Division of Gastroenterology and Hepatology, Mayo Clinic, Rochester, MN 55905, USA.
Hepatology. 2011 Dec;54(6):2076-88. doi: 10.1002/hep.24588.
Cholangiocarcinoma (CCA) cells paradoxically express the death ligand, tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) and, therefore, are dependent upon potent survival signals to circumvent TRAIL cytotoxicity. CCAs are also highly desmoplastic cancers with a tumor microenvironment rich in myofibroblasts (MFBs). Herein, we examine a role for MFB-derived CCA survival signals. We employed human KMCH-1, KMBC, HuCCT-1, TFK-1, and Mz-ChA-1 CCA cells, as well as human primary hepatic stellate and myofibroblastic LX-2 cells, for these studies. In vivo experiments were conducted using a syngeneic rat orthotopic CCA model. Coculturing CCA cells with myofibroblastic human primary hepatic stellate cells or LX-2 cells significantly decreased TRAIL-induced apoptosis in CCA cells, a cytoprotective effect abrogated by neutralizing platelet-derived growth factor (PDGF)-BB antiserum. Cytoprotection by PDGF-BB was dependent upon Hedgehog (Hh) signaling, because it was abolished by the smoothened (SMO; the transducer of Hh signaling) inhibitor, cyclopamine. PDGF-BB induced cyclic adenosine monophosphate-dependent protein kinase-dependent trafficking of SMO to the plasma membrane, resulting in glioma-associated oncogene (GLI)2 nuclear translocation and activation of a consensus GLI reporter gene-based luciferase assay. A genome-wide messenger RNA expression analysis identified 67 target genes to be commonly up- (50 genes) or down-regulated (17 genes) by both Sonic hedgehog and PDGF-BB in a cyclopamine-dependent manner in CCA cells. Finally, in a rodent CCA in vivo model, cyclopamine administration increased apoptosis in CCA cells, resulting in tumor suppression.
MFB-derived PDGF-BB protects CCA cells from TRAIL cytotoxicity by a Hh-signaling-dependent process. These results have therapeutical implications for the treatment of human CCA.
胆管癌 (CCA) 细胞反常地表达死亡配体,肿瘤坏死因子相关凋亡诱导配体 (TRAIL),因此,依赖于强大的生存信号来规避 TRAIL 细胞毒性。CCA 也是高度纤维形成性癌症,肿瘤微环境富含肌成纤维细胞 (MFB)。在此,我们研究了 MFB 衍生的 CCA 生存信号的作用。我们使用人 KMCH-1、KMBC、HuCCT-1、TFK-1 和 Mz-ChA-1 CCA 细胞,以及人原代肝星状细胞和肌成纤维细胞 LX-2 细胞进行了这些研究。体内实验使用了同种异体大鼠原位 CCA 模型。CCA 细胞与肌成纤维细胞人原代肝星状细胞或 LX-2 细胞共培养显著降低了 CCA 细胞中 TRAIL 诱导的细胞凋亡,这种细胞保护作用被血小板衍生生长因子 (PDGF)-BB 抗血清中和所消除。PDGF-BB 的细胞保护作用依赖于 Hedgehog (Hh) 信号通路,因为它被 smoothened (SMO;Hh 信号转导的传感器) 抑制剂环巴胺所消除。PDGF-BB 诱导 SMO 向质膜的环磷酸腺苷单磷酸依赖性蛋白激酶依赖性转运,导致神经胶质瘤相关癌基因 (GLI)2 核易位,并激活基于共有 GLI 报告基因的荧光素酶测定。全基因组信使 RNA 表达分析确定了 67 个靶基因,这些基因在 CCA 细胞中被 Sonic hedgehog 和 PDGF-BB 共同上调 (50 个基因) 或下调 (17 个基因),且在 cyclopamine 依赖性方式下是如此。最后,在一种啮齿动物 CCA 体内模型中,cyclopamine 的给药增加了 CCA 细胞的凋亡,从而抑制了肿瘤。
MFB 衍生的 PDGF-BB 通过 Hh 信号依赖性过程保护 CCA 细胞免受 TRAIL 细胞毒性。这些结果对人类 CCA 的治疗具有治疗意义。
