sirna抑制TIGAR超敏化人乳头瘤病毒转化细胞对化疗药物引起氧化应激诱导的凋亡

Laçin Yapindi, B. Hernandez, R. Harrod
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摘要

高危亚型人乳头瘤病毒(hrhpv),包括HPV16、HPV18、HPV31、HPV33和HPV45,感染上皮细胞并致癌转化,引起与宫颈癌发展相关的鳞状细胞癌和腺癌,以及外阴、阴道、阴茎和肛门生殖器癌亚群,以及头颈口咽癌,临床预后往往较差。许多癌症已被证明含有高水平的tp53诱导的糖酵解和凋亡调节因子(TIGAR),这是一种糖酵解酶和抗氧化效应物,经常与侵袭性肿瘤表型相关,并作为治疗耐药性的决定因素。因此,我们测试了sirna抑制TIGAR蛋白表达是否可以使hpv18转化的HeLa细胞对诱导氧化应激和dna损伤的遗传毒性化疗药物(即顺铂、依托泊苷、阿霉素和4-羟基环磷酰胺)敏感。在这里,我们证明,与混乱RNA (scrRNA)寡核苷酸阴性对照或未转化的永生化人成纤维细胞系HFL1相比,TIGAR敲低sirna使HeLa细胞对这些药物的低浓度(否则为亚抑制浓度)高度敏感,并显著诱导细胞凋亡。重要的是,这些发现表明,在治疗上抑制TIGAR可能会使hrHPV+宫颈肿瘤细胞对低剂量浓度化疗药物过敏,从而诱导dna氧化损伤,这可能会通过减少这些抗癌药物的不良副作用并使患者更耐受这些药物而获得更有利的临床结果。我们的研究进一步表明,sirna抑制TIGAR使HPV18+ HeLa细胞对4-羟基环磷酰胺(一种dna烷基化剂)诱导的凋亡敏感,这些细胞被报道具有耐药性,这暗示了在针对病毒诱导的癌症的联合治疗策略中靶向TIGAR的另一个可能的益处。
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siRNA-Inhibition of TIGAR Hypersensitizes Human Papillomavirus-Transformed Cells to Apoptosis Induced by Chemotherapy Drugs that Cause Oxidative Stress
The high-risk subtype Human Papillomaviruses (hrHPVs), including HPV16, HPV18, HPV31, HPV33, and HPV45, infect and oncogenically transform epithelial cells and cause squamous cell carcinomas and adenocarcinomas associated with the development of cervical cancer and subsets of vulvar, vaginal, penile, and anogenital cancers, as well as head-and-neck oropharyngeal carcinomas which often have poor clinical prognoses. Many cancers have been shown to contain elevated levels of the TP53-Induced Glycolysis and Apoptosis Regulator (TIGAR)-a glycolytic enzyme and antioxidant effector which frequently correlates with an aggressive tumor phenotype and serves as a determinant of therapy-resistance. We therefore tested whether siRNA-inhibition of TIGAR protein expression could sensitize HPV18-transformed HeLa cells to genotoxic chemotherapy agents (i.e., cisplatin, etoposide, doxorubicin, and 4-hydroxycyclophosphamide) that induce oxidative stress and DNA-damage. Here we demonstrate that the siRNA-knockdown of TIGAR hypersensitized HeLa cells to low, otherwise sub-inhibitory concentrations of these drugs and markedly induced cellular apoptosis, as compared to a scrambled RNA (scrRNA) oligonucleotide negative control or a non-transformed immortalized human fibroblast cell-line, HFL1. Importantly, these findings suggest that therapeutically inhibiting TIGAR could hypersensitize hrHPV+ cervical tumor cells to low-dosage concentrations of chemotherapy drugs that induce oxidative DNA-damage, which could potentially lead to more favorable clinical outcomes by reducing the adverse side-effects of these anticancer medications and making them more tolerable for patients. Our studies have further shown that siRNA-inhibition of TIGAR sensitizes HPV18+ HeLa cells to apoptosis induced by 4-hydroxycyclophosphamide-a DNA-alkylating agent these cells were reported to have resistance to, alluding to another possible benefit of targeting TIGAR in combinatorial treatment strategies against virus-induced cancers.
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