Dähnert Lisa, Aliabadi Elmira, Fast Christine, Hrabal Isabella, Schröder Charlotte, Behrendt Patrick, Protzer Ulrike, Groschup Martin H, Eiden Martin
Institute of Novel and Emerging Infectious Diseases, Friedrich-Loeffler-Institut, Greifswald - Isle of Riems, Germany.
TWINCORE, Centre for Experimental and Clinical Infection Research GmbH, Hannover, Germany.
One Health. 2024 Jan 6;18:100674. doi: 10.1016/j.onehlt.2023.100674. eCollection 2024 Jun.
Hepatitis E virus (HEV) is a major cause of acute viral hepatitis worldwide. Up to now, no approved treatment nor a globally licensed vaccine is available. Several recombinant HEV vaccines have been developed to protect against HEV infection in humans, including the commercially available Hecolin vaccine, which are mainly based on HEV genotype 1. However, the efficacy of these vaccines against other HEV genotypes, especially genotype 3 is unknown. In this study, we evaluated the protective efficacy of Hecolin® and a novel genotype 3-based vaccine p239(gt3) against HEV-3 in a pig infection model. Pigs were divided into three groups: one group was vaccinated with Hecolin®, the second group was vaccinated with p239(gt3), and the control group received no vaccine. All pigs were subsequently challenged with HEV genotype 3 to assess the effectiveness of the vaccines. Although all immunised animals developed a high titer of neutralizing antibodies, the results showed that both vaccine applications could not provide complete protection against HEV (gt3) infection: Two out of four animals of the Hecolin® group displayed even virus shedding, and viral RNA could be detected in bile and/or liver of three out of four animals in both vaccination groups. Only one out of four animals in each group was fully protected. Neither Hecolin® nor the novel p239(gt3) vaccine provided sufficient protection against genotype 3 infection. While Hecolin® only partial protected pigs from HEV shedding, the novel p239(gt3) vaccine was at least able to prevent infected pigs from virus shedding. The results highlight the need for further development of HEV vaccines that exhibit broad protection against multiple HEV genotypes and the use of appropriate animal infection models.
戊型肝炎病毒(HEV)是全球急性病毒性肝炎的主要病因。截至目前,尚无获批的治疗方法,也没有全球通用的疫苗。已经研发出几种重组戊型肝炎疫苗来预防人类感染戊型肝炎病毒,包括市售的“益可宁”疫苗,这些疫苗主要基于戊型肝炎病毒1型。然而,这些疫苗对其他戊型肝炎病毒基因型,尤其是3型的疗效尚不清楚。在本研究中,我们在猪感染模型中评估了“益可宁”和一种新型的基于3型基因型的疫苗p239(gt3)对戊型肝炎病毒3型的保护效果。猪被分为三组:一组接种“益可宁”,第二组接种p239(gt3),对照组不接种疫苗。随后所有猪都用戊型肝炎病毒3型进行攻毒,以评估疫苗的有效性。尽管所有免疫动物都产生了高滴度的中和抗体,但结果表明,两种疫苗接种都不能提供完全保护以抵抗戊型肝炎病毒(gt3)感染:“益可宁”组的四只动物中有两只出现了病毒脱落,两个接种组的四只动物中有三只在胆汁和/或肝脏中检测到病毒RNA。每组只有四只动物中的一只得到了完全保护。“益可宁”和新型p239(gt3)疫苗都没有提供足够的保护以抵抗3型基因型感染。“益可宁”只能部分保护猪不出现戊型肝炎病毒脱落,而新型p239(gt3)疫苗至少能够防止感染猪出现病毒脱落。这些结果凸显了进一步研发对多种戊型肝炎病毒基因型具有广泛保护作用的戊型肝炎疫苗以及使用合适的动物感染模型的必要性。
