Plasmodium: mammalian codon optimization of malaria plasmid DNA vaccines enhances antibody responses but not T cell responses nor protective immunity

Dobano C; Sedegah M; Rogers WO; Kumar S; Zheng H; Hoffman SL; Doolan DL

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Plasmodium: mammalian codon optimization of malaria plasmid DNA vaccines enhances antibody responses but not T cell responses nor protective immunity

机译：疟原虫：疟疾质粒DNA疫苗的哺乳动物密码子优化可增强抗体反应，但不能增强T细胞反应或保护性免疫

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We have evaluated the effect of mammalian codon optimization on the immunogenicity and protective efficacy of plasmid DNA vaccines encoding pre-erythrocytic stage Plasmodium falciparum and Plasmodium yoelii antigens in mice. Codon optimization significantly enhanced in vitro expression and in vivo antibody responses for P. falciparum circumsporozoite protein (PfCSP) and P. yoelii hepatocyte erythrocyte protein 17 kDa (PyHEP17) but not for P. yoelii circumsporozoite protein (PyCSP). Unexpectedly, more robust CD4+ and CD8+ T cell responses as measured by IFN-gamma ELIspot, lymphoproliferation, and cytotoxic T lymphocyte assays were noted with native as compared with codon optimization constructs. Codon optimization also failed to enhance CD8+ T cell dependent protection against P. yoelii sporozoite challenge as measured by liver-stage parasite burden. These data demonstrate that the effect of mammalian codon optimization is antigen-dependent and may not be beneficial for vaccines designed to induce T cell dependent protective immunity in this malaria model.

机译：我们已经评估了哺乳动物密码子优化对编码小鼠前红细胞阶段恶性疟原虫和约氏疟原虫抗原的质粒DNA疫苗的免疫原性和保护功效的影响。密码子优化显着增强了恶性疟原虫环子孢子蛋白（PfCSP）和约氏疟原虫肝细胞红细胞蛋白17 kDa（PyHEP17）的体外表达和体内抗体应答，但不增强约氏疟原虫的环子孢子蛋白（PyCSP）。出乎意料的是，与密码子优化构建体相比，通过IFN-γELIspot，淋巴增生和细胞毒性T淋巴细胞分析测得的CD4 +和CD8 + T细胞反应更为强劲。如通过肝阶段寄生虫负担所测量的，密码子优化也未能增强针对约氏疟原虫子孢子攻击的CD8 + T细胞依赖性保护。这些数据表明，哺乳动物密码子最优化的作用是抗原依赖性的，对于设计用于在这种疟疾模型中诱导T细胞依赖性保护性免疫的疫苗可能不是有益的。

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《Experimental parasitology》 |2009年第2期|共12页
作者
Dobano C; Sedegah M; Rogers WO; Kumar S; Zheng H; Hoffman SL; Doolan DL;
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正文语种 eng
中图分类寄生动物、寄生虫学;
关键词
Animals; Anopheles; Antibodies; Protozoan biosynthesis; Antigens; Protozoan genetics immunology; Codon physiology; Disease Models; Animal; Female; Immunity; Cellular; Interferon-gamma biosynthesis; Liver parasitology; Lymphocyte Activation; Malaria immunology prevention amp; control; Malaria Vaccines immunology standards; Mice; Mice; Inbred BALB C; Plasmids; Plasmodium falciparum immunology; Plasmodium yoelii immunology; T-Lymphocytes immunology; Transfection; Vaccines; DNA immunology standards;

机译：动物;按蚊;抗体;原生动物的生物合成;抗原;原生动物的遗传学免疫;密码子生理;疾病模型;动物;女性;免疫力;细胞;干扰素-γ生物合成;肝寄生虫学;淋巴细胞活化;疟疾免疫学预防和控制;小鼠;小鼠;自交BALB C;质粒;恶性疟原虫免疫;约氏疟原虫免疫;T淋巴细胞免疫;转染;疫苗;DNA免疫标准;

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专利

1. Plasmodium: mammalian codon optimization of malaria plasmid DNA vaccines enhances antibody responses but not T cell responses nor protective immunity [J] . Dobano C, Sedegah M, Rogers WO, Experimental parasitology . 2009,第2期

机译：疟原虫：疟疾质粒DNA疫苗的哺乳动物密码子优化可增强抗体反应，但不能增强T细胞反应或保护性免疫
2. Enhancement of antibody and cellular immune responses to malaria DNA vaccines by in vivo electroporation [J] . Dobano C, Widera G, Rabussay D, Vaccine . 2007,第36期

机译：通过体内电穿孔增强对疟疾DNA疫苗的抗体和细胞免疫反应
3. Optimization of codon usage of plasmid DNA vaccine is required for the effective MHC class I-restricted T cell responses against an intracellular bacterium. [J] . Uchijima M, Yoshida A, Nagata T, The Journal of Immunology: Official Journal of the American Association of Immunologists . 1998,第10期

机译：对于有效的MHC I类限制的针对细胞内细菌的T细胞反应，需要优化质粒DNA疫苗的密码子使用方式。
4. Immunization of DNA vaccine encoding C3d-VP1 fusion enhanced protective immune response against foot-and-mouth disease virus [C] . Huiying FAN, Tiezhu TONG, Huanchun CHEN, Proceedings of the 3rd Congress of the Asian Pig Veterinary Society . 2007

机译：编码C3d-VP1融合蛋白的DNA疫苗的免疫增强了针对口蹄疫病毒的保护性免疫应答
5. Enhancement of bovine CD4(+) T cell-dependent immune responses induced by Anaplasma marginale MSP-1a DNA vaccine. [D] . Mwangi, Waithaka. 2002

机译：牛无浆膜MSP-1a DNA疫苗诱导的牛CD4（+）T细胞依赖性免疫应答的增强。
6. Hemagglutinin (HA) Proteins from H1 and H3 Serotypes of Influenza A Viruses Require Different Antigen Designs for the Induction of Optimal Protective Antibody Responses as Studied by Codon-Optimized HA DNA Vaccines [O] . Shixia Wang, Jessica Taaffe, Christopher Parker, 2006

机译：甲型流感病毒H1和H3血清型的血凝素（HA）蛋白需要不同的抗原设计才能诱导最佳保护性抗体反应如密码子优化的HA DNA疫苗研究
7. Hemagglutinin (HA) Proteins from H1 and H3 Serotypes of Influenza A Viruses Require Different Antigen Designs for the Induction of Optimal Protective Antibody Responses as Studied by Codon-Optimized HA DNA Vaccines▿ [O] . Wang, Shixia, Taaffe, Jessica, Parker, Christopher, 2006

机译：甲型流感病毒H1和H3血清型的血凝素（HA）蛋白需要不同的抗原设计才能诱导最佳保护性抗体反应，如密码子优化的HA DNA疫苗研究▿
8. Vaxfectin (registered trademark) Enhances Both Antibody and In Vitro T Cell Responses to Each Component of a 5-gene Plasmodium falciparum Plasmid DNA Vaccine Mixture Administered at Low Doses [R] . Sedegah, M., Rogers, W. O., Belmonte, M., 2010

机译：Vaxfectin（注册商标）增强抗体和体外T细胞对5基因恶性疟原虫质粒DNa疫苗混合物各组分的低剂量反应

Plasmodium: mammalian codon optimization of malaria plasmid DNA vaccines enhances antibody responses but not T cell responses nor protective immunity

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