Cell membrane-camouflaged liposomes and neopeptide-loaded liposomes with TLR agonist R848 provides a prime and boost strategy for efficient personalized cancer vaccine therapy

IF 4.7 4区 医学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Lu Shi PhD, Hongchen Gu PhD
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引用次数: 0

Abstract

Recent advances in bioinformatics and nanotechnology offer great opportunities for personalized cancer vaccine development. However, the timely identification of neoantigens and unsatisfactory efficacy of therapeutic cancer vaccines remain two obstacles for clinical transformation. We propose a “prime and boost” strategy to facilitate neoantigen-based immunotherapy. To prime the immune system, we first constructed personalized liposomes with cancer cell membranes and adjuvant R848 to provide immunostimulatory efficacy and time for identifying tumor antigens. Liposomes loaded with personalized neopeptides and adjuvants were used to boost the immune response. In vitro experiments verified potent immune responses, including macrophage polarization, dendritic cell maturation, and T lymphocyte activation. In vivo B16F10 and TC-1 cancer model were used to investigate efficient tumor growth suppression. Liposomal vaccines with neopeptides could stimulate human dendritic cells and T lymphocytes in vitro. These results demonstrate that the “prime and boost” strategy provides simple, quick, and efficient personalized vaccines for cancer therapy.

Abstract Image

TLR激动剂R848的细胞膜伪装脂质体和新肽负载脂质体为有效的个性化癌症疫苗治疗提供了一种主要和促进策略
生物信息学和纳米技术的最新进展为个性化癌症疫苗的开发提供了巨大的机会。然而,新抗原的及时鉴定和治疗性癌症疫苗的疗效不理想仍然是临床转化的两个障碍。我们提出了一个“启动和促进”策略,以促进基于新抗原的免疫治疗。为了启动免疫系统,我们首先用癌细胞膜和佐剂R848构建了个性化脂质体,以提供免疫刺激效果和识别肿瘤抗原的时间。脂质体装载个性化的新肽和佐剂被用来增强免疫反应。体外实验证实了有效的免疫反应,包括巨噬细胞极化、树突状细胞成熟和T淋巴细胞活化。采用体内B16F10和TC-1肿瘤模型研究有效抑制肿瘤生长。含新肽的脂质体疫苗对人树突状细胞和T淋巴细胞具有体外刺激作用。这些结果表明,“启动和促进”策略为癌症治疗提供了简单、快速和有效的个性化疫苗。
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来源期刊
CiteScore
8.10
自引率
3.60%
发文量
104
审稿时长
4.6 months
期刊介绍: Nanomedicine: Nanotechnology, Biology and Medicine (NBM) is an international, peer-reviewed journal presenting novel, significant, and interdisciplinary theoretical and experimental results related to nanoscience and nanotechnology in the life and health sciences. Content includes basic, translational, and clinical research addressing diagnosis, treatment, monitoring, prediction, and prevention of diseases.
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