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使用三聚体卷曲螺旋半抗原载体的新型抗尼古丁疫苗。

Novel Anti-Nicotine Vaccine Using a Trimeric Coiled-Coil Hapten Carrier.

作者信息

Miller Keith D, Roque Richard, Clegg Christopher H

机构信息

TRIA Bioscience Corp, Seattle, Washington, United States of America.

出版信息

PLoS One. 2014 Dec 10;9(12):e114366. doi: 10.1371/journal.pone.0114366. eCollection 2014.

DOI:10.1371/journal.pone.0114366
PMID:25494044
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4262398/
Abstract

Tobacco addiction represents one of the largest public health problems in the world and is the leading cause of cancer and heart disease, resulting in millions of deaths a year. Vaccines for smoking cessation have shown considerable promise in preclinical models, although functional antibody responses induced in humans are only modestly effective in preventing nicotine entry into the brain. The challenge in generating serum antibodies with a large nicotine binding capacity is made difficult by the fact that this drug is non-immunogenic and must be conjugated as a hapten to a protein carrier. To circumvent the limitations of traditional carriers like keyhole limpet hemocyanin (KLH), we have synthesized a short trimeric coiled-coil peptide (TCC) that creates a series of B and T cell epitopes with uniform stoichiometry and high density. Here we compared the relative activities of a TCC-nic vaccine and two control KLH-nic vaccines using Alum as an adjuvant or GLA-SE, which contains a synthetic TLR4 agonist formulated in a stable oil-in-water emulsion. The results showed that the TCC's high hapten density correlated with a better immune response in mice as measured by anti-nicotine Ab titer, affinity, and specificity, and was responsible for a reduction in anti-carrier immunogenicity. The Ab responses achieved with this synthetic vaccine resulted in a nicotine binding capacity in serum that could prevent >90% of a nicotine dose equivalent to three smoked cigarettes (0.05 mg/kg) from reaching the brain.

摘要

烟草成瘾是世界上最大的公共卫生问题之一,也是癌症和心脏病的主要原因,每年导致数百万人死亡。戒烟疫苗在临床前模型中已显示出相当大的前景,尽管在人类中诱导产生的功能性抗体反应在预防尼古丁进入大脑方面仅具有适度的效果。由于这种药物无免疫原性,必须作为半抗原与蛋白质载体偶联,因此产生具有大尼古丁结合能力的血清抗体面临挑战。为了规避传统载体(如钥孔血蓝蛋白(KLH))的局限性,我们合成了一种短三聚体卷曲螺旋肽(TCC),它能以均匀的化学计量比和高密度产生一系列B细胞和T细胞表位。在这里,我们比较了使用明矾作为佐剂或GLA-SE(一种含有在稳定水包油乳液中配制的合成TLR4激动剂)的TCC-尼古丁疫苗和两种对照KLH-尼古丁疫苗的相对活性。结果表明,通过抗尼古丁抗体滴度、亲和力和特异性测量,TCC的高半抗原密度与小鼠更好的免疫反应相关,并导致抗载体免疫原性降低。这种合成疫苗产生的抗体反应导致血清中的尼古丁结合能力能够阻止相当于三支香烟(0.05毫克/千克)的尼古丁剂量的90%以上进入大脑。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c92c/4262398/dcb16d29ede8/pone.0114366.g010.jpg
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