Lee Ji Hee, Cho Eun Song, Kim Mi-Young, Seo Young-Woo, Kho Dhong Hyo, Chung Ik Joo, Kook Hyun, Kim Nack Sung, Ahn Kyu Youn, Kim Kyung Keun
Medical Research Center for Gene Regulation, Chonnam National University Medical School, Kwangju, South Korea.
Cancer Res. 2005 Oct 1;65(19):8993-9003. doi: 10.1158/0008-5472.CAN-05-0590.
KITENIN promotes invasion of mouse colon adenocarcinoma (CT-26) cells in vivo. Here, we studied the effects of in vivo KITENIN ablation on established tumors by using pSUPER vectors (pSUPER-KITENIN) producing short interfering RNA (siRNA). When pSUPER-KITENIN was given weekly or semiweekly for 1 month into tail vein of syngeneic mice that have established colon tumors, tumor size regressed markedly and metastases were inhibited. In mice injected with pSUPER-KITENIN, serum interleukin-2 (IL-2) and IFN-gamma increased and CD4+ and CD8+ T cells infiltrated in the regressed tumor tissues. These effects, observed beginning 2 days after i.v. injection, imply that immune response is involved in the antitumor action of pSUPER-KITENIN. Using a yeast two-hybrid assay, we identified two KITENIN-interacting proteins for the possible mediators of these actions: 90K protein, a known immune modulatory glycoprotein, and protein kinase C inhibitor (PKCI). 90K was increased in the culture medium from CT-26/antisense KITENIN/90K cells. Double culture of accessory cells with CT-26/antisense KITENIN/90K cells revealed increased secretion of IL-1 and IL-6. Overexpression of 90K in CT-26/antisense KITENIN cells further delayed tumor growth compared with that of CT-26/antisense KITENIN cells. Actin arrangement was distorted in CT-26/antisense KITENIN and CT-26/antisense PKCI cells, whereas overexpression of PKCI resulted in increased invasiveness to fibronectin. Thus, antitumor effects of KITENIN siRNA derives from both the generation of a tumor-specific immune response in vivo through increased 90K secretion from tumor cells and the suppression of tumor invasion in which PKCI is related to increased invasiveness. Moreover, siRNA targeting of KITENIN can function as a chemotherapeutic strategy against colon cancer.
激肽释放酶原增强小鼠结肠腺癌(CT-26)细胞在体内的侵袭能力。在此,我们通过使用产生小干扰RNA(siRNA)的pSUPER载体(pSUPER-激肽释放酶原)研究了体内激肽释放酶原缺失对已形成肿瘤的影响。当将pSUPER-激肽释放酶原每周或每半月经尾静脉注射到已形成结肠肿瘤的同基因小鼠体内,持续1个月时,肿瘤大小显著缩小,转移受到抑制。在注射pSUPER-激肽释放酶原的小鼠中,血清白细胞介素-2(IL-2)和干扰素-γ增加,并且在消退的肿瘤组织中有CD4 +和CD8 + T细胞浸润。静脉注射后2天开始观察到的这些效应表明免疫反应参与了pSUPER-激肽释放酶原的抗肿瘤作用。使用酵母双杂交试验,我们鉴定出两种与激肽释放酶原相互作用的蛋白作为这些作用的可能介质:90K蛋白,一种已知的免疫调节糖蛋白,以及蛋白激酶C抑制剂(PKCI)。在CT-26/反义激肽释放酶原/90K细胞的培养基中90K增加。辅助细胞与CT-26/反义激肽释放酶原/90K细胞的共培养显示IL-1和IL-6的分泌增加。与CT-26/反义激肽释放酶原细胞相比,CT-26/反义激肽释放酶原细胞中90K的过表达进一步延迟了肿瘤生长。在CT-26/反义激肽释放酶原和CT-26/反义PKCI细胞中肌动蛋白排列扭曲,而PKCI的过表达导致对纤连蛋白的侵袭性增加。因此,激肽释放酶原siRNA的抗肿瘤作用源于通过肿瘤细胞增加90K分泌在体内产生肿瘤特异性免疫反应以及抑制肿瘤侵袭,其中PKCI与侵袭性增加有关。此外,靶向激肽释放酶原的siRNA可作为一种针对结肠癌的化疗策略。
