Conserved linear B-cell peptides among the influenza A viral neuraminidases enhance the cross-protective potential of inactivated whole-virion influenza vaccine

T. Kotomina, I. Sychev, A. Rak, P. Wong, A. V. Bazhina, I. Isakova-Sivak, L. Rudenko
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Abstract

Introduction. Influenza is a disease caused by a widespread virus with pandemic potential. Frequently, individuals vaccinated against seasonal influenza virus are still susceptible to the disease, indicating the need to improve the immunogenic potential of existing vaccines. To assess the efficacy of influenza virus vaccines, immune response only to a single viral antigen — hemagglutinin molecule, is taken into consideration. However, according to preclinical and clinical studies, neuraminidase (NA) stimulates cross-protective immunity, which is effective against not only homologous but also drifted variants of influenza A virus. Materials and methods. In the present study, we investigated the ability of previously selected conserved linear B-cell NA epitopes (SGYSGK, SWPDGK, EECSCYPK, VELIRGRK) to enhance the immunogenicity of an inactivated whole-virion influenza vaccine based on the model strain PR8 (iPR8). BALB/c mice were injected with iPR8 in combination with one of the peptides intramuscularly three times at two-week intervals. Blood samples were collected 14 days after the last immunization, after which the mice were challenged with heterosubtypic influenza viruses H1N1pdm09 and H3N2. Results. All immunized mice showed induction of H1N1 (PR8)-specific IgG antibodies two weeks after the third immunization. The group of mice immunized with the iPR8 vaccine preparation in combination with VELIRGRK peptide showed the most pronounced induction of IgG antibodies to the H6N1 reassortant strain, the NA of which corresponds to the iPR8 virus, indicating the ability of the NA peptide to stimulate the production of NA-specific antibodies. However, the antibodies produced after immunization were not capable to inhibit the NA enzymatic activity. Despite this, mice immunized with iPR8 in combination with anti-NA peptides showed a higher survival rate after infection with heterologous virulent influenza viruses: A/California/07/09 (H1N1pdm09) and A/Philippines/2/82 (H3N2) compared to the PBS and iPR8 groups. Conclusion. Thus, the study demonstrated the immune-potentiating effect of individual peptides corresponding to conservative linear epitopes of the NA molecule in combination with a standard inactivated influenza vaccine, which made it possible to improve the protective effect of the vaccine against heterosubtypic influenza viruses.
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甲型流感病毒神经氨酸酶中的保守线性B细胞肽增强了全病毒灭活疫苗的交叉保护潜力
导言。流感是一种由广泛传播的病毒引起的疾病,具有大流行的潜力。接种过季节性流感病毒疫苗的人往往仍然容易感染这种疾病,这表明有必要提高现有疫苗的免疫原性。为了评估流感病毒疫苗的功效,只考虑了对单一病毒抗原--血凝素分子的免疫反应。然而,根据临床前和临床研究,神经氨酸酶(NA)可激发交叉保护性免疫,不仅对甲型流感病毒的同源变种有效,而且对漂移变种也有效。材料和方法。在本研究中,我们研究了先前选定的保守线性 B 细胞 NA 表位(SGYSGK、SWPDGK、EECSCYPK、VELIRGRK)增强基于模式毒株 PR8(iPR8)的全病毒灭活疫苗免疫原性的能力。对 BALB/c 小鼠肌肉注射 iPR8 和其中一种肽三次,每次间隔两周。最后一次免疫 14 天后采集血液样本,然后用异种亚型流感病毒 H1N1pdm09 和 H3N2 对小鼠进行挑战。结果所有免疫小鼠在第三次免疫两周后都出现了 H1N1(PR8)特异性 IgG 抗体。使用 iPR8 疫苗制剂与 VELIRGRK 肽联合免疫的小鼠组对 H6N1 重变异株(其 NA 与 iPR8 病毒相对应)的 IgG 抗体诱导效果最明显,这表明 NA 肽能够刺激产生 NA 特异性抗体。然而,免疫后产生的抗体并不能抑制 NA 酶的活性。尽管如此,使用 iPR8 和抗 NA 肽联合免疫的小鼠在感染异源毒性流感病毒后存活率更高:与 PBS 组和 iPR8 组相比,A/California/07/09(H1N1pdm09)和 A/Philippines/2/82(H3N2)组的存活率更高。结论因此,该研究证明了与 NA 分子保守线性表位相对应的单个肽与标准灭活流感疫苗联合使用时的免疫增强效应,这使得提高疫苗对异种亚型流感病毒的保护效果成为可能。
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