Ebola virus (EBOV), the causative pathogen of the deadly Ebola virus disease (EVD), can be transmitted via contact with EVD patients, including sexual contact with EVD survivors. At present, no licensed vaccine or therapeutic is available. In this study, we compared eight anhydride-modified proteins for their entry-inhibitory activity against the pseudovirus (PsV) carrying the envelope glycoprotein (GP) of the EBOV Zaire or Sudan species (Zaire PsV and Sudan PsV, respectively). We found that 3-hydroxyphthalic anhydride-modified human serum albumin (HP-HSA) was the most effective in inhibiting the entry of both Zaire PsV and Sudan PsV, with the 50% effective concentration being at the nanomolar level and with HP-HSA being more potent than EBOV-neutralizing antibody MIL77-2 (4G7, a component antibody of the ZMapp drug cocktail). The combination of HP-HSA and MIL77-2 exhibited a synergistic effect. HP-HSA had no obvious in vitro or in vivo toxicity. The EBOV PsV entry-inhibitory activity of HP-HSA remained intact after storage at 45°C for 8 weeks, suggesting that HP-HSA has the potential for worldwide use, including tropical regions in African countries, as either a therapeutic to treat EBOV infection or a prophylactic microbicide to prevent the sexual transmission of EBOV.

Scientific reports3区 · 综合性期刊

Role of the Ebola membrane in the protection conferred by the three-mAb cocktail MIL77

3区 · 综合性期刊

ArticleOA

作者: Cao, Ping ; Wang, Xinghe ; Bai, Haihong ; Che, Jinjing

Abstract:

MIL77, which has a higher manufacturing capacity than ZMapp, comprises MIL77-1, MIL77-2, and MIL77-3. The mechanisms by which these antibodies inhibit glycoprotein are unclear. Infection by viruses with lipid-bilayer envelopes occurs via the fusion of the viral membrane with the membrane of the target cell. Therefore, the interaction between the antibodies and the EBOV membrane is crucial. We examined the interactions between MIL77 and the viral membrane using SPR. MIL77-1 selectively binds to viral membranes, while MIL77-2 and MIL77-3 do not. MIL77-1’s ability to screen the more rigid domains of the membranes results in a locally increased concentration of the drug at the fusion site. Although MIL77-2 recognizes an epitope of GP, it is not necessary in the MIL77 cocktail. These results highlight the importance of EBOV membrane interactions in improving the efficiency of a neutralizing antibody. Furthermore, the viral membrane may be an important target of antibodies against EBOV.

Scientific reports3区 · 综合性期刊

Treatment with hyperimmune equine immunoglobulin or immunoglobulin fragments completely protects rodents from Ebola virus infection

3区 · 综合性期刊

ArticleOA

作者: Bi, Yuhai ; Yan, Feihu ; Wang, Hualei ; Fan, Quanshui ; Zhao, Yongkun ; Chi, Hang ; Li, Yuetao ; Qian, Jun ; Zheng, Ying ; Zou, Yong ; Huang, Geng ; Kobinger, Gary ; Zheng, Xuexing ; Wong, Gary ; Chen, Weijin ; Li, Nan ; Chu, Di ; Gao, George Fu ; Gao, Yuwei ; Xia, Xianzhu ; He, Shihua ; Feng, Na ; Qiu, Xiangguo ; Cao, Zengguo ; Wang, Chong ; Wang, Tiecheng ; Yang, Songtao ; Gai, Weiwei ; Jin, Hongli

Abstract:

Recent successes with monoclonal antibody cocktails ZMappTM and MIL77 against Ebola virus (EBOV) infections have reignited interest in antibody-based therapeutics. Since the production process for monoclonal antibodies can be prolonged and costly, alternative treatments should be investigated. We produced purified equine antisera from horses hyperimmunized with EBOV virus-like particles, and tested the post-exposure efficacy of the antisera in a mouse model of infection. BALB/c mice were given up to 2 mg of purified equine antisera per animal, at 30 minutes, 1 or 2 days post-infection (dpi), in which all animals survived. To decrease the possibility of serum sickness, the equine antisera was digested with pepsin to generate F(ab′)2 fragments, with in vitro neutralizing activity comparable to whole immunoglobulin. Full protection was achieved with when treatment was initiated at 1 dpi, but the suboptimal protection observed with the 30 minute and 2 dpi groups demonstrate that in addition to virus neutralization, other Fc-dependent antibody mechanisms may also contribute to survival. Guinea pigs given 20 mg of antisera or F(ab′)2 at or starting at 1 or 2 dpi were also fully protected from EBOV infection. These results justify future efficacy studies for purified equine products in NHPs.

100 项与重组抗埃博拉病毒单克隆抗体联合(Mapp Biopharmaceutical, Inc.) 相关的药物交易

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适应症	最高研发状态	国家/地区	公司	日期
埃博拉病毒性疾病	临床1期	中国	中国人民解放军军事医学科学院	2019-11-22
埃博拉病毒性疾病	临床1期	中国	北京天广实生物技术股份有限公司	2019-11-22
埃博拉病毒性疾病	临床1期	中国	浙江海正药业股份有限公司	2019-11-22