肿瘤微环境中癌症相关成纤维细胞对抗癌化疗的选择性激活
Selective Activation of Anticancer Chemotherapy by Cancer-Associated Fibroblasts in the Tumor Microenvironment.
作者信息
Kim Mi-Gyeong, Shon Yuna, Kim Jinyoung, Oh Yu-Kyoung
机构信息
Affiliations of authors: College of Pharmacy, Seoul National University, Seoul, Republic of Korea (MGK, YS, JK, YKO).
出版信息
J Natl Cancer Inst. 2016 Sep 11;109(1). doi: 10.1093/jnci/djw186. Print 2017 Jan.
BACKGROUND
The tumor microenvironment has recently emerged as a new target of anticancer chemotherapy. Selective activation of anticancer chemotherapy in the tumor microenvironment would further reduce the toxicity of anticancer drugs toward normal tissues. Fibroblast activation protein (FAP) is known to be selectively overexpressed on cancer-associated fibroblasts (CAFs) in the tumor microenvironment. Here, we designed an anticancer chemotherapeutic system based on promelittin, a peptide toxin that is selectively converted from an inactive form to the pore-forming melittin upon cleavage by FAP in the tumor microenvironment.
METHODS
We conjugated promelittin-containing FAP-cleavable sequences to pegylated phospholipids and anchored them to reduced graphene oxide (rGO) nanosheets. The resulting nanosheets, PL-rGO, were tested for hemolysis and used for doxorubicin delivery. In vitro cocultures and in vivo tumor growth (n = 5 mice per group) with tissue immunostaining were used to test the selective activation of anticancer chemotherapy by FAP expressed on CAFs.
RESULTS
FAP-specific hemolytic activity of PL-rGO was observed in cocultures of CAFs and HT29 cells but not in HT29 cells alone. Doxorubicin-loaded PL-rGO (Dox/PL-rGO) showed 3.4-fold greater cell-killing efficacy (compared with free Dox in the CAF/HT29 coculture system, effects that were not observed in HT29 cells alone). Intravenously administered Dox/PL-rGO reduced the growth of HT29 tumors more effectively than other treatments (Dox/PL-rGO: mean = 200.6 mm(3), 95% confidence interval [CI] = 148.7 to 252.5 mm(3); free Dox: mean = 697.0 mm(3), 95% CI = 646.9 to 747.1 mm(3), PL: mean = 565.0 mm(3), 95% CI = 550.5 to 579.6 mm(3); Dox/rGO: mean = 637.6 mm(3), 95% CI = 619.5 to 655.7 mm(3); PL-rGO: mean = 464.4 mm(3), 95% CI = 433.0 to 495.8 mm(3)). Immunostaining of tumor tissues revealed that survival of CAFs and HT29 cells was lowest in the group treated with Dox/PL-rGO.
CONCLUSIONS
The demonstration of selective activation of PL-rGO by FAP on CAFs suggests that PL-rGO may serve as a tumor microenvironment-responsive anticancer chemotherapy system.
背景
肿瘤微环境最近已成为抗癌化疗的新靶点。在肿瘤微环境中选择性激活抗癌化疗将进一步降低抗癌药物对正常组织的毒性。已知成纤维细胞活化蛋白(FAP)在肿瘤微环境中的癌症相关成纤维细胞(CAF)上选择性过表达。在此,我们设计了一种基于前蜂毒肽的抗癌化疗系统,前蜂毒肽是一种肽毒素,在肿瘤微环境中被FAP切割后可从无活性形式选择性转化为形成孔道的蜂毒肽。
方法
我们将含有前蜂毒肽的FAP可切割序列与聚乙二醇化磷脂偶联,并将它们锚定到还原氧化石墨烯(rGO)纳米片上。对所得纳米片PL-rGO进行溶血测试,并用于阿霉素递送。使用体外共培养和体内肿瘤生长(每组n = 5只小鼠)及组织免疫染色来测试CAF上表达的FAP对抗癌化疗的选择性激活。
结果
在CAF与HT29细胞的共培养中观察到PL-rGO的FAP特异性溶血活性,但单独在HT29细胞中未观察到。负载阿霉素的PL-rGO(Dox/PL-rGO)显示出高3.4倍的细胞杀伤效力(与CAF/HT29共培养系统中的游离阿霉素相比,单独在HT29细胞中未观察到这种效果)。静脉注射Dox/PL-rGO比其他治疗更有效地降低了HT29肿瘤的生长(Dox/PL-rGO:平均值 = 200.6 mm³,95%置信区间[CI] = 148.7至252.5 mm³;游离阿霉素:平均值 = 697.0 mm³,95% CI = 646.9至747.1 mm³,PL:平均值 = 565.0 mm³,95% CI = 550.5至579.6 mm³;Dox/rGO:平均值 = 637.6 mm³,95% CI = 619.5至655.7 mm³;PL-rGO:平均值 = 464.4 mm³,95% CI = 433.0至495.8 mm³)。肿瘤组织的免疫染色显示,在接受Dox/PL-rGO治疗的组中,CAF和HT29细胞的存活率最低。
结论
CAF上的FAP对PL-rGO的选择性激活证明表明PL-rGO可能作为一种肿瘤微环境响应性抗癌化疗系统。
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