用于转移性黑色素瘤疫苗的肿瘤衍生扩增cRNA文库的生产和表征

Jean-Philippe Carralot, Benjamin Weide, Oliver Schoor, Jochen Probst, Birgit Scheel, Regina Teufel, Ingmar Hoerr, Claus Garbe, Hans-Georg Rammensee, Steve Pascolo
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引用次数: 9

摘要

背景:针对整个肿瘤抗原库的抗肿瘤疫苗是一种有吸引力的免疫治疗方法。在I/II期临床试验的背景下,我们给转移性黑色素瘤患者接种了自体扩增肿瘤mRNA。为了提供每个患者所需的大量mRNA,我们对Stratagene Creator SMART cDNA文库构建方法进行了改进,并应用于15例患者肿瘤的文库构建。通过测序和微阵列分析对这些mRNA文库疫苗的质量进行评价。结果:对文库细菌克隆的随机分析显示,95%的重组质粒,其中至少51%的克隆包含完整的开放阅读框。此外,尽管与大的罕见片段相比,偏向于小的丰富转录本的扩增,但我们可以在起源肿瘤的总RNA和相应的体外转录补充RNA (cRNA)之间记录相对保守的基因表达谱。最后,列出了患者MEL02文库中最丰富的30个转录本,发现了大量患者特异性或几种黑色素瘤共有的肿瘤相关抗原(TAAs)。结论:我们的研究结果表明,可以获得无限量的代表肿瘤转录组的cRNA,并且该cRNA是多种肿瘤抗原的可靠来源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Production and characterization of amplified tumor-derived cRNA libraries to be used as vaccines against metastatic melanomas.

Production and characterization of amplified tumor-derived cRNA libraries to be used as vaccines against metastatic melanomas.

Production and characterization of amplified tumor-derived cRNA libraries to be used as vaccines against metastatic melanomas.

Production and characterization of amplified tumor-derived cRNA libraries to be used as vaccines against metastatic melanomas.

Background: Anti-tumor vaccines targeting the entire tumor antigen repertoire represent an attractive immunotherapeutic approach. In the context of a phase I/II clinical trial, we vaccinated metastatic melanoma patients with autologous amplified tumor mRNA. In order to provide the large quantities of mRNA needed for each patient, the Stratagene Creator SMART cDNA library construction method was modified and applied to produce libraries derived from the tumors of 15 patients. The quality of those mRNA library vaccines was evaluated through sequencing and microarray analysis.

Results: Random analysis of bacterial clones of the library showed a rate of 95% of recombinant plasmids among which a minimum of 51% of the clones contained a full-Open Reading Frame. In addition, despite a biased amplification toward small abundant transcripts compared to large rare fragments, we could document a relatively conserved gene expression profile between the total RNA of the tumor of origin and the corresponding in vitro transcribed complementary RNA (cRNA). Finally, listing the 30 most abundant transcripts of patient MEL02's library, a large number of tumor associated antigens (TAAs) either patient specific or shared by several melanomas were found.

Conclusion: Our results show that unlimited amounts of cRNA representing tumor's transcriptome could be obtained and that this cRNA was a reliable source of a large variety of tumor antigens.

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