Dempsey Marlese P, Hamou Cynthia, V Joseph Michaels, Ghali Shadi, Jazayeri Leila, Grogan Raymon H, Gurtner Geoffrey C
Stanford, Calif. From the Department of Surgery, Division of Plastic Surgery, Stanford University School of Medicine.
Plast Reconstr Surg. 2008 May;121(5):1541-1553. doi: 10.1097/PRS.0b013e31816ff6aa.
Clinical use of cancer gene therapy has been prevented by the inability to deliver high levels of local transgene expression with acceptable host toxicity. The authors' laboratory has developed an ex vivo technique to genetically modify free flaps to deliver immunotherapy locally without systemic toxicity.
Superficial inferior epigastric flaps were dissected in Fischer rats, perfused with a viral vector expressing the antitumor interleukin-12 (IL-12) for 1 hour, and re-anastomosed. Beneath the flaps was a bolus of 1 x 10(6) beta-human chorionic gonadotropin-secreting MADB-106 tumor cells. Tumor growth was monitored using beta-human chorionic gonadotropin levels (secreted by the tumor) and size. IL-12 expression in tissue was assessed by enzyme-linked immunosorbent assay. Tumor inflammatory infiltrate was assessed using immunohistologic staining (CD8 and CD161) and enzyme-linked immunosorbent assay (interferon-gamma). Serum levels of liver enzymes and histologic analysis were used to assess systemic toxicity.
IL-12 expression was confirmed in the flap and surrounding tissue. The rate of tumor growth in the IL-12-treated group was significantly suppressed compared with the control group (p < 0.001). Liver enzyme levels remained normal, and histological evaluation of the liver, lung, and spleen revealed no evidence of inflammation in the treated group.
Using genetically modified free flaps, the authors were able to deliver IL-12 directly into the local environment of a tumor and suppress its growth without eliciting toxic systemic effects. This technique could provide valuable adjuvant treatment after oncologic surgery for soft-tissue cancers, with the transduced flap reconstructing the defect and supplying a therapeutic agent to the resected tumor bed.
由于无法在可接受的宿主毒性水平下实现高水平的局部转基因表达,癌症基因治疗的临床应用受到了阻碍。作者所在实验室已开发出一种体外技术,可对游离皮瓣进行基因改造,以在无全身毒性的情况下局部递送免疫疗法。
在Fischer大鼠中解剖腹壁浅动脉皮瓣,用表达抗肿瘤白细胞介素-12(IL-12)的病毒载体灌注1小时,然后重新吻合。在皮瓣下方植入1×10⁶个分泌β-人绒毛膜促性腺激素的MADB-106肿瘤细胞团。使用β-人绒毛膜促性腺激素水平(由肿瘤分泌)和大小监测肿瘤生长。通过酶联免疫吸附测定评估组织中IL-12的表达。使用免疫组织化学染色(CD8和CD161)和酶联免疫吸附测定(干扰素-γ)评估肿瘤炎性浸润。使用血清肝酶水平和组织学分析评估全身毒性。
在皮瓣和周围组织中证实了IL-12的表达。与对照组相比,IL-12治疗组的肿瘤生长速率显著受到抑制(p < 0.001)。肝酶水平保持正常,治疗组肝脏、肺和脾脏的组织学评估未发现炎症迹象。
通过使用基因改造的游离皮瓣,作者能够将IL-12直接递送至肿瘤的局部环境并抑制其生长,而不会引发全身毒性作用。该技术可为软组织癌肿瘤手术后提供有价值的辅助治疗,转导后的皮瓣可修复缺损并向切除的肿瘤床提供治疗剂。
