Saung May Tun, Zheng Lei
Department of Oncology, Johns Hopkins University School of Medicine, Baltimore, MD, USA.
The Sidney Kimmel Cancer Center, Johns Hopkins University School of Medicine, Baltimore, MD, USA.
Ann Pancreat Cancer. 2019 Dec;2. doi: 10.21037/apc.2019.11.01.
Immunotherapy can take advantage of the immunogenic response that chemotherapy elicits in tumors. Gemcitabine is a standard agent used in the treatment of pancreatic cancer, with known effects on the tumor immune microenvironment. The combination immunotherapy of the GVAX cancer vaccine, anti-PD-1 antibody and anti-CSF-1R antibody has been shown to improve survival in a murine model of metastatic pancreatic adenocarcinoma. This combination regimen also increased the infiltration of CD8+ T-cells that expressed both PD1 and CD137, and these T-cells were shown to express high levels of interferon-gamma, a marker of cytotoxic effector CD8+ T-cells. The effect of the addition of gemcitabine to this promising immunotherapy regimen has not been investigated.
Mice with liver-metastatic pancreatic adenocarcinoma were followed for 120 days to determine if adding immunotherapy, which comprised of varying combinations of GVAX, anti-PD-1 antibody and anti-CSF-1R antibody, to gemcitabine improved survival. Tumor-infiltrating CD8+ T-cells and myeloid cells, harvested after the mice were treated for 2 weeks, were analyzed with flow cytometry to characterize the effect the chemo-immunotherapy regimen had on the tumor microenvironment (TME).
Adding combination immunotherapy after gemcitabine improved survival compared to gemcitabine treatment alone (gemcitabine/GVAX/anti-PD1, P<0.001; gemcitabine/anti-PD1/anti-CSF-1R, P<0.05; gemcitabine/GVAX/anti-PD1/anti-CSF-1R, P<0.01). However, there was no difference in survival between the three chemo-immunotherapy treatment regimens. Compared to gemcitabine-only treatment, the chemo-immunotherapy regimens also increased the percentage of tumor-infiltrating CD8+ T-cells that expressed interferon-gamma (gemcitabine/GVAX/anti-PD1, P<0.0001 and gemcitabine/GVAX/anti-PD1/anti-CSF-1R, P<0.0001). The chemo-immunotherapy regimens also increased the number of tumor-infiltrating PD1+CD137+CD8+ T-cells and interferon-gamma-expressing PD1+CD137+CD8+ T-cells, but these increases were not statistically significant. Anti-CSF-1R antibody decreased the infiltration of myeloid cells and myeloid-derived suppressor cells caused by GVAX (P<0.05), and trended towards decreasing tumor-associated macrophages (TAMs) (P=0.18).
The addition of anti-PD1 antibody with GVAX and/or anti-CSF-1R antibody to gemcitabine improved the survival of mice with liver-metastatic pancreatic ductal adenocarcinoma (PDA). Gemcitabine with GVAX and anti-PD1 with or without anti-CSF-1R also improved the infiltration of effector CD8+ T-cells, and the presence of anti-CSF-1R in the chemo-immunotherapy regimens decreased the infiltration of myeloid cells. The overlapping mechanisms of the components in the chemo-immunotherapy regimens may explain the lack of survival difference between the various regimens, and this remains to be explored.
免疫疗法可利用化疗在肿瘤中引发的免疫原性反应。吉西他滨是用于治疗胰腺癌的标准药物,对肿瘤免疫微环境有已知作用。GVAX癌症疫苗、抗PD-1抗体和抗CSF-1R抗体的联合免疫疗法已被证明可提高转移性胰腺腺癌小鼠模型的生存率。这种联合方案还增加了同时表达PD1和CD137的CD8+T细胞的浸润,并且这些T细胞显示出高水平的γ干扰素表达,γ干扰素是细胞毒性效应性CD8+T细胞的标志物。尚未研究在这种有前景的免疫疗法方案中添加吉西他滨的效果。
对患有肝转移性胰腺腺癌的小鼠进行120天的跟踪,以确定在吉西他滨中添加由GVAX、抗PD-1抗体和抗CSF-1R抗体的不同组合组成的免疫疗法是否能提高生存率。在小鼠接受治疗2周后收集肿瘤浸润性CD8+T细胞和髓样细胞,用流式细胞术进行分析,以表征化学免疫疗法方案对肿瘤微环境(TME)的影响。
与单独使用吉西他滨治疗相比,在吉西他滨后添加联合免疫疗法可提高生存率(吉西他滨/GVAX/抗PD1,P<0.001;吉西他滨/抗PD1/抗CSF-1R,P<0.05;吉西他滨/GVAX/抗PD1/抗CSF-1R,P<0.01)。然而, 三种化学免疫疗法治疗方案之间的生存率没有差异。与仅使用吉西他滨治疗相比,化学免疫疗法方案还增加了表达γ干扰素的肿瘤浸润性CD8+T细胞的百分比(吉西他滨/GVAX/抗PD1,P<0.000; 吉西他滨/GVAX/抗PD1/抗CSF-1R,P<0.0001)。化学免疫疗法方案还增加了肿瘤浸润性PD1+CD137+CD8+T细胞和表达γ干扰素的PD1+CD137+CD8+T细胞的数量,但这些增加没有统计学意义。抗CSF-1R抗体减少了GVAX引起的髓样细胞和髓样来源的抑制细胞的浸润(P<0.05),并且有减少肿瘤相关巨噬细胞(TAM)的趋势(P=0.18)。
在吉西他滨中添加抗PD1抗体与GVAX和/或抗CSF-1R抗体可提高患有肝转移性胰腺导管腺癌(PDA)小鼠的生存率。吉西他滨与GVAX和抗PD1联合使用(有或没有抗CSF-1R)也改善了效应性CD8+T细胞的浸润,并且化学免疫疗法方案中抗CSF-1R的存在减少了髓样细胞的浸润。化学免疫疗法方案中各成分的重叠机制可能解释了不同方案之间生存率差异的缺乏,这仍有待探索。
