Terms: = Germ cell tumor AND KLK2, P20151, 3817, ENSG00000167751, MGC12201, hK2, KLK2A2
83 results:
1. AMPK-HIF-1α signaling enhances glucose-derived de novo serine biosynthesis to promote glioblastoma growth.
Yun HJ; Li M; Guo D; Jeon SM; Park SH; Lim JS; Lee SB; Liu R; Du L; Kim SH; Shin TH; Eyun SI; Park YY; Lu Z; Lee JH
J Exp Clin Cancer Res; 2023 Dec; 42(1):340. PubMed ID: 38098117
[TBL] [Abstract] [Full Text] [Related]
2. The survivin-ran inhibitor LLP-3 decreases oxidative phosphorylation, glycolysis and growth of neuroblastoma cells.
Galiger C; Zohora FT; Dorneburg C; Tews D; Debatin KM; Beltinger C
BMC Cancer; 2023 Nov; 23(1):1148. PubMed ID: 38007466
[TBL] [Abstract] [Full Text] [Related]
3. KIF22 promotes the proliferation and glycolysis of melanoma by activating EGFR/STAT3 signaling.
Zhong Z; Zhong H
Clinics (Sao Paulo); 2023; 78():100307. PubMed ID: 37944197
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4. SPI1 involvement in malignant melanoma pathogenesis by regulation of hk2 through the AKT1/mTOR pathway.
Liu C; Qiu X; Gao J; Gong Z; Zhou X; Luo H; Geng X
J Cell Mol Med; 2023 Sep; 27(18):2675-2683. PubMed ID: 37539493
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5. Biological response and cell death signaling pathways modulated by tetrahydroisoquinoline-based aldoximes in human cells.
Zandona A; Madunić J; Miš K; Maraković N; Dubois-Geoffroy P; Cavaco M; Mišetić P; Padovan J; Castanho M; Jean L; Renard PY; Pirkmajer S; Neves V; Katalinić M
Toxicology; 2023 Aug; 494():153588. PubMed ID: 37419273
[TBL] [Abstract] [Full Text] [Related]
6. Model for predicting prognosis and immunotherapy based on CD
Bao W; Song Z; Wan H; Yu X; Chen Z; Jiang Y; Chen X; Le K
J Cancer Res Clin Oncol; 2023 Sep; 149(12):9839-9855. PubMed ID: 37248319
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7. Combination of niclosamide and quinacrine inactivates Akt/hk2/Cyclin D1 axis mediated by glucose deprivation towards the inhibition of melanoma cell proliferation.
Li S; Wang D; Zheng X; Li Y; Ding C; Wang M; Ge X; Jiang J; Qiao Y; Wang Y
Biomed Pharmacother; 2023 Jul; 163():114865. PubMed ID: 37187020
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8. U3 snoRNA-mediated degradation of ZBTB7A regulates aerobic glycolysis in isocitrate dehydrogenase 1 wild-type glioblastoma cells.
Dong W; Liu Y; Wang P; Ruan X; Liu L; Xue Y; Ma T; E T; Wang D; Yang C; Lin H; Song J; Liu X
CNS Neurosci Ther; 2023 Oct; 29(10):2811-2825. PubMed ID: 37066523
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9. circPKD2 inhibits the glioma cell proliferation, invasion and glycolytic metabolism through regulating the miR-1278/LATS2 axis.
Liu F; Wu H; Wu G; Long J; Dai J; Wang Z
Neurosci Lett; 2023 Mar; 801():137126. PubMed ID: 36796622
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10. L1CAM promotes vasculogenic mimicry formation by miR-143-3p-induced expression of hexokinase 2 in glioma.
Huang Y; Zhu C; Liu P; Ouyang F; Luo J; Lu C; Tang B; Yang X
Mol Oncol; 2023 Apr; 17(4):664-685. PubMed ID: 36708044
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11. Homeobox A3 and KDM6A cooperate in transcriptional control of aerobic glycolysis and glioblastoma progression.
Yang R; Zhang G; Dong Z; Wang S; Li Y; Lian F; Liu X; Li H; Wei X; Cui H
Neuro Oncol; 2023 Apr; 25(4):635-647. PubMed ID: 36215227
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12. The mitotic regulator RCC2 promotes glucose metabolism through BACH1-dependent transcriptional upregulation of hexokinase II in glioma.
Liu T; Wang Y; Wang Y; Cheung SK; Or PM; Wong CW; Guan J; Li Z; Yang W; Tu Y; Wang J; Ho WL; Gu H; Cheng AS; Tsui SK; Chan AM
Cancer Lett; 2022 Nov; 549():215914. PubMed ID: 36116740
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13. The MBNL1/circNTRK2/PAX5 pathway regulates aerobic glycolysis in glioblastoma cells by encoding a novel protein NTRK2-243aa.
Zhao Y; Song J; Dong W; Liu X; Yang C; Wang D; Xue Y; Ruan X; Liu L; Wang P; Zhang M; Liu Y
Cell Death Dis; 2022 Sep; 13(9):767. PubMed ID: 36064939
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14. Kaempferol impairs aerobic glycolysis against melanoma metastasis via inhibiting the mitochondrial binding of hk2 and VDAC1.
Zheng X; Pan Y; Yang G; Liu Y; Zou J; Zhao H; Yin G; Wu Y; Li X; Wei Z; Yu S; Zhao Y; Wang A; Chen W; Lu Y
Eur J Pharmacol; 2022 Sep; 931():175226. PubMed ID: 36007607
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15. Aerobic glycolysis promotes tumor immune evasion by hexokinase2-mediated phosphorylation of IκBα.
Guo D; Tong Y; Jiang X; Meng Y; Jiang H; Du L; Wu Q; Li S; Luo S; Li M; Xiao L; He H; He X; Yu Q; Fang J; Lu Z
Cell Metab; 2022 Sep; 34(9):1312-1324.e6. PubMed ID: 36007522
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16. The expression of Hexokinase 2 and its hub genes are correlated with the prognosis in glioma.
Huang Y; Ouyang F; Yang F; Zhang N; Zhao W; Xu H; Yang X
BMC Cancer; 2022 Aug; 22(1):900. PubMed ID: 35982398
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17. Inhibition of hypoxia-inducible factor 1 by acriflavine renders glioblastoma sensitive for photodynamic therapy.
Ma S; Wang F; Dong J; Wang N; Tao S; Du J; Hu S
J Photochem Photobiol B; 2022 Sep; 234():112537. PubMed ID: 35939916
[TBL] [Abstract] [Full Text] [Related]
18. Reversing the HDAC-inhibitor mediated metabolic escape in MYCN-amplified neuroblastoma.
Bishayee K; Nazim UM; Kumar V; Kang J; Kim J; Huh SO; Sadra A
Biomed Pharmacother; 2022 Jun; 150():113032. PubMed ID: 35486977
[TBL] [Abstract] [Full Text] [Related]
19. RASD2 promotes the development and metastasis of uveal melanoma via enhancing glycolysis.
Xie M; Xin C
Biochem Biophys Res Commun; 2022 Jun; 610():92-98. PubMed ID: 35461072
[TBL] [Abstract] [Full Text] [Related]
20. Exosome-delivered circular RNA DLGAP4 induces chemoresistance via miR-143-hk2 axis in neuroblastoma.
Tan WQ; Yuan L; Wu XY; He CG; Zhu SC; Ye M
Cancer Biomark; 2022; 34(3):375-384. PubMed ID: 35068445
[TBL] [Abstract] [Full Text] [Related]
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