以脂质体为基础的脂肽钩虫疫苗鼻内递送降低了其保护小鼠免受钩虫攻击的能力

Stacey Bartlett, R. Eichenberger, Ahmed O Shalash, A. Loukas, M. Skwarczynski, I. Toth, W. M. Hussein
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摘要

钩虫感染在中低收入国家尤其成问题。虽然目前有治疗方法,但疫苗接种可能是理想的干预措施,因为它可以提供具有成本效益的长期保护,防止感染和再感染。方法先前建立的以脂肽为基础的疫苗制剂,经证明口服有效,适用于鼻内给药,使用来自钩虫美洲Necator aspartic蛋白酶-1 (Na-APR-1)蛋白的预测b细胞肽表位和附着于两个脂质片段Pam2Cys或脂质核心肽(LCP)的通用t辅助表位。脂肽被包被脂质体或自组装成纳米颗粒。在啮齿动物钩虫攻毒模型中对鼻内候选疫苗进行了评估。结果制备出适合免疫细胞吸收的候选疫苗。然而,没有引起明显的血清抗体反应,也没有显示出钩虫攻击后的保护作用。结论与先前报道的有效口服免疫相比,鼻内注射基于脂肽的疫苗未能在小鼠体内引发针对钩虫的显著抗体反应,并且对攻毒感染后的寄生虫数量没有影响。
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Intranasal Delivery of Liposomes-Based Lipopeptide Hookworm Vaccine Diminished its Ability to Protect Mice Against Hookworm Challenge
Background Hookworm infection is particularly problematic for middle- to low-income countries. While treatment methods are currently available, vaccination may be the ideal intervention, as it could offer cost-effective long-term protection against infection and reinfection. Methods Previously established lipopeptide-based vaccine formulations, proven to be effective in an oral application, were adapted for an intranasal administration using a predicted B-cell peptide epitope derived from the hookworm Necator americanus aspartic protease-1 (Na-APR-1) protein and a universal T-helper epitope attached to two lipid moieties, Pam2Cys or lipid core peptide (LCP). The lipopeptides were encapsulated into liposomes or self-assembled into nanoparticles. The intranasal vaccine candidates were evaluated in a rodent hookworm challenge model. Results The vaccine candidates were formulated to optimal sizes and charges for uptake by immune cells. However, no significant serum antibody response was elicited, and no protection was demonstrated following hookworm challenge. Conclusion In contrast to the previously reported effective oral immunization, intranasal delivery of lipopeptide-based vaccine failed to trigger significant antibody responses in mice against hookworm and had no effect on parasite numbers following challenge infection.
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