Your search keyword '"Qiao, Xiaolong"' showing total 6 results

1. Composition analysis of Magnolia flower and their use for highly bright carbon dots

Author

Liu, Qiulian, Li, Weihua, Qiao, Xiaolong, and Zhao, Haiguang

Published

2024

2. Determination of carbohydrate content in kenaf degumming wastewater and converting them to carbon dots

Author

Qiao, Xiaolong, Li, Linlin, Liu, Qiulian, Zhang, Yuanming, Han, Guangting, Ben, Haoxi, Zhao, Haiguang, and Jiang, Wei

Published

2024

3. An empirical appraisal of the non-linear nexus between foreign remittance receipts and carbon emissions intensities

Author

Qiao, Xiaolong, Murshed, Muntasir, Alam, Mohammad Mahtab, Das, Narasingha, Khudoykulov, Kurshid, and Tariq, Salman

Published

2024

4. SVIP reduces IGFBP-2 expression and inhibits glioblastoma progression via stabilizing PTEN.

Author

Wang, Zixuan, Qiao, Xiaolong, Chen, Yinan, Peng, Nan, Niu, Chaoshi, Wang, Yang, Li, Cong, Hu, Zengchun, Zhang, Caihua, and Cheng, Chuandong

Published

2024

5. Cold atmospheric‐pressure plasma selectively inhibits glioblastoma via DNA damage and AKT dephosphorylation in vitro and in vivo.

Author

Chen, Yinan, Qiao, Xiaolong, Liu, Changqing, Zhang, Jin, Sun, Tao, Kong, Ling, Zhang, Xinru, Song, Wencheng, Cheng, Chuandong, and Ni, Guohua

Subjects

*ATMOSPHERIC pressure plasmas, *LOW temperature plasmas, *DNA repair, *GLIOBLASTOMA multiforme, *DNA damage, *DEPHOSPHORYLATION

Abstract

In this work, the effects of cold atmospheric‐pressure plasma (CAP) on glioblastoma are evaluated comprehensively. After CAP treatment, U251 cell viability, migration, and invasion functions were inhibited, while an appropriate dose of CAP had no inhibitory effect on human brain glial cell line cells. Western blots indicated that expression of caspase‐3 was upregulated with ki‐67 expression downregulated. Moreover, mitochondrial membrane potential decreased, and energy metabolisms of U251 cells were influenced afterward. TUNEL assays and comet assays suggested the DNA damage of U251 cells after CAP treatment. Furthermore, as one of the DNA damage responses associated pathways, the AKT (AKT8 virus oncogene cellular homolog) signaling pathway was also indicated in the work. The findings raise great promise for clinical applications of CAP in glioblastoma treatments. [ABSTRACT FROM AUTHOR]

Published

2024

6. Unveiling the therapeutic potential of IHMT-337 in glioma treatment: targeting the EZH2-SLC12A5 axis.

Author

Zhang, Hongwei, Wang, Zixuan, Qiao, Xiaolong, Peng, Nan, Wu, Jiaxing, Chen, Yinan, and Cheng, Chuandong

Subjects

*HEPATOCELLULAR carcinoma, *GLIOMAS, CENTRAL nervous system tumors

Abstract

Glioma is the most common malignant tumor of the central nervous system, with EZH2 playing a crucial regulatory role. This study further explores the abnormal expression of EZH2 and its mechanisms in regulating glioma progression. Additionally, it was found that IHMT-337 can potentially be a therapeutic agent for glioma. The prognosis, expression, and localization of EZH2 were determined using bioinformatics, IHC staining, Western blot (WB) analysis, and immunofluorescence (IF) localization. The effects of EZH2 on cell function were assessed using CCK-8 assays, Transwell assays, and wound healing assays. Public databases and RT-qPCR were utilized to identify downstream targets. The mechanisms regulating these downstream targets were elucidated using MS-PCR and WB analysis. The efficacy of IHMT-337 was demonstrated through IC50 measurements, WB analysis, and RT-qPCR. The effects of IHMT-337 on glioma cells in vitro were evaluated using Transwell assays, EdU incorporation assays, and flow cytometry. The potential of IHMT-337 as a treatment for glioma was assessed using a blood–brain barrier (BBB) model and an orthotopic glioma model. Our research confirms significantly elevated EZH2 expression in gliomas, correlating with patient prognosis. EZH2 facilitates glioma proliferation, migration, and invasion alongside promoting SLC12A5 DNA methylation. By regulating SLC12A5 expression, EZH2 activates the WNK1-OSR1-NKCC1 pathway, enhancing its interaction with ERM to promote glioma migration. IHMT-337 targets EZH2 in vitro to inhibit WNK1 activation, thereby suppressing glioma cell migration. Additionally, it inhibits cell proliferation and arrests the cell cycle. IHMT-337 has the potential to cross the BBB and has successfully inhibited glioma progression in vivo. This study expands our understanding of the EZH2-SLC12A5 axis in gliomas, laying a new foundation for the clinical translation of IHMT-337 and offering new insights for precision glioma therapy. [ABSTRACT FROM AUTHOR]

Published

2024