A Synthetic DNA, Multi-Neoantigen Vaccine Drives Predominately MHC Class I CD8(+) T-cell Responses, Impacting Tumor Challenge

Duperret Elizabeth K.; Perales-Puchalt Alfredo; Stoltz Regina; Hiranjith G. H.; Mandloi Nitin; Barlow James; Chaudhuri Amitabha; Sardesai Niranjan Y.; Weiner David B.

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A Synthetic DNA, Multi-Neoantigen Vaccine Drives Predominately MHC Class I CD8(+) T-cell Responses, Impacting Tumor Challenge

机译：合成DNA，多新南毒疫苗，主要是MHC I类CD8（+）T细胞应答，影响肿瘤攻击

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T-cell recognition of cancer neoantigens is important for effective immune-checkpoint blockade therapy, and an increasing interest exists in developing personalized tumor neoantigen vaccines. Previous studies utilizing RNA and long-peptide neoantigen vaccines in preclinical and early-phase clinical studies have shown immune responses predominantly driven by MHC class II CD4(+) T cells. Here, we report on a preclinical study utilizing a DNA vaccine platform to target tumor neoantigens. We showed that optimized strings of tumor neoantigens, when delivered by potent electroporation-mediated DNA delivery, were immunogenic and generated predominantly MHC class I-restricted, CD8(+) T-cell responses. High MHC class I affinity was associated specifically with immunogenic CD8(+) T-cell epitopes. These DNA neoantigen vaccines induced a therapeutic antitumor response in vivo, and neoantigen-specific T cells expanded from immunized mice directly killed tumor cells ex vivo. These data illustrate a unique advantage of this DNA platform to drive CD8(+) T-cell immunity for neoantigen immunotherapy.

机译：癌细胞识别的癌细胞识别对于有效的免疫检查点阻断治疗是重要的，并且在开发个性化肿瘤新稻垣疫苗中存在增加的兴趣。在临床前和早期临床研究中利用RNA和长肽新抗原疫苗的先前研究表明，主要由MHC II类CD4（+）T细胞引起的免疫应答。在这里，我们报告利用DNA疫苗平台靶向肿瘤NeoAntigens的临床前研究。我们表明，当通过有效的电穿孔介导的DNA递送递送时，优化的肿瘤Neoantigens是免疫原性的，并且主要产生MHC I类限制的CD8（+）T细胞反应。高MHC类I亲和力与免疫原性CD8（+）T细胞表位相关。这些DNA新宿老疫苗在体内诱导治疗抗肿瘤反应，并且新的特异性T细胞从免疫小鼠直接杀死肿瘤细胞前体内。这些数据说明了该DNA平台的独特优势，以驱动新南鬣针免疫疗法的CD8（+）T细胞免疫力。

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《Cancer immunology research.》 |2019年第2期|共9页
作者
Duperret Elizabeth K.; Perales-Puchalt Alfredo; Stoltz Regina; Hiranjith G. H.; Mandloi Nitin; Barlow James; Chaudhuri Amitabha; Sardesai Niranjan Y.; Weiner David B.;
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作者单位

Wistar Inst Anat &

Biol Vaccine &

Immunotherapy Ctr Philadelphia PA 19104 USA;

Wistar Inst Anat &

Biol Vaccine &

Immunotherapy Ctr Philadelphia PA 19104 USA;

Wistar Inst Anat &

Biol Vaccine &

Immunotherapy Ctr Philadelphia PA 19104 USA;

MedGenome Inc Foster City CA USA;

MedGenome Inc Foster City CA USA;

Inovio Pharmaceut Plymouth Meeting PA USA;

MedGenome Inc Foster City CA USA;

Inovio Pharmaceut Plymouth Meeting PA USA;

Wistar Inst Anat &

Biol Vaccine &

Immunotherapy Ctr Philadelphia PA 19104 USA;

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正文语种 eng
中图分类肿瘤学;
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1. A Synthetic DNA, Multi-Neoantigen Vaccine Drives Predominately MHC Class I CD8(+) T-cell Responses, Impacting Tumor Challenge [J] . Duperret Elizabeth K., Perales-Puchalt Alfredo, Stoltz Regina, Cancer immunology research. . 2019,第2期

机译：合成DNA，多新南毒疫苗，主要是MHC I类CD8（+）T细胞应答，影响肿瘤攻击
2. Viral MHC class I inhibition evades CD8~+ T-cell effector responses in vivo but not CD8~+ T-cell priming [J] . Maria D. Gainey, Joshua G. Rivenbark, Hyelim Cho, Proceedings of the National Academy of Sciences of the United States of America . 2012,第47期

机译：病毒I类MHC抑制作用在体内可逃避CD8〜+ T细胞效应子的反应，但不能逃避CD8〜+ T细胞的启动
3. Aberrant Expression of MHC Class II in Melanoma Attracts Inflammatory Tumor-Specific CD4(+) T-Cells, Which Dampen CD8(+) T-cell Antitumor Reactivity [J] . Donia Marco, Andersen Rikke, Kjeldsen Julie W., Cancer research: The official organ of the American Association for Cancer Research, Inc . 2015,第18期

机译：MHC II类在黑素瘤中的异常表达吸引了炎症性肿瘤特异性CD4（+）T细胞，从而抑制了CD8（+）T细胞的抗肿瘤反应性
4. INTRADERMAL ADMINISTRATION OF SYNTHETIC DNA VACCINES INDUCE ROBUST CELLULAR AND HUMORAL IMMUNE RESPONSES [C] . Jean D. Boyer Conference on vaccine technology VI . 2018

机译：皮内管理合成DNA疫苗诱导强健的细胞和体液免疫反应
5. Cell-Mediated Antiviral Immunity And Host Responses to CD8 T-cell Vaccines and Respiratory Virus Infection. [D] . Gasper, David J. 2015

机译：细胞介导的抗病毒免疫和宿主对CD8 T细胞疫苗和呼吸道病毒感染的反应。
6. Rabies DNA vaccine: No impact of MHC Class I and Class II targeting sequences on immune response and protection against lethal challenge [O] . Manpreet Kaur, Anant Rai, Rakesh Bhatnagar -1

机译：狂犬病DNA疫苗：I类和II类MHC靶向序列对免疫应答和致死性攻击的防护没有影响
7. A Synthetic DNA, Multi-Neoantigen Vaccine Drives Predominately MHC Class I CD8+ T-cell Responses, Impacting Tumor Challenge [O] . Elizabeth K. Duperret, Alfredo Perales-Puchalt, Regina Stoltz, 2019

机译：合成DNA，多新南毒疫苗，主要是MHC I类CD8 + T细胞应答，影响肿瘤攻击

A Synthetic DNA, Multi-Neoantigen Vaccine Drives Predominately MHC Class I CD8(+) T-cell Responses, Impacting Tumor Challenge

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