TY - JOUR
T1 - Integration of novel materials and advanced genomic technologies into new vaccine design
AU - Liao, Wenzhen
AU - Zhang, Tian Tian
AU - Gao, Liqian
AU - Lee, Su Seong
AU - Xu, Jie
AU - Zhang, Han
AU - Yang, Zhaogang
AU - Liu, Zhaoyu
AU - Li, Wen
N1 - Publisher Copyright:
© 2017 Bentham Science Publishers.
PY - 2017/8/1
Y1 - 2017/8/1
N2 - Designing new vaccines is one of the most challenging tasks for public health to prevent both infectious and chronic diseases. Even though many research scientists have spent great efforts in improving the specificity, sensitivity and safety of current available vaccines, there are still much space on how to effectively combine different biomaterials and technologies to design universal or personalized vaccines. Traditionally, vaccines were made based on empirical approaches designed to mimic immunity induced by natural infection. Either live attenuated or killed whole microorganisms were used as vaccines. With the development of biomaterial science, DNA/RNA, recombinant vector, adjuvant and nanoparticles greatly expand the category of vaccines. More importantly, with the tremendous advances of new technologies including genomics, proteomics and immunomics, the paradigm of vaccine design has shifted from microbiological to sequence-based approaches. This ever-growing large amount of genomic data and new genomic approaches such as comparative genomics, reverse vaccinology and pan-genomics, will play critical roles in novel vaccine design and enable development of more effective vaccines to cure and control both chronic and infectious diseases. In this review, we summarize current various vaccine materials, advanced technologies and combinational strategies to integrate biomaterials and advanced technologies for vaccine design, which we hope will provide some very useful guidelines and perspectives for the vaccine design.
AB - Designing new vaccines is one of the most challenging tasks for public health to prevent both infectious and chronic diseases. Even though many research scientists have spent great efforts in improving the specificity, sensitivity and safety of current available vaccines, there are still much space on how to effectively combine different biomaterials and technologies to design universal or personalized vaccines. Traditionally, vaccines were made based on empirical approaches designed to mimic immunity induced by natural infection. Either live attenuated or killed whole microorganisms were used as vaccines. With the development of biomaterial science, DNA/RNA, recombinant vector, adjuvant and nanoparticles greatly expand the category of vaccines. More importantly, with the tremendous advances of new technologies including genomics, proteomics and immunomics, the paradigm of vaccine design has shifted from microbiological to sequence-based approaches. This ever-growing large amount of genomic data and new genomic approaches such as comparative genomics, reverse vaccinology and pan-genomics, will play critical roles in novel vaccine design and enable development of more effective vaccines to cure and control both chronic and infectious diseases. In this review, we summarize current various vaccine materials, advanced technologies and combinational strategies to integrate biomaterials and advanced technologies for vaccine design, which we hope will provide some very useful guidelines and perspectives for the vaccine design.
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U2 - 10.2174/1568026617666170224122117
DO - 10.2174/1568026617666170224122117
M3 - Review article
C2 - 28240182
AN - SCOPUS:85027325680
SN - 1568-0266
VL - 17
SP - 2286
EP - 2301
JO - Current Topics in Medicinal Chemistry
JF - Current Topics in Medicinal Chemistry
IS - 20
ER -