Terms: = Gastric cancer AND KLK2, P20151, 3817, ENSG00000167751, MGC12201, hK2, KLK2A2
47 results:
1. LncRNA SNHG26 promotes gastric cancer progression and metastasis by inducing c-Myc protein translation and an energy metabolism positive feedback loop.
Wu ZH; Wang YX; Song JJ; Zhao LQ; Zhai YJ; Liu YF; Guo WJ
Cell Death Dis; 2024 Mar; 15(3):236. PubMed ID: 38553452
[TBL] [Abstract] [Full Text] [Related]
2. gastric cancer mesenchymal stem cells promote tumor glycolysis and chemoresistance by regulating B7H3 in gastric cancer cells.
Gao Q; Huang C; Liu T; Yang F; Chen Z; Sun L; Zhao Y; Wang M; Luo L; Zhou C; Zhu W
J Cell Biochem; 2024 Mar; 125(3):e30521. PubMed ID: 38226525
[TBL] [Abstract] [Full Text] [Related]
3. CircPRDM5 inhibits the proliferation, migration, invasion, and glucose metabolism of gastric cancer cells by reducing GCNT4 expression in a miR-485-3p-dependent manner.
Lan ZZ; Sun FH; Chen C; Niu L; Shi JD; Zhang WY
Kaohsiung J Med Sci; 2024 Mar; 40(3):231-243. PubMed ID: 38180297
[TBL] [Abstract] [Full Text] [Related]
4. PDLIM1 interacts with hk2 to promote gastric cancer progression through enhancing the Warburg effect via Wnt/β-catenin signaling.
Lei Y; He L; Li Y; Hou J; Zhang H; Li G
Cell Tissue Res; 2024 Jan; 395(1):105-116. PubMed ID: 37930472
[TBL] [Abstract] [Full Text] [Related]
5. Activation of Glycolysis by MCM10 Increases Stemness and Paclitaxel Resistance in gastric cancer Cells.
Wu Z; Fang Y; Wu J; Wang J; Ling Y; Liu T; Tong Q; Yao Y
Turk J Gastroenterol; 2023 Nov; 34(11):1107-1115. PubMed ID: 37860833
[TBL] [Abstract] [Full Text] [Related]
6. Transcription factor TEAD4 facilitates glycolysis and proliferation of gastric cancer cells by activating PKMYT1.
Zhan L; Wu W; Yang Q; Shen H; Liu L; Kang R
Mol Cell Probes; 2023 Dec; 72():101932. PubMed ID: 37729973
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7. [High expression of death-associated protein 5 promotes glucose metabolism in gastric cancer cells and correlates with poor survival outcomes].
Wang Q; Zhang Z; Wang L; Wang Y; Yao X; Wang Y; Zhang X; Ge S; Zuo L
Nan Fang Yi Ke Da Xue Xue Bao; 2023 Jul; 43(7):1063-1070. PubMed ID: 37488788
[TBL] [Abstract] [Full Text] [Related]
8. circRPS19 affects hk2‑mediated aerobic glycolysis and cell viability via the miR‑125a‑5p/USP7 pathway in gastric cancer.
Zheng X; Shao J; Qian J; Liu S
Int J Oncol; 2023 Aug; 63(2):. PubMed ID: 37449524
[TBL] [Abstract] [Full Text] [Related]
9. gastric cancer mesenchymal stem cells via the CXCR2/hk2/PD-L1 pathway mediate immunosuppression.
Huang C; Chen B; Wang X; Xu J; Sun L; Wang D; Zhao Y; Zhou C; Gao Q; Wang Q; Chen Z; Wang M; Zhang X; Xu W; Shen B; Zhu W
Gastric Cancer; 2023 Sep; 26(5):691-707. PubMed ID: 37300724
[TBL] [Abstract] [Full Text] [Related]
10. Butyrate prevents the migration and invasion, and aerobic glycolysis in gastric cancer via inhibiting Wnt/β-catenin/c-Myc signaling.
Liang Y; Rao Z; Du D; Wang Y; Fang T
Drug Dev Res; 2023 May; 84(3):532-541. PubMed ID: 36782390
[TBL] [Abstract] [Full Text] [Related]
11. LncRNA-SNHG1 promotes paclitaxel resistance of gastric cancer cells through modulating the miR-216b-5p-hexokianse 2 axis.
Xu J; Xu Y; Ye G; Qiu J
J Chemother; 2023 Oct; 35(6):527-538. PubMed ID: 36548909
[TBL] [Abstract] [Full Text] [Related]
12. 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
[TBL] [Abstract] [Full Text] [Related]
13. A pan-cancer analysis of the role of hexokinase II (hk2) in human tumors.
Li R; Mei S; Ding Q; Wang Q; Yu L; Zi F
Sci Rep; 2022 Nov; 12(1):18807. PubMed ID: 36335239
[TBL] [Abstract] [Full Text] [Related]
14. Ubiquitous mitochondrial creatine kinase promotes the progression of gastric cancer through a JNK-MAPK/JUN/hk2 axis regulated glycolysis.
Mi Y; Li Q; Liu B; Wang D; Liu Z; Wang T; Wang Y; Zang Y; Zhou Y; Wen Y; Ding Y
Gastric Cancer; 2023 Jan; 26(1):69-81. PubMed ID: 36114400
[TBL] [Abstract] [Full Text] [Related]
15. Disrupting Circadian Rhythm via the PER1-hk2 Axis Reverses Trastuzumab Resistance in gastric cancer.
Wang J; Huang Q; Hu X; Zhang S; Jiang Y; Yao G; Hu K; Xu X; Liang B; Wu Q; Ma Z; Wang Y; Wang C; Wu Z; Rong X; Liao W; Shi M
Cancer Res; 2022 Apr; 82(8):1503-1517. PubMed ID: 35255118
[TBL] [Abstract] [Full Text] [Related]
16. RETRACTED: PINK1 deficiency in gastric cancer compromises mitophagy, promotes the Warburg effect, and facilitates M2 polarization of macrophages.
Xu Y; Lu J; Tang Y; Xie W; Zhang H; Wang B; Zhang S; Hou W; Zou C; Jiang P; Zhang W
Cancer Lett; 2022 Mar; 529():19-36. PubMed ID: 34979165
[TBL] [Abstract] [Full Text] [Related]
17. Impact of laparoscopic gastrectomy on relapse-free survival for locally advanced gastric cancer patients with sarcopenia: a propensity score matching analysis.
Matsui R; Inaki N; Tsuji T
Surg Endosc; 2022 Jul; 36(7):4721-4731. PubMed ID: 34708295
[TBL] [Abstract] [Full Text] [Related]
18. Circ-RNF111 aggravates the malignancy of gastric cancer through miR-876-3p-dependent regulation of KLF12.
Wu G; Zhang A; Yang Y; Wu D
World J Surg Oncol; 2021 Aug; 19(1):259. PubMed ID: 34461926
[TBL] [Abstract] [Full Text] [Related]
19. PLOD1 promotes cell growth and aerobic glycolysis by regulating the SOX9/PI3K/Akt/mTOR signaling pathway in gastric cancer.
Zhang Y; Wu Y; Su X
Front Biosci (Landmark Ed); 2021 Aug; 26(8):322-334. PubMed ID: 34455762
[No Abstract] [Full Text] [Related]
20. IGF2-AS knockdown inhibits glycolysis and accelerates apoptosis of gastric cancer cells through targeting miR-195/CREB1 axis.
Yan B; Ren Z; Sun J; Ding C; Yang D
Biomed Pharmacother; 2020 Oct; 130():110600. PubMed ID: 34321174
[TBL] [Abstract] [Full Text] [Related]
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