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机译:通过针对重编程的新陈代谢来克服化学抑制:胰腺导管腺癌的Achilles的脚跟
Fudan Univ Shanghai Canc Ctr Dept Pancreat Surg 270 Dongan Rd Shanghai 200032 Peoples R China;
Fudan Univ Shanghai Canc Ctr Dept Pancreat Surg 270 Dongan Rd Shanghai 200032 Peoples R China;
Fudan Univ Shanghai Canc Ctr Dept Pancreat Surg 270 Dongan Rd Shanghai 200032 Peoples R China;
Fudan Univ Shanghai Canc Ctr Dept Pancreat Surg 270 Dongan Rd Shanghai 200032 Peoples R China;
Fudan Univ Shanghai Canc Ctr Dept Pancreat Surg 270 Dongan Rd Shanghai 200032 Peoples R China;
Fudan Univ Shanghai Canc Ctr Dept Pancreat Surg 270 Dongan Rd Shanghai 200032 Peoples R China;
Fudan Univ Shanghai Canc Ctr Dept Pancreat Surg 270 Dongan Rd Shanghai 200032 Peoples R China;
Fudan Univ Shanghai Canc Ctr Dept Pancreat Surg 270 Dongan Rd Shanghai 200032 Peoples R China;
Fudan Univ Shanghai Canc Ctr Dept Pancreat Surg 270 Dongan Rd Shanghai 200032 Peoples R China;
Fudan Univ Shanghai Canc Ctr Dept Pancreat Surg 270 Dongan Rd Shanghai 200032 Peoples R China;
Fudan Univ Shanghai Canc Ctr Dept Pancreat Surg 270 Dongan Rd Shanghai 200032 Peoples R China;
Pancreatic cancer; Glycolysis; Glutamine; Lipogenesis; Chemotherapy;
机译:针对肿瘤相关的缺氧,以克服胰腺导管腺癌(PDA)的化学耐药性。
机译:基于比较建模和基于PAX2转录因子的药物重新靶向胰腺导管腺癌中的化学血管瘤
机译:通过双重遗传靶向,Notch诱导的骨髓重编程在自发性胰腺导管腺癌中
机译:NRP1和EGFR的双重靶向克服胰腺导管腺癌中胰腺导管腺癌的抗性,具有晶体β-1驱动的SRC-AKT旁路信号
机译:ST6GAL-I介导的唾液酸化促进胰腺导管腺癌进展和化学性
机译:抑制肿瘤坏死因子-α可减少胰腺导管腺癌的增生和炎症克服化学耐药性
机译:抑制肿瘤坏死因子-α减少脱裂性和炎症,以克服胰腺导管腺癌中的化学血管瘤