xiuxing Wang

About xiuxing Wang

xiuxing Wang, With an exceptional h-index of 29 and a recent h-index of 27 (since 2020), a distinguished researcher at Nanjing Medical University, specializes in the field of Brain Tumor Stem Cells Microenvironment Metabolism.

His recent articles reflect a diverse array of research interests and contributions to the field:

Lymphatic endothelial-like cells promote glioblastoma stem cell growth through cytokine-driven cholesterol metabolism

Circular RNA encoded MET variant promotes glioblastoma tumorigenesis

PGC1α Degradation Suppresses Mitochondrial Biogenesis to Confer Radiation Resistance in Glioma

Targeting microglial metabolic rewiring synergizes with immune-checkpoint blockade therapy for glioblastoma

SREBP2 maintains glioblastoma stem cells through keeping the balance between cholesterol biosynthesis and uptake.

Phagocytosis of glioma cells enhances the immunosuppressive phenotype of bone marrow–derived macrophages

EGFR promotes ALKBH5 nuclear retention to attenuate N6-methyladenosine and protect against ferroptosis in glioblastoma

Multi-omics and Pharmacological Characterization of Patient-derived Glioma Cell Lines

xiuxing Wang Information

University

Position

School of Basic Medical Science

Citations(all)

3945

Citations(since 2020)

3567

Cited By

1511

hIndex(all)

29

hIndex(since 2020)

27

i10Index(all)

44

i10Index(since 2020)

40

Email

University Profile Page

Google Scholar

xiuxing Wang Skills & Research Interests

Brain Tumor Stem Cells Microenvironment Metabolism

Top articles of xiuxing Wang

Lymphatic endothelial-like cells promote glioblastoma stem cell growth through cytokine-driven cholesterol metabolism

Nature Cancer

2024/1/3

Circular RNA encoded MET variant promotes glioblastoma tumorigenesis

Nature Communications

2023/7/25

Targeting microglial metabolic rewiring synergizes with immune-checkpoint blockade therapy for glioblastoma

Cancer discovery

2023/4/3

SREBP2 maintains glioblastoma stem cells through keeping the balance between cholesterol biosynthesis and uptake.

Neuro-oncology

2023/3/19

EGFR promotes ALKBH5 nuclear retention to attenuate N6-methyladenosine and protect against ferroptosis in glioblastoma

Molecular Cell

2023/12/7

Inhibiting G6PD by quercetin promotes degradation of EGFR T790M mutation

Cell Reports

2023/11/28

Reply to “Targeting cholesterol homeostasis through inhibiting: An Achilles’ heel for glioblastoma?”

Neuro-oncology

2023/11/1

Hao You
Hao You

H-Index: 6

Xiuxing Wang
Xiuxing Wang

H-Index: 22

Upstream open reading frame-encoded MP31 disrupts the mitochondrial quality control process and inhibits tumorigenesis in glioblastoma

Neuro-oncology

2023/11/1

Noninvasive radiomics model reveals macrophage infiltration in glioma

Cancer Letters

2023/10/1

Hypoxanthine phosphoribosyl transferase 1 metabolizes temozolomide to activate AMPK for driving chemoresistance of glioblastomas

Nature Communications

2023/9/22

Dual role of CXCL8 in maintaining the mesenchymal state of glioblastoma stem cells and M2-like tumor-associated macrophages

Clinical Cancer Research

2023/9/15

HSP90B1-mediated plasma membrane localization of GLUT1 promotes radioresistance of glioblastomas

Journal of Biomedical Research

2023/9

Vitamin D3 suppresses the cholesterol homeostasis pathway in patient‐derived glioma cell lines

FEBS Open Bio

2023/9

Novel INHAT repressor drives glioblastoma growth by promoting ribosomal DNA transcription in glioma stem cells

Neuro-oncology

2023/8/1

Targeting nuclear pore complex and therapeutic response in glioblastoma stem cells.

2022/6/1

Loss of MAT2A compromises methionine metabolism and represents a vulnerability in H3K27M mutant glioma by modulating the epigenome

Nature Cancer

2022/4/14

See List of Professors in xiuxing Wang University(Nanjing Medical University)

Co-Authors

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