DeMatos P, Abdel-Wahab Z, Vervaert C, Hester D, Seigler H
Department of Surgery, Duke University Medical Center, Durham, North Carolina 27710, USA.
J Surg Oncol. 1998 Jun;68(2):79-91. doi: 10.1002/(sici)1096-9098(199806)68:2<79::aid-jso3>3.0.co;2-h.
Dendritic cells (DC) pulsed in vitro with a variety of antigens have proved effective in producing specific antitumor effects in vivo. Experimental evidence from other laboratories has confirmed that shared antigens can be encountered in histologically distinct tumors. In our experiments, we set out to evaluate the immunotherapeutic potential of vaccines consisting of DC pulsed with MCA-106 fibrosarcoma or B16 melanoma cell lysates and to determine whether a cross-reactivity exists between the two tumors.
DC were prepared from the bone marrow of C57BL/6 (B6) mice by culturing progenitor cells in murine granulocyte-macrophage colony-stimulating factor (GM-CSF). They were separated into three equal groups and were either pulsed with B16 melanoma cell lysates (BDC), pulsed with tumor extract from the syngeneic fibrosarcoma MCA-106 (MDC), or left unpulsed (UDC). DC were then used to immunize three groups of mice, with all mice receiving two weekly intravenous (IV) doses of 1 x 10(6) DC from their respective preparations on days -14 and -7. A fourth group of control mice were left untreated. On day 0, all mice were challenged with subcutaneous injections of 1 x 10(5) B16 and 1 x 10(5) MCA tumor cells, administered in the left and right thighs, respectively. After the inoculations, the mice were monitored closely with respect to tumor growth and survival.
The MDC mice developed specific cellular immunity directed against not only MCA-106 tumor cells, but also against B16 melanoma, as measured through chromium-release assays of splenocyte preparations, while remaining ineffective at killing both L929 fibroblasts and CT26 tumor cells. By day 30 after tumor inoculations, control mice manifested the largest B16 tumor volumes at a mean of 2185 mm3, followed by the UDC, MDC, and BDC groups at 92 mm3 (P=0.00008), 3 mm3 (P=0.000002), and 2 mm3 (P=0.00004), respectively. The survival data mirrored this pattern, with control animals displaying the shortest mean survival time (37.1+/-4.0 days), followed by UDC (44.8+/-6.6), MDC (56.2 +/-14.7), and BDC (56.4+/-18.3) animals. No significant differences were noted between MCA-106 and B16 cell lysate-pulsed DC vaccines with respect to their abilities to inhibit B16 tumor growth and to prolong survival. These findings were confirmed using a B16 pulmonary metastasis model. Likewise, vaccination with interferon-gamma gene-modified MCA-106 tumor cells was shown to be effective at protecting against a subsequent subcutaneous B16 tumor challenge in 3 of 4 mice observed.
These results demonstrate that immunization with antigen-pulsed DC confers cellular immunity, retards tumor growth, and prolongs the survival of tumor-challenged mice. The ability of MCA-106 cell lysate-pulsed DC vaccines to inhibit the growth of subcutaneous B16 tumors also suggests the presence of shared tumor-associated antigens between these two histologically distinct tumors.
体外经多种抗原脉冲处理的树突状细胞(DC)已被证明在体内产生特异性抗肿瘤作用方面是有效的。其他实验室的实验证据证实,在组织学上不同的肿瘤中可发现共同抗原。在我们的实验中,我们着手评估用MCA - 106纤维肉瘤或B16黑色素瘤细胞裂解物脉冲处理的DC组成的疫苗的免疫治疗潜力,并确定这两种肿瘤之间是否存在交叉反应性。
通过在小鼠粒细胞 - 巨噬细胞集落刺激因子(GM - CSF)中培养祖细胞,从C57BL / 6(B6)小鼠的骨髓制备DC。将它们分成三个相等的组,分别用B16黑色素瘤细胞裂解物(BDC)脉冲处理、用同基因纤维肉瘤MCA - 106的肿瘤提取物(MDC)脉冲处理或不进行脉冲处理(UDC)。然后用DC免疫三组小鼠,所有小鼠在第 - 14天和第 - 7天每周静脉内(IV)给予两次各自制备的1×10⁶个DC。第四组对照小鼠不进行处理。在第0天,所有小鼠分别在左大腿和右大腿皮下注射1×10⁵个B16和1×10⁵个MCA肿瘤细胞进行攻击。接种后,密切监测小鼠的肿瘤生长和存活情况。
通过脾细胞制剂的铬释放测定法测量,MDC小鼠不仅产生了针对MCA - 106肿瘤细胞的特异性细胞免疫,而且还产生了针对B16黑色素瘤的特异性细胞免疫,而对L929成纤维细胞和CT26肿瘤细胞的杀伤均无效。在肿瘤接种后第30天,对照小鼠的B16肿瘤体积最大,平均为2185 mm³,其次是UDC组(92 mm³,P = 0.00008)、MDC组(3 mm³,P = 0.000002)和BDC组(2 mm³,P = 0.00004)。生存数据反映了这种模式,对照动物的平均生存时间最短(37.1±4.0天),其次是UDC组(44.8±6.6天)、MDC组(56.2±14.7天)和BDC组(56.4±18.3天)。关于抑制B16肿瘤生长和延长生存的能力,MCA - 106和B16细胞裂解物脉冲处理的DC疫苗之间未观察到显著差异。使用B16肺转移模型证实了这些发现。同样,在观察的4只小鼠中有3只显示,用干扰素 - γ基因修饰的MCA - 106肿瘤细胞进行疫苗接种可有效预防随后的皮下B16肿瘤攻击。
这些结果表明,用抗原脉冲处理的DC进行免疫可赋予细胞免疫,延缓肿瘤生长,并延长受肿瘤攻击小鼠的存活时间。MCA - 106细胞裂解物脉冲处理的DC疫苗抑制皮下B16肿瘤生长的能力也表明这两种组织学上不同的肿瘤之间存在共同的肿瘤相关抗原。
