用于开发DNA血液期疟疾疫苗的磁性纳米载体

Magnetic Nanovectors for the Development of DNA Blood-Stage Malaria Vaccines.

作者信息

Al-Deen Fatin M Nawwab, Xiang Sue D, Ma Charles, Wilson Kirsty, Coppel Ross L, Selomulya Cordelia, Plebanski Magdalena

机构信息

Department of Chemical Engineering, Monash University, 18 Alliance Lane, Clayton, VIC 3800, Australia.

Department of Immunology and Pathology, Central Clinical School, Faculty of Medicine, Nursing and Health Sciences, Monash University, 89 Commercial Road, Melbourne, VIC 3004, Australia.

出版信息

Nanomaterials (Basel). 2017 Feb 10;7(2):30. doi: 10.3390/nano7020030.

DOI:10.3390/nano7020030

PMID:28336871

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5333015/

Abstract

DNA vaccines offer cost, flexibility, and stability advantages, but administered alone have limited immunogenicity. Previously, we identified optimal configurations of magnetic vectors comprising superparamagnetic iron oxide nanoparticles (SPIONs), polyethylenimine (PEI), and hyaluronic acid (HA) to deliver malaria DNA encoding (Py) merozoite surface protein MSP1 (SPIONs/PEI/DNA + HA gene complex) to dendritic cells and transfect them with high efficiency in vitro. Herein, we evaluate their immunogenicity in vivo by administering these potential vaccine complexes into BALB/c mice. The complexes induced antibodies against PyMSP1, with higher responses induced intraperitoneally than intramuscularly, and antibody levels further enhanced by applying an external magnetic field. The predominant IgG subclasses induced were IgG2a followed by IgG1 and IgG2b. The complexes further elicited high levels of interferon gamma (IFN-γ), and moderate levels of interleukin (IL)-4 and IL-17 antigen-specific splenocytes, indicating induction of T helper 1 (Th1), Th2, and Th17 cell mediated immunity. The ability of such DNA/nanoparticle complexes to induce cytophilic antibodies together with broad spectrum cellular immunity may benefit malaria vaccines.

摘要

DNA疫苗具有成本低、灵活性高和稳定性好等优势，但单独使用时免疫原性有限。此前，我们确定了由超顺磁性氧化铁纳米颗粒（SPIONs）、聚乙烯亚胺（PEI）和透明质酸（HA）组成的磁性载体的最佳配置，以便将编码疟原虫（Py）裂殖子表面蛋白MSP1的疟疾DNA（SPIONs/PEI/DNA + HA基因复合物）递送至树突状细胞，并在体外高效转染它们。在此，我们通过将这些潜在的疫苗复合物施用于BALB/c小鼠来评估其在体内的免疫原性。这些复合物诱导产生了针对PyMSP1的抗体，腹腔注射诱导的反应高于肌肉注射，并且通过施加外部磁场进一步提高了抗体水平。诱导产生的主要IgG亚类是IgG2a，其次是IgG1和IgG2b。这些复合物还引发了高水平的干扰素γ（IFN-γ），以及中等水平的白细胞介素（IL）-4和IL-17抗原特异性脾细胞，表明诱导了辅助性T细胞1（Th1）、Th2和Th17细胞介导的免疫。这种DNA/纳米颗粒复合物诱导亲细胞抗体以及广谱细胞免疫的能力可能对疟疾疫苗有益。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5a3/5333015/68d8b32d4077/nanomaterials-07-00030-g001.jpg

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用于开发DNA血液期疟疾疫苗的磁性纳米载体

Magnetic Nanovectors for the Development of DNA Blood-Stage Malaria Vaccines.

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