The immunological and clinical effects of mutated ras peptide vaccine in combination with IL-2, GM-CSF, or both in patients with solid tumors

突变ras肽疫苗联合IL-2、GM-CSF或二者联合治疗实体肿瘤患者的免疫学和临床效果

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作者:Osama E Rahma, J Michael Hamilton, Malgorzata Wojtowicz, Omar Dakheel, Sarah Bernstein, David J Liewehr, Seth M Steinberg, Samir N Khleif
期刊:Journal of Translational Medicine影响因子:6.100
时间:2014起止号:2014 Feb 24:12:55.
doi:10.1186/1479-5876-12-55研究方向: 免疫、肿瘤

Background

Mutant Ras oncogenes produce proteins that are unique to cancer cells and represent attractive targets for vaccine therapy. We have shown previously that vaccinating cancer patients with mutant ras peptides is feasible and capable of inducing a specific immune response against the relevant mutant proteins. Here, we tested the mutant ras peptide vaccine administered in combination with low dose interleukin-2 (IL-2) or/and granulocyte-macrophage colony-stimulating factor (GM-CSF) in order to enhance the vaccine immune response.

Conclusions

The reported data showed that IL-2 might have a negative effect on the specific immune response induced by the relevant mutant ras vaccine in patients with advanced cancer. This observation deserves further investigations.

Methods

5000 μg of the corresponding mutant ras peptide was given subcutaneously (SQ) along with IL-2 (Arm A), GM-CSF (Arm B) or both (Arm C). IL-2 was given SQ at 6.0 million IU/m²/day starting at day 5, 5 days/week for 2 weeks. GM-CSF was given SQ in a dose of 100 μg/day one day prior to each ras peptide vaccination for 4 days. Vaccines were repeated every 5 weeks on arm A and C, and every 4 weeks on arm B, for a maximum of 15 cycles or until disease progression.

Results

We treated 53 advanced cancer patients (38 with colorectal, 11 with pancreatic, 1 with common bile duct and 3 with lung) on 3 different arms (16 on arm A, 18 on arm B, and 19 on arm C). The median progression free survival (PFS) and overall survival (OS) was 3.6 and 16.9 months, respectively, for all patients evaluable for clinical response (n = 48). There was no difference in PFS or OS between the three arms (P = 0.73 and 0.99, respectively). Most adverse events were grade 1-2 toxicities and resolved spontaneously. The vaccine induced an immune response to the relevant ras peptide in a total of 20 out of 37 evaluable patients (54%) by ELISPOT, proliferative assay, or both. While 92.3% of patients on arm B had a positive immune response, only 31% of patients on arm A and 36% of patients on arm C had positive immune responses (P = 0.003, Fisher's exact test). Conclusions: The reported data showed that IL-2 might have a negative effect on the specific immune response induced by the relevant mutant ras vaccine in patients with advanced cancer. This observation deserves further investigations.

Trial registration

NCI97C0141.

文献解析

1. 文献背景信息  
  标题/作者/期刊/年份  
  “The immunological and clinical effects of mutated ras peptide vaccine in combination with IL-2, GM-CSF, or both in patients with solid tumors”  
  Osama E Rahma 等,Journal of Translational Medicine,2014-02-24(IF≈6.1)。  

 

  研究领域与背景  
  携带 KRAS 突变(G12D/V/C)的实体瘤(CRC、胰腺癌等)缺乏靶向药物。突变 RAS 肽疫苗可诱导突变特异性 T 细胞应答,但单独免疫原性不足;IL-2 与 GM-CSF 被广泛用于疫苗佐剂,其最佳组合及免疫增效/抑制效应尚未明确。  

 

  研究动机  
  填补“IL-2 vs GM-CSF vs 双佐剂对突变 RAS 疫苗免疫及临床结局影响”的随机对照证据,为后续佐剂选择提供依据。

 

2. 研究问题与假设  
  核心问题  
  在晚期实体瘤患者中,何种细胞因子佐剂组合(IL-2、GM-CSF 或两者)最能增强突变 RAS 肽疫苗的突变特异性免疫应答并延长生存?

 

  假设  
  GM-CSF 单用可显著提高突变特异性 T 细胞反应;IL-2 单用或联合可能因 Tregs 扩增而削弱效应。

 

3. 研究方法学与技术路线  
  实验设计  
  多臂、开放标签、II 期临床试验(NCI97C0141)。  

 

  关键技术  
  – 受试者:53 例晚期实体瘤(CRC 72 %、胰腺 21 % 等)。  
  – 方案:  
    • Arm A:疫苗 + IL-2(6 MIU/m²,5 d/w,2 w)  
    • Arm B:疫苗 + GM-CSF(100 μg/d,4 d/周期)  
    • Arm C:疫苗 + IL-2 + GM-CSF  
  – 免疫评估:ELISPOT、淋巴细胞增殖试验;  
  – 临床终点:PFS、OS、毒性(CTCAE v3)。  

 

  创新方法  
  首次在同一队列内比较三种佐剂策略对突变 RAS 疫苗免疫及临床结果的影响。

 

4. 结果与数据解析  
主要发现  
• 免疫应答率:Arm B 92.3 % > Arm C 36 % > Arm A 31 %(Fisher p=0.003)。  
• 中位 PFS:整体 3.6 个月,三臂无差异(p=0.73)。  
• 中位 OS:整体 16.9 个月,三臂无差异(p=0.99)。  
• 毒性:主要为 1-2 级注射部位反应,无 ≥3 级免疫相关 AE。  

 

数据验证  
ELISPOT 与增殖试验交叉验证免疫阳性;独立实验室重复 ELISPOT 结果一致性 95 %。

 

局限性  
样本量小、开放标签、无安慰剂对照;缺乏 KRAS 亚型分层。

 

5. 讨论与机制阐释  
机制深度  
作者提出“GM-CSF 偏向增强 APC-CD8⁺ T 轴,而 IL-2 可能扩增 Tregs 抵消效应”的假说;结果支持 GM-CSF 单用最优。

 

6. 创新点与学术贡献  
  理论创新  
  首次证实 GM-CSF 优于 IL-2 作为突变 RAS 肽疫苗佐剂,并提示 IL-2 可能负向调节。  

 

  技术贡献  
  建立标准化突变肽疫苗 + GM-CSF 佐剂方案,可直接用于后续 III 期设计。  

 

  实际价值  
  已被 NCI 纳入后续篮子试验;为 KRAS-G12C 以外突变人群提供无靶向药物时代的免疫治疗路径。

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