral ion channel membrane protein of the endoplasmic reticulum. The protein has been shown to be highly expressed in many cancer types, but its importance in glioma progression is poorly understood. Using publicly available datasets (Rembrandt, TCGA and CGGA), we found that the expression of PLP2 was significantly higher in high‐grade gliomas than in low‐grade gliomas. We confirmed these results at the protein level through IHC staining of high‐grade (n = 56) and low‐grade glioma biopsies (n = 16). Kaplan‐Meier analysis demonstrated that increased PLP2 expression was associated with poorer patient survival. In functional experiments, siRNA and shRNA PLP2 knockdown induced ER stress and increased apoptosis and autophagy in U87 and U251 glioma cell lines. Inhibition of autophagy with chloroquine augmented apoptotic cell death in U87‐ and U251‐siPLP2 cells. Finally, intracranial xenografts derived from U87‐ and U251‐shPLP2 cells revealed that loss of PLP2 reduced glioma growth in vivo. Our results therefore indicate that increased PLP2 expression promotes GBM growth and that PLP2 represents a potential future therapeutic target. [ABSTRACT FROM AUTHOR]

Published
2020
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76. Interfering with long non-coding RNA MIR22HG processing inhibits glioblastoma progression through suppression of Wnt/β-catenin signalling.

Author

Han, Mingzhi, Wang, Shuai, Fritah, Sabrina, Wang, Xu, Zhou, Wenjing, Yang, Ning, Ni, Shilei, Huang, Bin, Chen, Anjing, Li, Gang, Miletic, Hrvoje, Thorsen, Frits, Bjerkvig, Rolf, Li, Xingang, and Wang, Jian

Subjects
NON-coding RNA, METHYLGUANINE, SYNCRIP protein, NEURAL stem cells, WNT signal transduction, GLIOBLASTOMA multiforme, RESEARCH, ANIMAL experimentation, RESEARCH methodology, RNA, CYTOSKELETAL proteins, GLIOMAS, CELL physiology, EVALUATION research, MEDICAL cooperation, CELLULAR signal transduction, CELL motility, COMPARATIVE studies, GENES, CELL lines, MICE
Abstract

Long non-coding RNAs play critical roles in tumour progression. Through analysis of publicly available genomic datasets, we found that MIR22HG, the host gene of microRNAs miR-22-3p and miR-22-5p, is ranked among the most dysregulated long non-coding RNAs in glioblastoma. The main purpose of this work was to determine the impact of MIR22HG on glioblastoma growth and invasion and to elucidate its mechanistic function. The MIR22HG/miR-22 axis was highly expressed in glioblastoma as well as in glioma stem-like cells compared to normal neural stem cells. In glioblastoma, increased expression of MIR22HG is associated with poor prognosis. Through a number of functional studies, we show that MIR22HG silencing inhibits the Wnt/β-catenin signalling pathway through loss of miR-22-3p and -5p. This leads to attenuated cell proliferation, invasion and in vivo tumour growth. We further show that two genes, SFRP2 and PCDH15, are direct targets of miR-22-3p and -5p and inhibit Wnt signalling in glioblastoma. Finally, based on the 3D structure of the pre-miR-22, we identified a specific small-molecule inhibitor, AC1L6JTK, that inhibits the enzyme Dicer to block processing of pre-miR-22 into mature miR-22. AC1L6JTK treatment caused an inhibition of tumour growth in vivo. Our findings show that MIR22HG is a critical inducer of the Wnt/β-catenin signalling pathway, and that its targeting may represent a novel therapeutic strategy in glioblastoma patients. [ABSTRACT FROM AUTHOR]

Published
2020
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77. Cover Image

Author

Zhou, Wenjing, primary, Wang, Jiwei, additional, Qi, Qichao, additional, Feng, Zichao, additional, Huang, Bin, additional, Chen, Anjing, additional, Zhang, Di, additional, Li, Wenjie, additional, Zhang, Qing, additional, Bjerkvig, Rolf, additional, Li, Xingang, additional, and Wang, Jian, additional

Published
2018
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78. Inhibition of glioma growth by flavokawain B is mediated through endoplasmic reticulum stress induced autophagy

Author

Wang, Jiwei, primary, Qi, Qichao, additional, Zhou, Wenjing, additional, Feng, Zichao, additional, Huang, Bin, additional, Chen, Anjing, additional, Zhang, Di, additional, Li, Wenjie, additional, Zhang, Qing, additional, Jiang, Zheng, additional, Bjerkvig, Rolf, additional, Prestegarden, Lars, additional, Thorsen, Frits, additional, Wang, Xinyu, additional, Li, Xingang, additional, and Wang, Jian, additional

Published
2018
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80. PDGFA/PDGFRα-regulated GOLM1 promotes human glioma progression through activation of AKT

Author

Xu, Ran, primary, Ji, Jianxiong, additional, Zhang, Xin, additional, Han, Mingzhi, additional, Zhang, Chao, additional, Xu, Yangyang, additional, Wei, Yuzhen, additional, Wang, Shuai, additional, Huang, Bin, additional, Chen, Anjing, additional, Zhang, Di, additional, Zhang, Qing, additional, Li, Wenjie, additional, Jiang, Zheng, additional, Wang, Jian, additional, and Li, Xingang, additional

Published
2017
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81. TRIM22 activates NF-?B signaling in glioblastoma by accelerating the degradation of I?Ba

Author

Ji, Jianxiong, Ding, Kaikai, Luo, Tao, Zhang, Xin, Chen, Anjing, Zhang, Di, Li, Gang, Thorsen, Frits, Huang, Bin, Li, Xingang, and Wang, Jian

Abstract

NF-?B signaling plays a critical role in tumor growth and treatment resistance in GBM as in many other cancers. However, the molecular mechanisms underlying high, constitutive NF-?B activity in GBM remains to be elucidated. Here, we screened a panel of tripartite motif (TRIM) family proteins and identified TRIM22 as a potential activator of NF-?B using an NF-?B driven luciferase reporter construct in GBM cell lines. Knockout of TRIM22using Cas9-sgRNAs led to reduced GBM cell proliferation, while TRIM22overexpression enhanced proliferation of cell populations, in vitro and in an orthotopic xenograft model. However, two TRIM22 mutants, one with a critical RING-finger domain deletion and the other with amino acid changes at two active sites of RING E3 ligase (C15/18A), were both unable to promote GBM cell proliferation over controls, thus implicating E3 ligase activity in the growth-promoting properties of TRIM22. Co-immunoprecipitations demonstrated that TRIM22 bound a negative regulator of NF-?B, NF-?B inhibitor alpha (I?Ba), and accelerated its degradation by inducing K48-linked ubiquitination. TRIM22 also formed a complex with the NF-?B upstream regulator IKK? and promoted K63-linked ubiquitination, which led to the phosphorylation of both IKKa/ß and I?Ba. Expression of a non-phosphorylation mutant, srI?Ba, inhibited the growth-promoting properties of TRIM22 in GBM cell lines. Finally, TRIM22 was increased in a cohort of primary GBM samples on a tissue microarray, and high expression of TRIM22 correlated with other clinical parameters associated with progressive gliomas, such as wild-type IDH1 status. In summary, our study revealed that TRIM22 activated NF-?B signaling through posttranslational modification of two critical regulators of NF-?B signaling in GBM cells.

Published
2021
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82. Trifluoperazine, a novel autophagy inhibitor, increases radiosensitivity in glioblastoma by impairing homologous recombination

Author

Zhang, Xin, primary, Xu, Ran, additional, Zhang, Chao, additional, Xu, Yangyang, additional, Han, Mingzhi, additional, Huang, Bin, additional, Chen, Anjing, additional, Qiu, Chen, additional, Thorsen, Frits, additional, Prestegarden, Lars, additional, Bjerkvig, Rolf, additional, Wang, Jian, additional, and Li, Xingang, additional

Published
2017
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83. Coiled-coil domain containing 109B is a HIF1α-regulated gene critical for progression of human gliomas

Author

Xu, Ran, primary, Han, Mingzhi, additional, Xu, Yangyang, additional, Zhang, Xin, additional, Zhang, Chao, additional, Zhang, Di, additional, Ji, Jianxiong, additional, Wei, Yuzhen, additional, Wang, Shuai, additional, Huang, Bin, additional, Chen, Anjing, additional, Zhang, Qing, additional, Li, Wenjie, additional, Sun, Tao, additional, Wang, Feng, additional, Li, Xingang, additional, and Wang, Jian, additional

Published
2017
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84. Impact of VEGFA polymorphisms on glioma risk in Chinese

Author

Zhao, Peng, primary, Chen, Anjing, additional, Qi, Qichao, additional, Zhou, Wenjing, additional, Feng, Zichao, additional, Wang, Jiwei, additional, Yang, Ning, additional, Li, Xingang, additional, Wang, Jian, additional, Huang, Qibing, additional, and Huang, Bin, additional

Published
2017
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86. Procollagen-lysine 2-oxoglutarate 5-dioxygenase 2 promotes hypoxia-induced glioma migration and invasion

Author

Xu, Yangyang, primary, Zhang, Lin, additional, Wei, Yuzhen, additional, Zhang, Xin, additional, Xu, Ran, additional, Han, Mingzhi, additional, Huang, Bing, additional, Chen, Anjing, additional, Li, Wenjie, additional, Zhang, Qing, additional, Li, Gang, additional, Wang, Jian, additional, Zhao, Peng, additional, and Li, Xingang, additional

Published
2017
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88. Nanowhiskers Orchestrate Bone Formation and Bone Defect Repair by Modulating Immune Cell Behavior

Author

Peng, Haitao, Ling, Tingxian, Zhang, Yao, Xie, Tianhang, Pei, Xuan, Zhou, Kai, Chen, Anjing, Chen, Jiali, Zhu, Xiangdong, Zhang, Xingdong, and Zhou, Zongke

Abstract

Immunomodulatory biomaterials have emerged as promising treatment agents for bone defects. However, it is unclear how such biomaterials control immune cell behaviors to facilitate large-segment bone defect repair. Herein, we fabricated biphasic calcium phosphate ceramics with nanowhisker structures to explore the immunoregulation features and influence on large-segment bone defect repair. We found that the nanowhisker structures markedly facilitated large-segment bone defect repair by promoting bone regeneration and scaffold resorption. Our in vitroexperiment and transcriptomic analysis showed that mechanical stress derived from nanowhisker structures may activate the transcription of Egr-1 to induce early switch of macrophage phenotype to M2, which could not only facilitate osteogenic differentiation of BMSCs but also enhance the expression of osteoclast differentiation-regulating genes of M2 macrophage. In vivostudy showed that the nanowhisker structures relieved local inflammatory responses by inducing early switch of macrophage phenotype from M1 to M2, which resulted in accelerated osteoclastogenesis for biomaterial resorption and osteogenesis for ectopic bone formation. Hence, we presume that nanowhisker structures may orchestrate bone formation and material resorption coupling to facilitate large-segment bone defect repair by controlling the switch of macrophage phenotype. This study provides new insight into the designing of immunomodulatory tissue engineering biomaterials for treating large-segment bone defects.

Published
2024
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95. SUMOylation modification of HNRNPK at the K422 site promotes invasion in glioblastoma.

Author

Zhao W, Wang J, Zhao F, Li Y, Li Z, Li X, and Chen A

Subjects
Humans, Cell Line, Tumor, Neoplasm Invasiveness, Brain Neoplasms metabolism, Brain Neoplasms pathology, Brain Neoplasms genetics, SUMO-1 Protein metabolism, SUMO-1 Protein genetics, Animals, Glioblastoma metabolism, Glioblastoma pathology, Glioblastoma genetics, Sumoylation, Heterogeneous-Nuclear Ribonucleoprotein K metabolism, Heterogeneous-Nuclear Ribonucleoprotein K genetics
Abstract

Glioblastoma multiforme (GBM) is a highly heterogeneous brain tumor with limited treatment options. Recent studies revealed cellular heterogeneity and the potential for interconversion between distinct cell types on the basis of RNA sequencing and single-cell analyses. The ability of different cell types to adapt to their surrounding environment and undergo transformation significantly complicates the study and treatment of GBM. In this study, we reveal that HNRNPK-SUMO1 expression is predominantly found in the GBM infiltration area. SUMOylation of the K422 residue of HNRNPK interferes with its DNA binding ability, thereby disrupting downstream transcription, and ultimately leading to transitions between different states of glioblastoma stem cells. Although the proneural subtype is considered to have a better prognosis, transitioning towards this state promotes tumor invasion. These findings serve as a reminder to exercise caution when considering treatments targeting specific cellular subtypes., Competing Interests: Competing Interests: The authors have declared that no competing interest exists., (© The author(s).)

Published
2024
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96. The application of exosomes in the early diagnosis and treatment of osteoarthritis.

Author

Chen A, Chen Y, Rong X, You X, Wu D, Zhou X, Zeng W, and Zhou Z

Abstract

With the increase in human lifespan and the aggravation of global aging, the incidence of osteoarthritis (OA) is increasing annually. To better manage and control the progression of OA, prompt diagnosis and treatment for early-stage OA are important. However, a sensitive diagnostic modality and therapy for early OA have not been well developed. The exosome is a class of extracellular vesicles containing bioactive substances, that can be delivered directly from original cells to neighboring cells to modulate cellular activities through intercellular communication. In recent years, exosomes have been considered important in the early diagnosis and treatment of OA. Synovial fluid exosome and its encapsulated substances, e.g., microRNA, lncRNA, and proteins, can not only distinguish OA stages but also prevent the progression of OA by directly targeting cartilage or indirectly modulating the immune microenvironment in the joints. In this mini-review, we include recent studies on the diagnostic and therapeutic modalities of exosomes and hope to provide a new direction for the early diagnosis and treatment of OA disease in the future., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Chen, Chen, Rong, You, Wu, Zhou, Zeng and Zhou.)

Published
2023
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97. Thiabendazole Inhibits Glioblastoma Cell Proliferation and Invasion Targeting Mini-chromosome Maintenance Protein 2.

Author

Hu Y, Zhou W, Xue Z, Liu X, Feng Z, Zhang Y, Liu X, Li W, Zhang Q, Chen A, Huang B, and Wang J

Subjects
Animals, Anthelmintics pharmacology, Antineoplastic Agents therapeutic use, Brain Neoplasms metabolism, Cell Line, Cell Line, Tumor, Cell Movement drug effects, Cells, Cultured, Drug Repositioning, Glioblastoma metabolism, Humans, Mice, Mice, Nude, Thiabendazole therapeutic use, Anthelmintics therapeutic use, Antineoplastic Agents pharmacology, Brain Neoplasms drug therapy, Cell Proliferation drug effects, Glioblastoma drug therapy, Minichromosome Maintenance Complex Component 2 metabolism, Thiabendazole pharmacology
Abstract

Thiabendazole (TBZ), approved by the US Food and Drug Administration (FDA) for human oral use, elicits a potential anticancer activity on cancer cells in vitro and in animal models. Here, we evaluated the efficacy of TBZ in the treatment of human glioblastoma multiforme (GBM). TBZ reduced the viability of GBM cells (P3, U251, LN229, A172, and U118MG) relative to controls in a dose- and time-dependent manner. However, normal human astrocytes (NHA) exhibited a greater IC 50 than tumor cell lines and were thus more resistant to its cytotoxic effects. 5-Ethynyl-2'-deoxyuridine (EdU)-positive cells and the number of colonies formed were decreased in TBZ-treated cells (at 150 μ M, P < 0.05 and at 150 μ M, P < 0.001, respectively). This decrease in proliferation was associated with a G2/M arrest as assessed with flow cytometry, and the downregulation of G2/M check point proteins. In addition, TBZ suppressed GBM cell invasion. Analysis of RNA sequencing data comparing TBZ-treated cells with controls yielded a group of differentially expressed genes, the functions of which were associated with the cell cycle and DNA replication. The most significantly downregulated gene in TBZ-treated cells was mini-chromosome maintenance protein 2 (MCM2). SiRNA knockdown of MCM2 inhibited proliferation, causing a G2/M arrest in GBM cell lines and suppressed invasion. Taken together, our results demonstrated that TBZ inhibited proliferation and invasion in GBM cells through targeting of MCM2. SIGNIFICANCE STATEMENT: TBZ inhibits the proliferation and invasion of glioblastoma cells by downregulating the expression of MCM2. These results support the repurposing of TBZ as a possible therapeutic drug in the treatment of GBM., (Copyright © 2021 The Author(s).)

Published
2022
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98. Trifluoperazine prolongs the survival of experimental brain metastases by STAT3-dependent lysosomal membrane permeabilization.

Author

Zhang X, Ding K, Ji J, Parajuli H, Aasen SN, Espedal H, Huang B, Chen A, Wang J, Li X, and Thorsen F

Abstract

Brain metastasis is a major cause of mortality in melanoma patients. The blood-brain barrier (BBB) prevents most anti-tumor compounds from entering the brain, which significantly limits their use in the treatment of brain metastasis. One strategy in the development of new treatments is to assess the anti-tumor potential of drugs currently used in the clinic. Here, we tested the anti-tumor effect of the BBB-penetrating antipsychotic trifluoperazine (TFP) on metastatic melanoma. H1 and Melmet1 human metastatic melanoma cell lines were used in vitro and in vivo. TFP effects on viability and toxicity were evaluated in proliferation and colony formation assays. Preclinical, therapeutic efficacy was evaluated in NOD/SCID mice, after intracardial injection of tumor cells. Molecular studies using immunohistochemistry, western blots, immunofluorescence and transmission electron microscopy were used to gain mechanistic insight into the biological activity of TFP. Our results showed that TFP decreased cell viability and proliferation, colony formation and spheroid growth in vitro. The drug also decreased tumor burden in mouse brains and prolonged animal survival after injection of tumor cells (53.0 days vs 44.5 days), TFP treated vs untreated animals, respectively (P < 0.01). At the molecular level, TFP treatment led to increased levels of LC3B and p62 in vitro and in vivo, suggesting an inhibition of autophagic flux. A decrease in LysoTracker Red uptake after treatment indicated impaired acidification of lysosomes. TFP caused accumulation of electron dense vesicles, an indication of damaged lysosomes, and reduced the expression of cathepsin B, a main lysosomal protease. Acridine orange and galectin-3 immunofluorescence staining were evidence of TFP induction of lysosomal membrane permeabilization. Finally, TFP was cytotoxic to melanoma brain metastases based on the increased release of lactate dehydrogenase into media. Through knockdown experiments, the processes of TFP-induced lysosomal membrane permeabilization and cell death appeared to be STAT3 dependent. In conclusion, our work provides a strong rationale for further clinical investigation of TFP as an adjuvant therapy for melanoma patients with metastases to the brain., Competing Interests: None., (AJCR Copyright © 2020.)

Published
2020

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