Development and validation of optimized lentivirus-like particles for gene editing tool delivery with Gag-Only strategy.

IF 2.8 3区医学 Q2 MEDICINE, RESEARCH & EXPERIMENTAL

European Journal of Medical Research Pub Date : 2025-04-04 DOI:10.1186/s40001-025-02499-2

Jinlin Jia, Yanzhe Hao, Lu Zhang, Xiaofang Cao, Lisha An, Hu Wang, Qi Ma, Xiaohua Jin, Xu Ma

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引用次数: 0

Abstract

Background: The development of gene editing tools such as CRISPR-Cas9 and base editors (BE) is critical for genetic diseases and cancer. Lentivirus-like particles (LVLPs) grows into an auspicious platform for delivering mRNA or ribonucleic proteins (RNPs) due to it integrates the advantage of viral and non-viral vectors. Current LVLP systems predominantly utilize HIV-Gag and Pol proteins. However, the reverse transcriptase and integrase of Pol, pose risks of genomic integration and potential tumorigenesis. Enhancing the safety of VLP system is essential. This study focuses on improving the LVLP to minimize these risks.

Methods: We implemented a Gag-Only strategy, constructing LVLPs with HIV-Gag protein, thereby eliminating the integration risks linked to Pol. By leveraging the interactions between MS2-MCP (MS2 coat protein), PP7 and PP7 BP (PP7 binding protein), and the psi (HIV packaging signal) with HIV-Gag, we encapsulated PAMless andesine base editor (CE-8e-SpRY) mRNA and sgRNA targeting the PD1 start codon (ATG) into the LVLP. Using recombinant lentiviral vector technology, we developed a stable PD1-expressing 293T cell line (PD1-293T) to assess the editing efficiency of LVLP.

Results: The psi-LVLP demonstrated effective packaging capabilities, achieving 15% base editing efficiency in 293T cells. By optimizing plasmid ratios, we observed increased CE-8e-SpRY mRNA copy numbers, with 30% base editing efficiency. Additionally, the integration of HDVrz (hepatitis delta virus ribozyme) and psi into sgRNA (HDVrz-psi-LVLP) substantially enhanced sgRNA copy numbers, resulting in approximately 50% base editing efficiency in 293T cells and 20% base editing efficiency in Jurkat cells. Mendelian randomization analyses revealed significant genetic correlations between PD1, B2M, CIITA, and TIGIT genes with various cancer risks. Furthermore, HDVrz-psi-LVLPs targeting the start codons of B2M, CIITA, and TIGIT exhibited high base editing activity in both Jurkat and 293T cells.

Conclusion: In conclusion, this optimized platform effectively encapsulates CE-8e-SpRY mRNA and sgRNA, achieving high editing efficiencies across multiple genes and cell types. We introduce a safer and more efficient gene editing tool delivery system by constructing LVLPs based on the Gag-Only strategy. Our study presents a promising implication for cancer immunotherapy.

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基于Gag-Only策略的基因编辑工具递送的优化慢病毒样颗粒的开发和验证。

背景：CRISPR-Cas9和碱基编辑器（BE）等基因编辑工具的发展对遗传疾病和癌症至关重要。慢病毒样颗粒（LVLPs）结合了病毒载体和非病毒载体的优势，成为传递mRNA或核糖核蛋白（RNPs）的理想载体。目前LVLP系统主要利用HIV-Gag和Pol蛋白。然而，Pol的逆转录酶和整合酶具有基因组整合和潜在肿瘤发生的风险。提高VLP系统的安全性至关重要。本研究的重点是改善LVLP以尽量减少这些风险。方法：我们实施Gag-Only策略，构建含有HIV-Gag蛋白的lvlp，从而消除与Pol相关的整合风险。利用MS2- mcp （MS2外壳蛋白）、PP7和PP7 BP （PP7结合蛋白）以及psi （HIV包装信号）与HIV- gag的相互作用，我们将靶向PD1起始密码子（ATG）的PAMless andesine base editor (CE-8e-SpRY) mRNA和sgRNA封装到LVLP中。利用重组慢病毒载体技术，构建稳定表达pd1的293T细胞系（PD1-293T），评估LVLP的编辑效率。结果：psi-LVLP展示了有效的封装能力，在293T细胞中实现了15%的碱基编辑效率。通过优化质粒比例，我们观察到CE-8e-SpRY mRNA拷贝数增加，碱基编辑效率达到30%。此外，将HDVrz（丁型肝炎病毒核酶）和psi整合到sgRNA （HDVrz-psi- lvlp）中，大大提高了sgRNA的拷贝数，在293T细胞中提高了约50%的碱基编辑效率，在Jurkat细胞中提高了约20%的碱基编辑效率。孟德尔随机化分析显示，PD1、B2M、CIITA和TIGIT基因与各种癌症风险之间存在显著的遗传相关性。此外，靶向B2M、CIITA和TIGIT起始密码子的hdvrz -psi- lvlp在Jurkat和293T细胞中均表现出较高的碱基编辑活性。结论：优化后的平台有效封装了CE-8e-SpRY mRNA和sgRNA，实现了跨多种基因和细胞类型的高编辑效率。通过构建基于Gag-Only策略的LVLPs，我们引入了一种更安全、更高效的基因编辑工具传递系统。我们的研究为癌症免疫治疗提供了一个有希望的启示。

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来源期刊

European Journal of Medical Research 医学-医学：研究与实验

CiteScore

3.20

自引率

0.00%

发文量

247

审稿时长

>12 weeks

期刊介绍： European Journal of Medical Research publishes translational and clinical research of international interest across all medical disciplines, enabling clinicians and other researchers to learn about developments and innovations within these disciplines and across the boundaries between disciplines. The journal publishes high quality research and reviews and aims to ensure that the results of all well-conducted research are published, regardless of their outcome.