| Literature DB >> 29927574 |
Kun Wang1,2, Shuman Wen1,2, Lianghua He1, Ang Li3, Yan Li1, Haiqing Dong1, Wei Li4, Tianbin Ren2, Donglu Shi5, Yongyong Li1.
Abstract
One of the major challenges in vaccine design has been the over dependence on incorporation of abundant adjuvants, which in fact is in violation of the "minimalist" principle. In the present study, a compact nanovaccine derived from a near whole antigen (up to 97 wt %) was developed. The nanovaccine structure was stabilized by free cysteines within each antigen (ovalbumin, OVA), which were tempospatially exposed and heat-driven to form an extensive intermolecular disulfide network. This process enables the engineering of a nanovaccine upon integration of the danger signal (CpG-SH) into the network during the synthetic process. The 50 nm-sized nanovaccine was developed comprising approximately 500 antigen molecules per nanoparticle. The nanovaccine prophylactically protected 70% of mice from tumorigenesis (0% for the control group) in murine B16-OVA melanoma. Significant tumor inhibition was achieved by strongly nanovaccine-induced cytotoxic T lymphocytes. This strategy can be adapted for the future design of vaccine for a minimalist composition in clinical settings.Entities:
Keywords: cancer immunoprotection; disulfide network; minimalist nanovaccine; nanoassembly; ovalbumin
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Year: 2018 PMID: 29927574 DOI: 10.1021/acsnano.8b00558
Source DB: PubMed Journal: ACS Nano ISSN: 1936-0851 Impact factor: 15.881