Shabalkina Alexandra V, Izosimova Anna V, Ryzhichenko Ekaterina O, Shurganova Elizaveta V, Myalik Daria S, Maryanchik Sofia V, Ruppel Valeria K, Knyazev Dmitriy I, Khilal Nadezhda R, Barsova Ekaterina V, Shagina Irina A, Sharonov George V
Research Institute of Translational Medicine, Pirogov Russian National Research Medical University, 1 Ostrovityanova, Moscow 117997, Russia.
Department of Genomics of Adaptive Immunity, Shemyakin-Ovchinnikov Institute of Bioorganic Chemistry RAS, 16/10 Miklukho-Maklaya, Moscow 117997, Russia.
Int J Mol Sci. 2025 Jul 4;26(13):6453. doi: 10.3390/ijms26136453.
Peptide vaccines possess several advantages over mRNA vaccines but are generally less effective at inducing antitumor immunity. The bottlenecks limiting peptide vaccine efficacy could be elucidated by tracking and comparing vaccine-induced T-lymphocytes in successful and unsuccessful cases. Here we have applied our recent database of neoantigen-specific T cell receptors (TCRs) to profile tumor-specific T cells following vaccination with a neoantigen peptide vaccine and to correlate this with the response. Mice were vaccinated prophylactically with p30 peptide encoding B16 melanoma neoantigen (K739N mutation in gene). The B16F0 melanoma in the vaccinated mice was additionally treated by a CTLA-4 checkpoint blockade. T cells from the tumors, tumor-draining lymph nodes (tdLNs) and vaccine depots were isolated, phenotyped, sorted by subsets and sequenced for TCR repertoires. The vaccine induced the accumulation of tumor-specific CD4+ Th cells in the tdLNs, while in the tumors these cells were present and their frequencies were not changed by the vaccine. These cells also accumulated at the vaccine depots, where they were phenotypically skewed by the vaccine components; however, these effects were minor due to approximately 50-fold lower cell quantities compared to the tdLNs. Only some of the p30-specific Th cells showed tumoricidal activity, as revealed by the reverse correlation of their frequencies in the tdLNs with the tumor size. The CTLA-4 blockade did not affect the tumor growth or the frequencies of tumor-specific cells but did stimulate Th cell motility. Thus, we have shown that tumor-specific Th clones accumulate and/or expand in the tdLNs, which correlates with tumor suppression but only for some of these clones. Tumor infiltration by these clones is not correlated with the growth rate.
与mRNA疫苗相比,肽疫苗具有几个优势,但在诱导抗肿瘤免疫方面通常效果较差。通过追踪和比较成功和失败病例中疫苗诱导的T淋巴细胞,可以阐明限制肽疫苗疗效的瓶颈。在这里,我们应用了我们最近的新抗原特异性T细胞受体(TCR)数据库,对接种新抗原肽疫苗后的肿瘤特异性T细胞进行分析,并将其与反应相关联。用编码B16黑色素瘤新抗原(基因中的K739N突变)的p30肽对小鼠进行预防性接种。对接种小鼠的B16F0黑色素瘤额外进行CTLA-4检查点阻断治疗。分离肿瘤、肿瘤引流淋巴结(tdLN)和疫苗储存处的T细胞,进行表型分析,按亚群分选并对TCR库进行测序。疫苗诱导tdLN中肿瘤特异性CD4+ Th细胞的积累,而在肿瘤中这些细胞存在,且其频率未因疫苗而改变。这些细胞也在疫苗储存处积累,在那里它们的表型因疫苗成分而发生偏移;然而,由于细胞数量比tdLN低约50倍,这些影响较小。只有一些p30特异性Th细胞表现出杀瘤活性,tdLN中它们的频率与肿瘤大小呈负相关表明了这一点。CTLA-4阻断不影响肿瘤生长或肿瘤特异性细胞的频率,但确实刺激Th细胞的运动。因此,我们已经表明,肿瘤特异性Th克隆在tdLN中积累和/或扩增,这与肿瘤抑制相关,但仅针对其中一些克隆。这些克隆的肿瘤浸润与生长速率无关。
