HIV-1中和抗体疫苗研究进展

由于HIV具有与其它微生物极为不同的生物学特点,HIV疫苗的研究面临着前所未有的困难和挑战。20多年来,艾滋病疫苗研究主要采用了诱发中和抗体为主或细胞免疫为主两种策略,然而至今尚无实质性突破。诱发有效中和抗体一直是传统疫苗研发的重要策略,但HIV的高变异、多亚型等特点,使该策略在HIV疫苗研发中的应用成效甚微。近年来,一些具有广谱中和活性的HIV单抗的发现及其相应抗原表位的阐明,给HIV中和抗体疫苗的研究带来了新的希望。综合分析与评述这些进展,对于重新思考艾滋病疫苗和采用更好的策略进行艾滋病疫苗研究会衣纸帮助。     

人免疫缺陷病毒/艾滋病细胞免疫疫苗研究进展

由于人免疫缺陷病毒(HIV)具有变异快、亚型多、攻击免疫系统等特殊的生物学特点,HIV/艾滋病疫苗至今尚未研制成功。20多年来,艾滋病疫苗研究主要采用中和抗体为主和细胞免疫为主等两种策略,然而目前仍没有实质性突破。诱发广谱有效的强CD8+T细胞反应是研制有效HIV疫苗的重要策略。以次要保护性抗原为靶抗原、优化目的基因表达、多抗原联合使用策略,为研究HIV细胞免疫疫苗引入了新的思路。综合分析这些进展,对于重新思考艾滋病疫苗的研究策略可能会有所帮助。     

抗人类免疫缺陷病毒1型广谱中和抗体的研究进展

现行抗反转录病毒治疗药物的联合应用可有效抑制艾滋病进程并显著延长患者寿命,但由于人类免疫缺陷病毒1型(human immunodeficiency virus type 1,HIV-1)潜伏库的存在,艾滋病迄今尚无法治愈。近年发现抗HIV广谱中和抗体能有效降低患者体内病毒载量并延缓疾病进程,为研发艾滋病疫苗和治愈策略带来了曙光,尤其是序贯免疫策略的使用极大推进了广谱中和抗体的开发和应用进程。2018年,美国食品药品管理局(Food and Drug Administration,FDA)批准了第1个临床应用的广谱中性单克隆和抗体,无疑为抗HIV单克隆抗体药物的研发注入了一支强心剂。本文围绕近年来抗HIV广谱中和抗体的研究进展进行综述,探讨未来广谱中和抗体研发面临的挑战。     

《自然》:科学家发现能杀死不同艾滋病毒抗体

<正>南非国立传染病研究所(NICD)近日发布新闻公报表示,该所研究人员与美国同行合作,成功确认并在实验室复制出一种能够杀死不同艾滋病病毒(HIV)毒株的抗体,有望据此研发新型抗艾滋病疫苗,相关成果发表在在最新一期英国科学杂志《自然》上。研究人员对一名感染艾滋病病毒的女性的感染反应情况进行了研究,从其血液分离出她所产生的抗体,并运用克隆技术,在实验室中成功复制出了这种抗体。该抗体属于广泛中和抗体,能够杀死多种艾滋病病毒毒株。所有艾滋病病毒感染者体内都会产生抗体,但大多数感染者体内产生的抗体无法杀死艾滋病病毒,只有极少数感染者体内的抗体能够杀死(中和)多种类型的艾滋病病毒。"广泛中和抗体具有一些非同寻常的特点。"南非国立传染病研究所的彭妮·摩尔博士说,"艾滋病病毒有一层糖衣外壳,这层外壳会阻止抗     

HIV利用多种途径逃脱免疫监控

埃默里疫苗中心的研究人员发现,艾滋病病毒可以通过多种途径避开机体中的免疫系统。在一般病毒感染初期,人类免疫系统能够产生相应的中和抗体与病毒表面抗原结合,从而阻止该病原微生物粘附靶细胞受体,防止侵入细胞。但HIV具有极强的突变能力,这使得中和抗体无法识别各种类型的HIV突变体。     

艾滋病核酸疫苗研究进展与前景

艾滋病肆虐全球,已成为世界上危害人类健康和生命最严重的病毒性疾病之一。疫苗在预防和控制艾滋病中具有重要意义,理想的HIV疫苗必须能够产生广泛的交叉反应性中和抗体、有效的抗病毒细胞毒性T细胞(CTL)反应。近年来,核酸疫苗的研究已经取得了可喜的进展,科学家正不断努力研制更有效、更强大、更广谱的新型疫苗。综述了艾滋病核酸疫苗的载体改造、抗原选择、免疫策略等方面的研究进展,并对其今后的研究发展方向进行了阐述。     

《自然》:科学家发现能杀死不同艾滋病毒抗体

<正>南非国立传染病研究所(NICD)近日发布新闻公报表示,该所研究人员与美国同行合作,成功确认并在实验室复制出一种能够杀死不同艾滋病病毒(HIV)毒株的抗体,有望据此研发新型抗艾滋病疫苗,相关成果发表在在最新一期英国科学杂志《自然》上。研究人员对一名感染艾滋病病毒的女性的感染反应情况进行了研究,从其血液分离出她所产生的抗体,并运用克隆技术,在实验室中成功复制出了这种抗体。该抗体属于广泛中和抗体,能够杀死多种艾滋病病毒毒株。     

《自然》:科学家发现能杀死不同艾滋病毒抗体

<正>南非国立传染病研究所(NICD)近日发布新闻公报表示,该所研究人员与美国同行合作,成功确认并在实验室复制出一种能够杀死不同艾滋病病毒(HIV)毒株的抗体,有望据此研发新型抗艾滋病疫苗,相关成果发表在在最新一期英国科学杂志《自然》上。研究人员对一名感染艾滋病病毒的女性的感染反应情况进行了研究,从其血液分离出她所产生的抗体,并运用克隆技术,在实验室中成功复制出了这种抗体。该抗体属于广泛中和抗体,能够杀死多种艾滋病病毒毒株。     

抗人类免疫缺陷病毒广谱中和抗体与疫苗设计

自发现人类免疫缺陷病毒1型（HIV-1）30年来,科学家们不断探索有效的HIV-1疫苗,但至今效果不理想。由于“精英患者”的广谱中和血清能起到有效的抗病毒作用,研究人员希望通过对体液保护免疫机制的研究,推动疫苗的设计和优化,为尽早研发成功HIV疫苗提供关键理论和技术支撑。近几年来,由于技术的突破和改进,从HIV感染者中分离获得广谱中和抗体的概率和数量大大提高。本文针对近几年来分离的有代表性的广谱中和抗体,根据其不同的识别位点分为四大类进行详细介绍,并总结了从研究广谱中和抗体中所获得的疫苗设计创新思路与启示。     

HIV-1中和抗体和基于抗体的疫苗设计

研制一种安全有效并能广泛使用的HIV疫苗对于预防和控制HIV的流行具有重要的意义。尽管人类在HIV-1病原学和免疫学方面的认识不断取得新的进步,对于HIV-1而言,普遍认为诱导保护性中和抗体的科学障碍很难逾越。在抗击HIV-1的感染中传统的疫苗策略不能提供保护。然而,近来的研究揭示在小部分HIV-1感染病人的血清中存在的某些抗体能够中和大多数的HIV-1毒株,对这些血清抗体的深入分析有助于人们揭示抗体识别的病毒表位,这些研究表明自然产生的能够中和HIV-1的中和抗体的发现可能引导未来疫苗设计的思路。高分辨率的结构信息将揭示Env 和中和抗体(Nab)结合区原子水平的结构,这些信息能够帮助设计更好的免疫原。     

In vivo efficacy of human immunodeficiency virus neutralizing antibodies: estimates for protective titers

The definition of plasma neutralizing antibody titers capable of controlling human immunodeficiency virus (HIV) infection in vivo is considered a critical step in vaccine development. Here we provide estimates for effective neutralization titers by assessing samples from a recent passive immunization trial with the neutralizing monoclonal antibodies (MAbs) 2G12, 2F5, and 4E10 using an analytic strategy that dissects the contributions of these MAbs to the total neutralization activity in patient plasma. Assessment of neutralization activities for six responding patients with partial or complete control of viremia during the MAb treatment and for the eight nonresponding patients revealed a significant difference between these groups: Among responders, MAb-mediated activity exceeded the autologous neutralization response by 1 to 2 log units (median difference, 43.3-fold), while in the nonresponder group, the autologous activity prevailed (median difference, 0.63-fold). In order to reach a 50% proportion of the responders in our study cohort, MAb neutralizing titers higher than 1:200 were required based on this analysis. The disease stage appears to have a significant impact on the quantities needed, since titers above 1:1,000 were needed to reach the same effect in chronic infection. Although our analysis is based on very small sample numbers and thus cannot be conclusive, our data provide a first estimate on how in vitro-measured neutralizing antibody activity can relate to in vivo efficacy in controlling HIV infection and may therefore provide valuable information for vaccine development. Interestingly, lower neutralizing antibody levels showed an effect in acute compared to chronic infection, suggesting that in early disease stages, therapeutic vaccination may show promise. Equally, this raises hopes that a preventive vaccine could become effective at comparatively lower neutralizing antibody titers.     

Accessing the human repertoire for broadly neutralizing HIV antibodies

The human antibody response has special significance in the ongoing efforts to develop a protective HIV vaccine. The observation that a subset of HIV infected individuals, who do not develop AIDS, have a broadly neutralizing antibody response has drawn attention to deciphering the nature of this response. It is hoped that an understanding of these protective antibodies, developed over time in response to the ongoing accumulation of mutations in the infecting virus, will facilitate the development of a vaccine that can elicit a similar response. This strategy will be greatly aided by the identification of broadly neutralizing monoclonal HIV antibodies from infected individuals. Several methods have been utilized to isolate and characterize individual antibodies from the human repertoire and each of these methods has been applied to the generation of broadly neutralizing HIV antibodies, albeit with differing rates of success. This review describes several of these methods including human hybridoma; EBV transformation; nonimmortalized B cell culture; clonal sorting; and combinatorial display. Key considerations used in the comparison of different methods includes: efficiency of interrogation of an individual’s entire repertoire; assay formats that can be used to screen for antibodies of interest (i.e., binding versus biological assays); and the ability to recover native antibody heavy and light chain pairs.Key words: HIV, antibody, neutralizing, B cell, repertoire     

Induction of HIV neutralizing antibodies against the MPER of the HIV envelope protein by HA/gp41 chimeric protein-based DNA and VLP vaccines

Several conserved neutralizing epitopes have been identified in the HIV Env protein and among these, the MPER of gp41 has received great attention and is widely recognized as a promising target. However, little success has been achieved in eliciting MPER-specific HIV neutralizing antibodies by a number of different vaccine strategies. We investigated the ability of HA/gp41 chimeric protein-based vaccines, which were designed to enhance the exposure of the MPER in its native conformation, to induce MPER-specific HIV neutralizing antibodies. In characterization of the HA/gp41 chimeric protein, we found that by mutating an unpaired Cys residue (Cys-14) in its HA1 subunit to a Ser residue, the modified chimeric protein HA-C14S/gp41 showed increased reactivity to a conformation-sensitive monoclonal antibody against HA and formed more stable trimers in VLPs. On the other hand, HA-C14S/gp41 and HA/gp41 chimeric proteins expressed on the cell surfaces exhibited similar reactivity to monoclonal antibodies 2F5 and 4E10. Immunization of guinea pigs using the HA-C14S/gp41 DNA or VLP vaccines induced antibodies against the HIV gp41 as well as to a peptide corresponding to a segment of MPER at higher levels than immunization by standard HIV VLPs. Further, sera from vaccinated guinea pigs were found to exhibit HIV neutralizing activities. Moreover, sera from guinea pigs vaccinated by HA-C14S/gp41 DNA and VLP vaccines but not the standard HIV VLPs, were found to neutralize HIV pseudovirions containing a SIV-4E10 chimeric Env protein. The virus neutralization could be blocked by a MPER-specific peptide, thus demonstrating induction of MPER-specific HIV neutralizing antibodies by this novel vaccine strategy. These results show that induction of MPER-specific HIV neutralizing antibodies can be achieved through a rationally designed vaccine strategy.     

AIDS猕猴模型在HIV疫苗研究中的应用

对HIV疫苗的研究一直是国际上艾滋病方面研究的热点和难点。动物模型则为疫苗研究必不可缺少的重要工具,缺乏合适的动物模型很大程度上制约了AIDS疫苗的研究。目前在国际上SIV或SHIV感染的猕猴模型为最常用的AIDS研究模型,受猕猴背景及病毒特性等多种因素的影响,使得以上两种模型在HIV疫苗研究中仍存在一定的局限性。为了更好地发挥猕猴模型在HIV疫苗研究中的巨大潜力,开发理想的AIDS猕猴模型已成为目前HIV疫苗研究的首要任务。本文简要介绍了AIDS疫苗的研发策略、研发概况以及SIV/SHIV猕猴模型在HIV疫苗中的应用,并对其中存在的问题及其应用前景进行了探讨。     

Replicating rather than nonreplicating adenovirus-human immunodeficiency virus recombinant vaccines are better at eliciting potent cellular immunity and priming high-titer antibodies

A major challenge in combating the human immunodeficiency virus (HIV) epidemic is the development of vaccines capable of inducing potent, persistent cellular immunity and broadly reactive neutralizing antibody responses to HIV type 1 (HIV-1). We report here the results of a preclinical trial using the chimpanzee model to investigate a combination vaccine strategy involving sequential priming immunizations with different serotypes of adenovirus (Ad)/HIV-1(MN)env/rev recombinants and boosting with an HIV envelope subunit protein, oligomeric HIV(SF162) gp140deltaV2. The immunogenicities of replicating and nonreplicating Ad/HIV-1(MN)env/rev recombinants were compared. Replicating Ad/HIV recombinants were better at eliciting HIV-specific cellular immune responses and better at priming humoral immunity against HIV than nonreplicating Ad-HIV recombinants carrying the same gene insert. Enhanced cellular immunity was manifested by a greater frequency of HIV envelope-specific gamma interferon-secreting peripheral blood lymphocytes and better priming of T-cell proliferative responses. Enhanced humoral immunity was seen in higher anti-envelope binding and neutralizing antibody titers and better induction of antibody-dependent cellular cytotoxicity. More animals primed with replicating Ad recombinants mounted neutralizing antibodies against heterologous R5 viruses after one or two booster immunizations with the mismatched oligomeric HIV-1(SF162) gp140deltaV2 protein. These results support continued development of the replicating Ad-HIV recombinant vaccine approach and suggest that the use of replicating vectors for other vaccines may prove fruitful.     

猕猴模型在HIV疫苗研究中的应用

对HIV疫苗的研究一直是国际上艾滋病方面研究的热点和难点。动物模型则为疫苗研究必不可缺少的重要工具,缺乏合适的动物模型很大程度上制约了AIDS疫苗的研究。目前在国际上SIV或SHIV感染的猕猴模型为最常用的AIDS研究模型,受猕猴背景及病毒特性等多种因素的影响,使得以上两种模型在HIV疫苗研究中仍存在一定的局限性。为了更好地发挥猕猴模型在HIV疫苗研究中的巨大潜力,开发理想的AIDS猕猴模型已成为目前HIV疫苗研究的首要任务。本文简要介绍了AIDS疫苗的研发策略、研发概况以及SIV/SHIV猕猴模型在HIV疫苗中的应用,并对其中存在的问题及其应用前景进行了探讨。     

Profiles of human serum antibody responses elicited by three leading HIV vaccines focusing on the induction of Env-specific antibodies

In the current report, we compared the specificities of antibody responses in sera from volunteers enrolled in three US NIH-supported HIV vaccine trials using different immunization regimens. HIV-1 Env-specific binding antibody, neutralizing antibody, antibody-dependent cell-mediated cytotoxicity (ADCC), and profiles of antibody specificity were analyzed for human immune sera collected from vaccinees enrolled in the NIH HIV Vaccine Trial Network (HVTN) Study #041 (recombinant protein alone), HVTN Study #203 (poxviral vector prime-protein boost), and the DP6-001 study (DNA prime-protein boost). Vaccinees from HVTN Study #041 had the highest neutralizing antibody activities against the sensitive virus along with the highest binding antibody responses, particularly those directed toward the V3 loop. DP6-001 sera showed a higher frequency of positive neutralizing antibody activities against more resistant viral isolate with a significantly higher CD4 binding site (CD4bs) antibody response compared to both HVTN studies #041 and #203. No differences were found in CD4-induced (CD4i) antibody responses, ADCC activity, or complement activation by Env-specific antibody among these sera. Given recent renewed interest in realizing the importance of antibody responses for next generation HIV vaccine development, different antibody profiles shown in the current report, based on the analysis of a wide range of antibody parameters, provide critical biomarker information for the selection of HIV vaccines for more advanced human studies and, in particular, those that can elicit antibodies targeting conformational-sensitive and functionally conserved epitopes.     

Induction of neutralizing antibodies against human immunodeficiency virus type 1 primary isolates by Gag-Env pseudovirion immunization

A major challenge for the development of an effective HIV vaccine is to elicit neutralizing antibodies against a broad array of primary isolates. Monomeric gp120-based vaccine approaches have not been successful in inducing this type of response, prompting a number of approaches designed to recreate the native glycoprotein complex that exists on the viral membrane. Gag-Env pseudovirions are noninfectious viruslike particles that recreate the native envelope glycoprotein structure and have the potential to generate neutralizing antibody responses against primary isolates. In this study, an inducible cell line was created in order to generate Gag-Env pseudovirions for examination of neutralizing antibody responses in guinea pigs. Unadjuvanted pseudovirions generated relatively weak anti-gp120 responses, while the use of a block copolymer water-in-oil emulsion or aluminum hydroxide combined with CpG oligodeoxynucleotides resulted in high levels of antibodies that bind to gp120. Sera from immunized animals neutralized a panel of human immunodeficiency virus (HIV) type 1 primary isolate viruses at titers that were significantly higher than that of the corresponding monomeric gp120 protein. Interpretation of these results was complicated by the occurrence of neutralizing antibodies directed against cellular (non-envelope protein) components of the pseudovirion. However, a major component of the pseudovirion-elicited antibody response was directed specifically against the HIV envelope. These results provide support for the role of pseudovirion-based vaccines in generating neutralizing antibodies against primary isolates of HIV and highlight the potential confounding role of antibodies directed at non-envelope cell surface components.