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Non-Viral Delivery of DNA Vaccines to the Buccal Mucosa

DNA 疫苗非病毒递送至颊粘膜

基本信息

批准号：
6594824
负责人：
Maria S. Salvato
金额：
$ 22.28万
依托单位：
UNIVERSITY OF MD BIOTECHNOLOGY INSTITUTE
依托单位国家：
美国
项目类别：
财政年份：
2002
资助国家：
美国
起止时间：
2002-09-01 至 2004-08-31
项目状态：
已结题

项目摘要

DESCRIPTION (provided by applicant): Our goal is to enhance the efficacy of DNA vaccines using new bio-organic compounds to mediate oral deliver. Oral vaccination primarily protects an individual from oral pathogens, which include the AIDS retroviruses and opportunistic agents that accompany AIDS. Oral vaccination also confers some protection against pathogens that infect via other routes. Live oral vaccines have always been more effective than DNA vaccines in clinical trials, but recent technology allowing DNA delivery to specific cells provides new possibilities for DNA vaccines. Here we propose to test oral DNA vaccines for targeted delivery to dendritic cells (DC). using novel glyco-polyamines as the delivery vehicle. DC are the primary antigen-presenting cells and they express abundant cell surface carbohydrate receptors, such as mannose receptor and DC-SIGN. The cyclodextrin-based glyco-polyamines used in our studies consist of two functional domains: the multiple amino groups that bind and form complexes with DNA, and the sugar ligands that bind cell surface lectins and target the DNA complexes to DC. Enhancing the uptake of DNA by DC will enhance the immunogenicity of DNA vaccines. Cell culture studies have already demonstrated that mannosylated polyamines significantly enhance the uptake of plasmid DNA into DC. Here we propose to test the efficacy of targeted delivery in vivo. We hypothesize that DNA vaccines targeted to the cell surface carbohydrate receptors of dendritic cells will elicit enhanced cell-mediated responses. To test this hypothesis, we will employ the LCMV-infected murine model system that is known to elicit strong cell-mediated immune responses. We will have two specific aims. In aim 1, we will synthesize novel glycosylated cyclodextrinbased polyamines (CDPA) and test the uptake and expression of reporter genes in dendritic cell culture. Mannose and oligomannose ligands will be introduced into CDPA for targeting to mannose receptors and DC-SIGN on dendritic cells, respectively. In aim 2, we will test the magnitude of cell mediated immunity after oral inoculation with DNA vaccines in various formulations. Plasmid DNA encoding the LCMV NP gene will be orally delivered to mice as naked DNA or as DNA complexed with CDPA or glycosylated CDPA. Once we find a formulation that is optimum for eliciting cell-mediated immunity, we will replace the NP gene with DNA encoding an antigen associated with protective immunity in AIDS (p27 gag). We will determine, in the murine system, whether p27 DNA complexed with our compound can still elicit high cell-mediated immunity. These studies will lead to improved oral vaccines against AIDS and its attendant opportunistic infections. Once we have optimized the vaccine formulation in the murine model system, we will apply the targeted delivery system to monkey models and human clinic trials.

描述（由申请人提供）：我们的目标是使用新的生物有机化合物介导口服递送来增强DNA疫苗的功效。口服疫苗主要保护个体免受口腔病原体的侵害，这些病原体包括艾滋病逆转录病毒和伴随艾滋病的机会因子。口服疫苗接种也能对通过其他途径感染的病原体提供一定的保护。在临床试验中，活的口服疫苗一直比DNA疫苗更有效，但最近的技术允许将DNA递送到特定细胞，为DNA疫苗提供了新的可能性。在这里，我们建议测试口服DNA疫苗靶向递送到树突状细胞（DC）。使用新的糖多胺作为递送载体。DC是主要的抗原提呈细胞，表达丰富的细胞表面糖受体，如甘露糖受体和DC-SIGN。在我们的研究中使用的基于环糊精的糖多胺由两个功能域组成：与DNA结合并形成复合物的多个氨基，以及结合细胞表面凝集素并将DNA复合物靶向DC的糖配体。增强DC对DNA的摄取将增强DNA疫苗的免疫原性。细胞培养研究已经证明甘露糖基化多胺显著增强质粒DNA进入DC的摄取。在这里，我们建议测试体内靶向递送的功效。我们假设靶向树突状细胞的细胞表面碳水化合物受体的DNA疫苗将引起增强的细胞介导的反应。为了验证这一假设，我们将采用LCMV感染的小鼠模型系统，该系统已知可引发强烈的细胞介导的免疫应答。我们将有两个具体目标。在目标1中，我们将合成新型的基于糖基化环糊精的多胺（CDPA），并测试报告基因在树突状细胞培养中的摄取和表达。将甘露糖和寡甘露糖配体引入CDPA中，分别靶向树突细胞上的甘露糖受体和DC-SIGN。在目标2中，我们将测试口服接种各种制剂的DNA疫苗后细胞介导的免疫力的大小。编码LCMV NP基因的质粒DNA将作为裸DNA或作为与CDPA或糖基化CDPA复合的DNA经口递送至小鼠。一旦我们找到一种最适合引发细胞介导免疫的制剂，我们将用编码与艾滋病保护性免疫相关的抗原（p27 gag）的DNA取代NP基因。我们将确定，在小鼠系统中，是否p27 DNA与我们的化合物复合仍然可以引起高细胞介导的免疫。这些研究将改进预防艾滋病及其伴随的机会性感染的口服疫苗。一旦我们在小鼠模型系统中优化了疫苗制剂，我们将把靶向递送系统应用于猴模型和人体临床试验。

项目成果

期刊论文数量（0）

专著数量（0）

科研奖励数量（0）

会议论文数量（0）

专利数量（0）

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Maria S. Salvato其他文献

Taxonomy of the order Bunyavirales: second update 2018

DOI：
10.1007/s00705-018-04127-3
发表时间：
2019-01-20
期刊：
ARCHIVES OF VIROLOGY
影响因子：
2.500
作者：
Piet Maes;Scott Adkins;Sergey V. Alkhovsky;Tatjana Avšič-Županc;Matthew J. Ballinger;Dennis A. Bente;Martin Beer;Éric Bergeron;Carol D. Blair;Thomas Briese;Michael J. Buchmeier;Felicity J. Burt;Charles H. Calisher;Rémi N. Charrel;Il Ryong Choi;J. Christopher S. Clegg;Juan Carlos de la Torre;Xavier de Lamballerie;Joseph L. DeRisi;Michele Digiaro;Mike Drebot;Hideki Ebihara;Toufic Elbeaino;Koray Ergünay;Charles F. Fulhorst;Aura R. Garrison;George Fú Gāo;Jean-Paul J. Gonzalez;Martin H. Groschup;Stephan Günther;Anne-Lise Haenni;Roy A. Hall;Roger Hewson;Holly R. Hughes;Rakesh K. Jain;Miranda Gilda Jonson;Sandra Junglen;Boris Klempa;Jonas Klingström;Richard Kormelink;Amy J. Lambert;Stanley A. Langevin;Igor S. Lukashevich;Marco Marklewitz;Giovanni P. Martelli;Nicole Mielke-Ehret;Ali Mirazimi;Hans-Peter Mühlbach;Rayapati Naidu;Márcio Roberto Teixeira Nunes;Gustavo Palacios;Anna Papa;Janusz T. Pawęska;Clarence J. Peters;Alexander Plyusnin;Sheli R. Radoshitzky;Renato O. Resende;Víctor Romanowski;Amadou Alpha Sall;Maria S. Salvato;Takahide Sasaya;Connie Schmaljohn;Xiǎohóng Shí;Yukio Shirako;Peter Simmonds;Manuela Sironi;Jin-Won Song;Jessica R. Spengler;Mark D. Stenglein;Robert B. Tesh;Massimo Turina;Tàiyún Wèi;Anna E. Whitfield;Shyi-Dong Yeh;F. Murilo Zerbini;Yong-Zhen Zhang;Xueping Zhou;Jens H. Kuhn
通讯作者：
Jens H. Kuhn

2020 taxonomic update for phylum Negarnaviricota (Riboviria: Orthornavirae), including the large orders Bunyavirales and Mononegavirales

DOI：
10.1007/s00705-020-04731-2
发表时间：
2020-09-04
期刊：
ARCHIVES OF VIROLOGY
影响因子：
2.500
作者：
Jens H. Kuhn;Scott Adkins;Daniela Alioto;Sergey V. Alkhovsky;Gaya K. Amarasinghe;Simon J. Anthony;Tatjana Avšič-Županc;María A. Ayllón;Justin Bahl;Anne Balkema-Buschmann;Matthew J. Ballinger;Tomáš Bartonička;Christopher Basler;Sina Bavari;Martin Beer;Dennis A. Bente;Éric Bergeron;Brian H. Bird;Carol Blair;Kim R. Blasdell;Steven B. Bradfute;Rachel Breyta;Thomas Briese;Paul A. Brown;Ursula J. Buchholz;Michael J. Buchmeier;Alexander Bukreyev;Felicity Burt;Nihal Buzkan;Charles H. Calisher;Mengji Cao;Inmaculada Casas;John Chamberlain;Kartik Chandran;Rémi N. Charrel;Biao Chen;Michela Chiumenti;Il-Ryong Choi;J. Christopher S. Clegg;Ian Crozier;John V. da Graça;Elena Dal Bó;Alberto M. R. Dávila;Juan Carlos de la Torre;Xavier de Lamballerie;Rik L. de Swart;Patrick L. Di Bello;Nicholas Di Paola;Francesco Di Serio;Ralf G. Dietzgen;Michele Digiaro;Valerian V. Dolja;Olga Dolnik;Michael A. Drebot;Jan Felix Drexler;Ralf Dürrwald;Lucie Dufkova;William G. Dundon;W. Paul Duprex;John M. Dye;Andrew J. Easton;Hideki Ebihara;Toufic Elbeaino;Koray Ergünay;Jorlan Fernandes;Anthony R. Fooks;Pierre B. H. Formenty;Leonie F. Forth;Ron A. M. Fouchier;Juliana Freitas-Astúa;Selma Gago-Zachert;George Fú Gāo;María Laura García;Adolfo García-Sastre;Aura R. Garrison;Aiah Gbakima;Tracey Goldstein;Jean-Paul J. Gonzalez;Anthony Griffiths;Martin H. Groschup;Stephan Günther;Alexandro Guterres;Roy A. Hall;John Hammond;Mohamed Hassan;Jussi Hepojoki;Satu Hepojoki;Udo Hetzel;Roger Hewson;Bernd Hoffmann;Seiji Hongo;Dirk Höper;Masayuki Horie;Holly R. Hughes;Timothy H. Hyndman;Amara Jambai;Rodrigo Jardim;Dàohóng Jiāng;Qi Jin;Gilda B. Jonson;Sandra Junglen;Serpil Karadağ;Karen E. Keller;Boris Klempa;Jonas Klingström;Gary Kobinger;Hideki Kondō;Eugene V. Koonin;Mart Krupovic;Gael Kurath;Ivan V. Kuzmin;Lies Laenen;Robert A. Lamb;Amy J. Lambert;Stanley L. Langevin;Benhur Lee;Elba R. S. Lemos;Eric M. Leroy;Dexin Li;Jiànróng Lǐ;Mifang Liang;Wénwén Liú;Yàn Liú;Igor S. Lukashevich;Piet Maes;William Marciel de Souza;Marco Marklewitz;Sergio H. Marshall;Giovanni P. Martelli;Robert R. Martin;Shin-Yi L. Marzano;Sébastien Massart;John W. McCauley;Nicole Mielke-Ehret;Angelantonio Minafra;Maria Minutolo;Ali Mirazimi;Hans-Peter Mühlbach;Elke Mühlberger;Rayapati Naidu;Tomohide Natsuaki;Beatriz Navarro;José A. Navarro;Sergey V. Netesov;Gabriele Neumann;Norbert Nowotny;Márcio R. T. Nunes;Are Nylund;Arnfinn L. Økland;Renata C. Oliveira;Gustavo Palacios;Vicente Pallas;Bernadett Pályi;Anna Papa;Colin R. Parrish;Alex Pauvolid-Corrêa;Janusz T. Pawęska;Susan Payne;Daniel R. Pérez;Florian Pfaff;Sheli R. Radoshitzky;Aziz-ul Rahman;Pedro L. Ramos-González;Renato O. Resende;Carina A. Reyes;Bertus K. Rima;Víctor Romanowski;Gabriel Robles Luna;Paul Rota;Dennis Rubbenstroth;Jonathan A. Runstadler;Daniel Ruzek;Sead Sabanadzovic;Jiří Salát;Amadou Alpha Sall;Maria S. Salvato;Kamil Sarpkaya;Takahide Sasaya;Martin Schwemmle;Muhammad Z. Shabbir;Xiǎohóng Shí;Zhènglì Shí;Yukio Shirako;Peter Simmonds;Jana Širmarová;Manuela Sironi;Sophie Smither;Teemu Smura;Jin-Won Song;Kirsten M. Spann;Jessica R. Spengler;Mark D. Stenglein;David M. Stone;Petra Straková;Ayato Takada;Robert B. Tesh;Natalie J. Thornburg;Keizō Tomonaga;Noël Tordo;Jonathan S. Towner;Massimo Turina;Ioannis Tzanetakis;Rainer G. Ulrich;Anna Maria Vaira;Bernadette van den Hoogen;Arvind Varsani;Nikos Vasilakis;Martin Verbeek;Victoria Wahl;Peter J. Walker;Hui Wang;Jianwei Wang;Xifeng Wang;Lin-Fa Wang;Tàiyún Wèi;Heather Wells;Anna E. Whitfield;John V. Williams;Yuri I. Wolf;Zhìqiáng Wú;Xin Yang;Xīnglóu Yáng;Xuejie Yu;Natalya Yutin;F. Murilo Zerbini;Tong Zhang;Yong-Zhen Zhang;Guohui Zhou;Xueping Zhou
通讯作者：
Xueping Zhou