Terms: = Skin cancer AND KLK2, P20151, 3817, ENSG00000167751, MGC12201, hK2, KLK2A2
30 results:
1. 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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2. 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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3. 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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4. ASPP2 suppresses tumour growth and stemness characteristics in HCC by inhibiting Warburg effect via WNT/β-catenin/hk2 axis.
Liang B; Jiang Y; Song S; Jing W; Yang H; Zhao L; Chen Y; Tang Q; Li X; Zhang L; Bao H; Huang G; Zhao J
J Cell Mol Med; 2023 Mar; 27(5):659-671. PubMed ID: 36752127
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5. Risks of malignancies among patients with psoriasis: A cohort study of 360 patients.
Watanabe T; Watanabe Y; Asai C; Asami M; Watanabe Y; Saigusa Y; Yamaguchi Y
J Dermatol; 2023 May; 50(5):615-621. PubMed ID: 36412216
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6. 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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7. 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
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8. lncRNA RNCR2 facilitates cell proliferation and epithelial-mesenchymal transition in melanoma through hk2-mediated Warburg effect via targeting miR-495-3p.
Duan BX; Geng XR; Wu YQ
Neoplasma; 2021 Jul; 68(4):692-701. PubMed ID: 33724862
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9. The Synthetic Flavonoid Derivative GL-V9 Induces Apoptosis and Autophagy in Cutaneous Squamous Cell Carcinoma via Suppressing AKT-Regulated hk2 and mTOR Signals.
Zhu Y; Liu M; Yao J; Guo Q; Wei L
Molecules; 2020 Oct; 25(21):. PubMed ID: 33143000
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10. Circ-FOXM1 contributes to cell proliferation, invasion, and glycolysis and represses apoptosis in melanoma by regulating miR-143-3p/FLOT2 axis.
Tian S; Han G; Lu L; Meng X
World J Surg Oncol; 2020 Mar; 18(1):56. PubMed ID: 32183822
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11. The Warburg effect and tumour immune microenvironment in extramammary Paget's disease: overexpression of lactate dehydrogenase A correlates with immune resistance.
Urata K; Kajihara I; Miyauchi H; Mijiddorj T; Otsuka-Maeda S; Sakamoto R; Sawamura S; Kanemaru H; Kanazawa-Yamada S; Makino K; Aoi J; Makino T; Fukushima S; Komohara Y; Ihn H
J Eur Acad Dermatol Venereol; 2020 Aug; 34(8):1715-1721. PubMed ID: 31838771
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12. Characterization of glycolysis-related gene expression in malignant melanoma.
Koch A; Ebert EV; Seitz T; Dietrich P; Berneburg M; Bosserhoff A; Hellerbrand C
Pathol Res Pract; 2020 Jan; 216(1):152752. PubMed ID: 31791701
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13. Hexokinase2 controls angiogenesis in melanoma by promoting aerobic glycolysis and activating the p38-MAPK signaling.
Lu J; Liang X; Gao Y; Fu G; Shen Q
J Cell Biochem; 2019 Dec; 120(12):19721-19729. PubMed ID: 31270843
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14. MiR-216a-5p/Hexokinase 2 axis regulates uveal melanoma growth through modulation of Warburg effect.
Liu Y; Huo Y; Wang D; Tai Y; Li J; Pang D; Zhang Y; Zhao W; Du N; Huang Y
Biochem Biophys Res Commun; 2018 Jul; 501(4):885-892. PubMed ID: 29763606
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15. HOXA9 inhibits HIF-1α-mediated glycolysis through interacting with CRIP2 to repress cutaneous squamous cell carcinoma development.
Zhou L; Wang Y; Zhou M; Zhang Y; Wang P; Li X; Yang J; Wang H; Ding Z
Nat Commun; 2018 Apr; 9(1):1480. PubMed ID: 29662084
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16. Kidney-differentiated cells derived from Lowe Syndrome patient's iPSCs show ciliogenesis defects and Six2 retention at the Golgi complex.
Hsieh WC; Ramadesikan S; Fekete D; Aguilar RC
PLoS One; 2018; 13(2):e0192635. PubMed ID: 29444177
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17. Reprogramming induced by isoliquiritigenin diminishes melanoma cachexia through mTORC2-AKT-GSK3β signaling.
Chen XY; Li DF; Han JC; Wang B; Dong ZP; Yu LN; Pan ZH; Qu CJ; Chen Y; Sun SG; Zheng QS
Oncotarget; 2017 May; 8(21):34565-34575. PubMed ID: 28410220
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18. Effect of lentivirus-mediated shRNA inactivation of HK1, hk2, and HK3 genes in colorectal cancer and melanoma cells.
Kudryavtseva AV; Fedorova MS; Zhavoronkov A; Moskalev AA; Zasedatelev AS; Dmitriev AA; Sadritdinova AF; Karpova IY; Nyushko KM; Kalinin DV; Volchenko NN; Melnikova NV; Klimina KM; Sidorov DV; Popov AY; Nasedkina TV; Kaprin AD; Alekseev BY; Krasnov GS; Snezhkina AV
BMC Genet; 2016 Dec; 17(Suppl 3):156. PubMed ID: 28105937
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19. Loss of tumour suppressor PTEN expression in renal injury initiates SMAD3- and p53-dependent fibrotic responses.
Samarakoon R; Helo S; Dobberfuhl AD; Khakoo NS; Falke L; Overstreet JM; Goldschmeding R; Higgins PJ
J Pathol; 2015 Aug; 236(4):421-32. PubMed ID: 25810340
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20. Novel inhibitory activity for serine protease inhibitor Kazal type-3 (Spink3) on human recombinant kallikreins.
Assis DM; Zalazar L; Juliano MA; De Castro R; Cesari A
Protein Pept Lett; 2013 Oct; 20(10):1098-107. PubMed ID: 23590280
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