甲苯咪唑治疗和维持卵巢癌的潜力和机制。
Potential and mechanism of mebendazole for treatment and maintenance of ovarian cancer.
机构信息
Stephenson Cancer Center, University of Oklahoma Health Sciences Center, Oklahoma City 73104, OK, USA.
Stephenson Cancer Center, University of Oklahoma Health Sciences Center, Oklahoma City 73104, OK, USA; Department of Obstetrics and Gynecology, Section of Gynecologic Oncology, College of Medicine, University of Oklahoma Health Sciences Center, Oklahoma City 73104, OK, USA.
出版信息
Gynecol Oncol. 2021 Jan;160(1):302-311. doi: 10.1016/j.ygyno.2020.10.010. Epub 2020 Oct 31.
OBJECTIVE
Mebendazole and other anti-parasitic drugs are being used off-prescription based on social media and unofficial accounts of their anti-cancer activity. The purpose of this study was to conduct a controlled evaluation of mebendazole's therapeutic efficacy in cell culture and in vivo models of ovarian cancer. The majority of ovarian cancers harbor p53 null or missense mutations, therefore the effects of p53 mutations and a mutant p53 reactivator, PRIMA-1 (APR246) on mebendazole activity were evaluated.
METHODS
Mebendazole was evaluated in cisplatin-resistant high grade serous stage 3C ovarian cancer patient derived xenograft (PDX) models: PDX-0003 (p53 null) and PDX-0030 (p53 positive), and on ovarian cancer cell lines: MES-OV (p53 R282W), ES2 (p53 S241F), A2780 (p53 wild type), SKOV3 parental (p53 null) and isogenic sublines, SKOV3 R273H p53 and SKOV3 R248W p53. Drug synergy and mechanisms were evaluated in cell cultures using isobolograms, clonogenic assays and western blots. Prevention of tumor establishment was studied in a MES-OV orthotopic model.
RESULTS
Mebendazole inhibited growth of ovarian cancer cell cultures at nanomolar concentrations and PDXs at doses up to 50 mg/kg, and reduced orthotopic tumor establishment at 50 mg/kg. The mechanism of mebendazole was associated with p53-independent induction of p21 and tubule depolymerization. PRIMA-1 also inhibited tumor establishment and worked synergistically with mebendazole in cell culture to inhibit growth and induce intrinsic apoptosis through a p53- and tubule destabilization-independent mechanism.
CONCLUSION
This work demonstrates the therapeutic potential of repurposing mebendazole and supports clinical development of mebendazole for ovarian cancer therapy and maintenance.
目的
米氮平及其他抗寄生虫药物正在社交媒体和非官方渠道关于其抗癌活性的报道的基础上被非处方使用。本研究的目的是在卵巢癌细胞培养和体内模型中对米氮平的治疗效果进行对照评估。大多数卵巢癌携带 p53 缺失或错义突变,因此评估了 p53 突变和突变型 p53 激活剂 PRIMA-1(APR246)对米氮平活性的影响。
方法
在顺铂耐药的高级别浆液性 3C 期卵巢癌患者来源异种移植(PDX)模型:PDX-0003(p53 缺失)和 PDX-0030(p53 阳性)以及卵巢癌细胞系:MES-OV(p53 R282W)、ES2(p53 S241F)、A2780(p53 野生型)、SKOV3 亲本(p53 缺失)和同源亚系 SKOV3 R273H p53 和 SKOV3 R248W p53 中评估米氮平的作用。使用棋盘实验、集落形成实验和 Western blot 在细胞培养物中评估药物协同作用和机制。在 MES-OV 原位模型中研究了预防肿瘤建立的效果。
结果
米氮平以纳摩尔浓度抑制卵巢癌细胞培养物和 PDX 的生长,最高剂量达 50mg/kg,并在 50mg/kg 时减少了原位肿瘤的建立。米氮平的作用机制与 p53 无关,可诱导 p21 的表达和微管解聚。PRIMA-1 也抑制肿瘤的建立,并在细胞培养中与米氮平协同作用,通过一种不依赖于 p53 和微管不稳定的机制诱导内在凋亡。
结论
这项工作证明了重新利用米氮平的治疗潜力,并支持将米氮平用于卵巢癌治疗和维持的临床开发。
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