Vaccines Division, Center for Genetic Engineering and Biotechnology (CIGB), Avenue 31, PO Box 6162, Playa, Havana 10 600, Cuba.
Virology Department, Tropical Medicine Institute 'Pedro Kourí', PAHO/WHO Collaborating Center for the Study of Dengue and its Vector, Autopista Novia del Mediodía, km 6� PO Box Marianao 13, Havana 11 600, Cuba.
J Gen Virol. 2012 Jun;93(Pt 6):1204-1214. doi: 10.1099/vir.0.037721-0. Epub 2012 Mar 7.
The interplay of different inflammatory cytokines induced during dengue virus infection plays a role in either protection or increased disease severity. In this sense, vaccine strategies incorporating whole virus are able to elicit both functional and pathological responses. Therefore, an ideal tetravalent vaccine candidate against dengue should be focused on serotype-specific sequences. In the present work, a new formulation of nucleocapsid-like particles (NLPs) obtained from the recombinant dengue-2 capsid protein was evaluated in mice to determine the level of protection against homologous and heterologous viral challenge and to measure the cytotoxicity and cytokine-secretion profiles induced upon heterologous viral stimulation. As a result, a significant protection rate was achieved after challenge with lethal dengue-2 virus, which was dependent on CD4(+) and CD8(+) cells. In turn, no protection was observed after heterologous challenge. In accordance, in vitro-stimulated spleen cells from mice immunized with NLPs from the four dengue serotypes showed a serotype-specific response of gamma interferon- and tumour necrosis factor alpha-secreting cells. A similar pattern was detected when spleen cells from dengue-immunized animals were stimulated with the capsid protein. Taking these data together, we can assert that NLPs constitute an attractive vaccine candidate against dengue. They induce a functional immune response mediated by CD4(+) and CD8(+) cells in mice, which is protective against viral challenge. In turn, they are potentially safe due to two important facts: induction of serotype specific cell-mediated immunity and lack of induction of antiviral antibodies. Further studies in non-human primates or humanized mice should be carried out to elucidate the usefulness of the NLPs as a potential vaccine candidate against dengue disease.
登革病毒感染过程中不同炎症细胞因子的相互作用在保护或增加疾病严重程度方面发挥作用。从这个意义上说,包含全病毒的疫苗策略能够引发功能性和病理性反应。因此,针对登革热的理想四价疫苗候选物应专注于血清型特异性序列。在本工作中,评估了来自重组登革热 2 型衣壳蛋白的核衣壳样颗粒(NLPs)的新配方在小鼠中的保护水平,以确定针对同源和异源病毒攻击的保护率,并测量异源病毒刺激诱导的细胞毒性和细胞因子分泌谱。结果,在用致死性登革热 2 型病毒进行攻击后,实现了显著的保护率,这依赖于 CD4(+)和 CD8(+)细胞。相反,在异源攻击后没有观察到保护。相应地,用来自四种登革热血清型的 NLPs 免疫的小鼠的脾脏细胞在体外刺激后显示出γ干扰素和肿瘤坏死因子α分泌细胞的血清型特异性反应。当用衣壳蛋白刺激来自登革热免疫动物的脾细胞时,检测到了类似的模式。综合这些数据,我们可以断言 NLPs 是一种有吸引力的登革热疫苗候选物。它们在小鼠中诱导由 CD4(+)和 CD8(+)细胞介导的功能性免疫应答,对病毒攻击具有保护作用。反过来,由于两个重要事实,它们具有潜在的安全性:诱导血清型特异性细胞介导的免疫和缺乏诱导抗病毒抗体。应在非人类灵长类动物或人源化小鼠中进行进一步研究,以阐明 NLPs 作为登革热潜在疫苗候选物的有用性。
