Max-Delbrück-Center for Molecular Medicine, Berlin, Germany.
Cancer Cell. 2011 Dec 13;20(6):755-67. doi: 10.1016/j.ccr.2011.10.019.
The genetic instability of cancer cells frequently causes drug resistance. We established mouse cancer models, which allowed targeting of an oncogene by drug-mediated inactivation or monospecific CD8(+) effector T (T(E)) cells. Drug treatment of genetically unstable large tumors was effective but selected resistant clones in the long term. In contrast, T(E) cells completely rejected large tumors (≥500 mm(3)), if the target antigen was cancer-driving and expressed in sufficient amounts. Although drug-mediated oncogene inactivation selectively killed the cancer cells and left the tumor vasculature intact, which likely facilitated survival and growth of resistant clones, T(E) cell treatment led to blood vessel destruction and probably "bystander" elimination of escape variants, which did not require antigen cross-presentation by stromal cells.
癌细胞的遗传不稳定性常常导致药物耐药性。我们建立了小鼠癌症模型,这些模型允许通过药物介导的失活或单特异性 CD8(+)效应 T(T(E))细胞来靶向致癌基因。对遗传不稳定的大型肿瘤进行药物治疗在短期内是有效的,但长期来看会选择耐药克隆。相比之下,如果靶抗原是驱动癌症的且表达量足够,T(E)细胞可完全排斥大型肿瘤(≥500mm(3))。尽管药物介导的致癌基因失活选择性地杀死了癌细胞,同时使肿瘤血管保持完整,这可能有助于耐药克隆的存活和生长,但 T(E)细胞治疗导致了血管破坏,并可能通过“旁观者”消除逃逸变体,这不需要基质细胞的抗原交叉呈递。