Structural and Biochemical Characterization of Cysteinylation in Broadly Neutralizing Antibodies to HIV-1

Antibodies with exceptional breadth and potency have been elicited in some individuals during natural HIV-1 infection. Elicitation and affinity maturation of broadly neutralizing antibodies (bnAbs) is therefore the central goal of HIV-1 vaccine development. The functional properties of bnAbs also make them attractive as immunotherapeutic agents, which has led to their production and optimization for passive immunotherapy. This process requires in vitro manufacturing and monitoring of any heterogeneous expression, especially when subpopulations of antibodies are produced with varying levels of biological activity. Post-translational modification (PTM) of antibodies can contribute to heterogeneity and is the focus of this study. Specifically, we have investigated cysteinylation in a bnAb lineage (PCDN family) targeting the N332-glycan supersite on the surface envelope glycoprotein (Env) of HIV-1. This PTM is defined by capping of unpaired cysteine residues with molecular cysteine. Through chromatography and mass spectrometry, we were able to characterize subpopulations of cysteinylated and non-cysteinylated antibodies when expressed in mammalian cells. The crystal structures of two PCDN antibodies represent the first structures of a cysteinylated antibody and reveal that the cysteinylation in this case is located in CDRH3. Biophysical studies indicate that cysteinylation of these HIV-1 antibodies does not interfere with antigen binding, which has been reported to occur in other cysteinylated antibodies. As such, these studies highlight the need for further investigation of cysteinylation in anti-HIV and other bnAbs.     

中东呼吸综合征冠状病毒假病毒系统的建立及其在中和抗体检测中的应用

目的:为了避免中东呼吸综合征冠状病毒(MERS-CoV)感染与中和试验中操作活病毒带来的生物安全隐患,构建只具有一次感染能力而无复制能力的MERS假病毒,建立MERS假病毒系统,并应用于中和抗体检测。方法:构建含有MERS-CoV S基因的重组质粒pcDNA3.1-MERS-S,与缺失Env基因、含有萤光素酶报告基因的HIV-1骨架质粒pNL4-3.Luc.RE共转染293T细胞,收获含有假病毒的上清;通过Western印迹、细胞感染实验和血清中和试验,确定是否包装出MERS假病毒,及是否能有效应用于细胞感染与中和试验。结果:MERS假病毒pMERS-S培养上清经Western印迹鉴定出相对分子质量为25×103的HIV-1 P24蛋白和相对分子质量为180×103的MERS-CoV S蛋白;与阴性对照假病毒pEnv-相比,pMERS-S能有效感染MERS-CoV敏感细胞系Huh-7,在感染细胞中产生荧光信号,感染细胞的假病毒量与产生的荧光信号呈明显的量效关系;在MERS假病毒中和试验中,pMERS-S能被MERS-CoV中和抗体中和而失去感染力,反映抗体对MERS-CoV的中和活性。结论:建立了不依赖于BSL-3高等级生物安全条件的MERS假病毒系统,并有效应用于中和抗体检测,为MERS-CoV疫苗、药物评价及病毒致病机制研究提供了良好的技术支撑手段。     

Glycoprotein N of Human Cytomegalovirus Protects the Virus from Neutralizing Antibodies

Herpes viruses persist in the infected host and are transmitted between hosts in the presence of a fully functional humoral immune response, suggesting that they can evade neutralization by antiviral antibodies. Human cytomegalovirus (HCMV) encodes a number of polymorphic highly glycosylated virion glycoproteins (g), including the essential envelope glycoprotein, gN. We have tested the hypothesis that glycosylation of gN contributes to resistance of the virus to neutralizing antibodies. Recombinant viruses carrying deletions in serine/threonine rich sequences within the glycosylated surface domain of gN were constructed in the genetic background of HCMV strain AD169. The deletions had no influence on the formation of the gM/gN complex and in vitro replication of the respective viruses compared to the parent virus. The gN-truncated viruses were significantly more susceptible to neutralization by a gN-specific monoclonal antibody and in addition by a number of gB- and gH-specific monoclonal antibodies. Sera from individuals previously infected with HCMV also more efficiently neutralized gN-truncated viruses. Immunization of mice with viruses that expressed the truncated forms of gN resulted in significantly higher serum neutralizing antibody titers against the homologous strain that was accompanied by increased antibody titers against known neutralizing epitopes on gB and gH. Importantly, neutralization activity of sera from animals immunized with gN-truncated virus did not exhibit enhanced neutralizing activity against the parental wild type virus carrying the fully glycosylated wild type gN. Our results indicate that the extensive glycosylation of gN could represent a potentially important mechanism by which HCMV neutralization by a number of different antibody reactivities can be inhibited.     

Involvement of Aminopeptidase N (CD13) in Infection of Human Neural Cells by Human Coronavirus 229E

Attachment to a cell surface receptor can be a major determinant of virus tropism. Previous studies have shown that human respiratory coronavirus HCV-229E uses human aminopeptidase N (hAPN [CD13]) as its cellular receptor for infection of lung fibroblasts. Although human coronaviruses are recognized respiratory pathogens, occasional reports have suggested their possible neurotropism. We have previously shown that human neural cells, including glial cells in primary cultures, are susceptible to human coronavirus infection in vitro (A. Bonavia, N. Arbour, V. W. Yong, and P. J. Talbot, J. Virol. 71:800–806, 1997). However, the only reported expression of hAPN in the nervous system is at the level of nerve synapses. Therefore, we asked whether hAPN is utilized as a cellular receptor for infection of these human neural cell lines. Using flow cytometry, we were able to show the expression of hAPN on the surfaces of various human neuronal and glial cell lines that are susceptible to HCV-229E infection. An hAPN-specific monoclonal antibody (WM15), but not control antibody, inhibited the attachment of radiolabeled HCV-229E to astrocytic, neuronal, and oligodendrocytic cell lines. A correlation between the apparent amount of cell surface hAPN and the level of virus attachment was observed. Furthermore, the presence of WM15 inhibited virus infection of these cell lines, as detected by indirect immunofluorescence. These results indicate that hAPN (CD13) is expressed on neuronal and glial cell lines in vitro and serves as the receptor for infection by HCV-229E. This further strengthens the neurotropic potential of this human respiratory virus.     

氨肽酶N的表达及其与结石形成的关系(英文)

 为研究大鼠高胆固醇饮食时 ,肝脏氨肽酶N(APN)在实验结石形成中可能的结石发生作用 ,采用 1.2 %胆固醇饮食 4周 ,诱发新西兰兔胆囊结石形成 .根据兔APN基因cDNA序列设计引物 ,提取肝脏总RNA .利用RT PCR检测肝脏APNmRNA水平的变化 ,用组织化学方法观察肝脏毛细胆管膜上APN的表达 .观察新西兰兔胆囊结石形成过程中肝脏APN的mRNA水平的变化、APN表达及胆汁中APN活性、胆脂、总蛋白含量的变化 ,探讨APN在胆石形成中可能的作用 .经成石饲料饲养后 ,随着胆汁饱和度增加和APN活性加强 ,胆囊结石组肝脏APNmRNA水平较对照组明显增高 ,胆囊结石组胆汁中总胆固醇、CSI、总蛋白浓度及APN活性均明显高于对照组 ,且胆汁中APN活性与肝脏APN的表达及胆汁CSI增高呈正相关 .结果提示 ,当存在胆汁过饱和的情况下 ,APN很可能作为促成核因子在胆结石形成早期发挥重要作用     

Heterosubtype Neutralizing Responses to Influenza A (H5N1) Viruses Are Mediated by Antibodies to Virus Haemagglutinin

Background

It is increasingly clear that influenza A infection induces cross-subtype neutralizing antibodies that may potentially confer protection against zoonotic infections. It is unclear whether this is mediated by antibodies to the neuraminidase (NA) or haemagglutinin (HA). We use pseudoviral particles (H5pp) coated with H5 haemagglutinin but not N1 neuraminidase to address this question. In this study, we investigate whether cross-neutralizing antibodies in persons unexposed to H5N1 is reactive to the H5 haemagglutinin.

Methodology/Principal Findings

We measured H5-neutralization antibody titers pre- and post-vaccination using the H5N1 micro-neutralization test (MN) and H5pp tests in subjects given seasonal vaccines and in selected sera from European elderly volunteers in a H5N1 vaccine trial who had detectable pre-vaccination H5N1 MN antibody titers. We found detectable (titer ≥20) H5N1 neutralizing antibodies in a minority of pre-seasonal vaccine sera and evidence of a serological response to H5N1 in others after seasonal influenza vaccination. There was excellent correlation in the antibody titers between the H5N1 MN and H5pp tests. Similar correlations were found between MN and H5pp in the pre-vaccine sera from the cohort of H5N1 vaccine trial recipients.

Conclusions/Significance

Heterosubtype neutralizing antibody to H5N1 in healthy volunteers unexposed to H5N1 is mediated by cross-reaction to the H5 haemagglutinin.     

Inhibition of Aminopeptidase and Acetylcholinesterase by Puromycin and Puromycin Analogs

Abstract: Puromycin analogs in which the O -methyl-L-tyrosine moiety was substituted by a number of amino acids were examined as inhibitors of the puromycin-sensitive rat brain aminopeptidase and bovine erythrocyte acetyl-cholinesterase. In the case of the aminopeptidase, the structure and stereochemistry of the amino acid substituent were important factors in determining inhibitor effectiveness. In the case of the acetylcholinesterase reaction, the aminonucleoside of puromycin was nearly as effective an inhibitor as puromycin itself, with little effect dependent on the nature or stereochemistry of the amino acid.     

Fluorescence Adherence Inhibition Assay: A Novel Functional Assessment of Blocking Virus Attachment by Vaccine-Induced Antibodies

Neutralizing antibodies induced by vaccination or natural infection play a critically important role in protection against the viral diseases. In general, neutralization of the viral infection occurs via two major pathways: pre- and post-attachment modes, the first being the most important for such infections as influenza and polio, the latter being significant for filoviruses. Neutralizing capacity of antibodies is typically evaluated by virus neutralization assays that assess reduction of viral infectivity to the target cells in the presence of functional antibodies. Plaque reduction neutralization test, microneutralization and immunofluorescent assays are often used as gold standard virus neutralization assays. However, these methods are associated with several important prerequisites such as use of live virus requiring safety precautions, tedious evaluation procedure and long assessment time. Hence, there is a need for a robust, inexpensive high throughput functional assay that can be performed rapidly using inactivated virus, without extensive safety precautions. Herein, we report a novel high throughput Fluorescence Adherence Inhibition assay (fADI) using inactivated virus labeled with fluorescent secondary antibodies virus and Vero cells or erythrocytes as targets. It requires only few hours to assess pre-attachment neutralizing capacity of donor sera. fADI assay was tested successfully on donors immunized with polio, yellow fever and influenza vaccines. To further simplify and improve the throughput of the assay, we have developed a mathematical approach for calculating the 50% titers from a single sample dilution, without the need to analyze multi-point titration curves. Assessment of pre- and post-vaccination human sera from subjects immunized with IPOL^®, YF-VAX^® and 2013–2014 Fluzone^® vaccines demonstrated high efficiency of the assay. The results correlated very well with microneutralization assay performed independently by the FDA Center of Biologics Evaluation and Research, with plaque reduction neutralization test performed by Focus Diagnostics, and with hemaglutination inhibition assay performed in-house at Sanofi Pasteur. Taken together, fADI assay appears to be a useful high throughput functional immunoassay for assessment of antibody-related neutralization of the viral infections for which pre-attachment neutralization pathway is predominant, such as polio, influenza, yellow fever and dengue.     

戊型肝炎病毒中和性单克隆抗体的鉴定

阻断实验发现。用戊型肝炎病毒(HEV)衣壳蛋白重组抗原制备的8株抗HEV单克隆抗体(mAb),分别识别3个构象表位和2个线性表位。用抗体捕获反转录PCR方法证实,其中识别2个构象表位的3个mAb可以直接捕获HEV颗粒,表明这2个表位位于HEV颗粒的外表面。识别这两个表位的mAbSCll和8H3均可中和HEV对恒河猴的致病性和感染性。rnAb8C11缩短排毒时间的效应较明显,而mAb8H3延迟机体抗HEV抗体阳转时间的效应较明显。二者的中和效应具有较明显的协同作用。中和单抗8C11、8H3对戊肝不同感染时期的血清均有显著阻断作用,Fab片段的阻断作用与完整抗体类似,表明这两个mAb对应的中和表位是HEV体液免疫应答的优势表位。     

Inhibition of Ribonucleic Acid Bacteriophage Release from Its Host by Rifampin

Rifampin, in addition to interfering with intracellular growth of the ribonucleic acid-containing phage MS2, also inhibits the release of mature phage particles from Escherichia coli cells.     

Inhibition of a Membrane-Bound Enkephalin-Degrading Aminopeptidase by Bestatin Analogs

Abstract: A variety of bestatin analogs were examined as potent inhibitors of a membrane-bound enkephalin-degrading aminopeptidase that was purified from monkey brain. Bestatinyl amino acid derivatives showed strong inhibition of this enzyme. The most effective was bestatin- l -Arg AcOH, with a K _i value of 0.21 × 10⁻⁸ M with Leu-enkephalin as substrate. It exhibited competitive kinetics and was about 100-fold more potent than bestatin. This compound seems to be useful for pharmacological and other studies.     

Encapsulation of Bacteriophage in Liposome Accentuates Its Entry in to Macrophage and Shields It from Neutralizing Antibodies

Phage therapy has been a centre of attraction for biomedical scientists to treat infections caused by drug resistant strains. However, ability of phage to act only on extracellular bacteria and probability of interference by anti-phage antibodies in vivo is considered as a important limitation of bacteriophage therapy. To overcome these hurdles, liposome were used as delivery vehicle for phage in this study. Anti-phage antibodies were raised in mice and pooled serum was evaluated for its ability to neutralize free and liposome entrapped phage. Further, ability of phage and liposome-entrapped phage to enter mouse peritoneal macrophages and kill intracellular Klebsiella pneumoniae was compared. Also, an attempt to compare the efficacy of free phage and liposome entrapped phage, alone or in conjunction with amikacin in eradicating mature biofilm was made. The entrapment of phage in liposome provided 100% protection to phage from neutralizing antibody. On the contrary un-entrapped phage got neutralized within 3 h of its interaction with antibody. Compared to the inability of free phage to enter macrophages, the liposome were able to deliver entrapped phage inside macrophages and cause 94.6% killing of intracellular K. pneumoniae. Liposome entrapped phage showed synergistic activity along with amikacin to eradicate mature biofilm of K. pneumoniae. Our study reinforces the growing interest in using phage therapy as a means of targeting multidrug resistant bacterial infections as liposome entrapment of phage makes them highly effective in vitro as well as in vivo by overcoming the majority of the hurdles related to clinical use of phage.     

Purification of an Aminopeptidase Preferentially Releasing N-terminal Alanine from Cucumber Leaves and Its Identification as a Plant Aminopeptidase N

In this study, a highly active foliar aminopeptidase preferentially releasing N-terminal alanine from artificial substrates was purified and characterized from cucumber (Cucumis sativus L. suyo). The enzyme had a molecular mass of 200 kDa consisting of two subunits of 95 kDa. It was a metalloprotease the pH optimum of which was 8 to 9. It cleaved Ala-, Gly-, Met-, Ser-, Leu-, Lys-, and Arg artificial substrates. An internal amino acid sequence was similar to those of aminopeptidase N (clan MA, family M1) of microorganisms, and was very similar to that of a putative aminopeptidase N of Arabidopsis thaliana. From these results, the highly active aminopeptidase in cucumber leaves was identified to be a plant aminopepitdase N.     

Characterization of Two Human Monoclonal Antibodies Neutralizing Influenza A H7N9 Viruses

H7N9 was a cause of significant global health concern due to its severe infection and approximately 35% mortality in humans. By screening a Fab antibody phage library derived from patients who recovered from H7N9 infections, we characterized two human monoclonal antibodies (HuMAbs), HNIgGD5 and HNIgGH8. The epitope of these two antibodies was dependent on two residues in the receptor binding site at positions V186 and L226 of the hemagglutinin glycoprotein. Both antibodies possessed high neutralizing activity.     

Characteristics of Bacteriophage N1 and Its Attachment to Cells of Micrococcus lysodeikticus

Bacteriophage N1 was purified by differential and equilibrium gradient centrifugation and characterized with respect to bouyant density in CsCl, one-step growth properties, host range, and morphology by electron microscopy. In a tris (hydroxymethyl) aminomethane-magnesium buffer (pH 7.15), the irreversible adsorption of N1 to cells of Micrococcus lysodeikticus strain 1 (ML-1) followed first-order reaction kinetics with an adsorption-velocity constant of 1.6 x 10(-9)/min at 32 C. The rate of phage attachment was not significantly altered when adsorption mixtures contained 0.01 m KCN or 1% casein hydrolysate, 0.01 m CaCl(2), and 0.001 m tryptophan. The activation energy for the irreversible adsorption reaction was 8.6 kcal. Treatment of ML-1 cells by any of the following procedures reduced the irreversible phage receptor activity over 90%: (i) mechanical disruption, (ii) lysozyme digestion, (iii) incubation in 1% cetyltrimethylammonium bromide, or (iv) incubation of heated cells (100 C, 15 min) with trypsin, Pronase, or lysozyme. The sensitivity of the phage receptor activity of ML-1 cells to lysozyme suggests that the bacterial cell wall is involved in the receptor site for the virus. Destruction of receptor activity by the other treatments cited above implies that, in addition to the cell wall, other cellular components may participate in the irreversible attachment of N1 phage to cells.     

Significant Spike-Specific IgG and Neutralizing Antibodies in Mice Induced by a Novel Chimeric Virus-Like Particle Vaccine Candidate for Middle East Respiratory Syndrome Coronavirus

正Dear Editor,Middle East respiratory syndrome coronavirus (MERS-CoV), first isolated in 2012, has emerged zoonotically among humans (van Boheemen et al. 2012). Since then,MERS-CoV continues to be a public health concern, with a fatality rate of 35%. On-going MERS-CoV outbreaks highlight the urgent need for the development of inter-     

表达轮状病毒SA11株Vp4的抗原表位诱导病毒中和抗体生成

以昆虫病毒Flockhousevirus（FHV）外壳蛋白为载体的外源抗原表位表达系统（FHV-RNA2载体系统）．在重组杆状病毒和重组pET系统中构建和表达了SA11Vp4胰酶切割位点两侧和重叠切割位点3个抗原表位氨基酸序列（抗原表位A,aa223~242;抗原表位B,aa243～262;抗原表位C,aa234～251）,并对其免疫原性进行了研究。结果表明：这3个抗原表位能诱导动物产生抗同源氨基酸序列的抗体和抗同源病毒（SA11）感染性的血清中和抗体。研究结果提示：RVVp4胰酶切割位点区氨基酸序列除了具有胰酶切割增强病毒感染力外,还具有诱导动物机体产生血清中和抗体的能力,是RV重组抗原表位亚单位疫苗研究中重要的抗原表位氨基酸序列。     

Development of Neutralizing Antibodies against Zika Virus Based on Its Envelope Protein Structure

As we know more about Zika virus(ZIKV), as well as its linkage to birth defects(microcephaly) and autoimmune neurological syndromes, we realize the importance of developing an efficient vaccine against it. Zika virus disease has affected many countries and is becoming a major public health concern. To deal with the infection of ZIKV, plenty of experiments have been done on selection of neutralizing antibodies that can target the envelope(E) protein on the surface of the virion. However, the existence of antibody-dependent enhancement(ADE) effect might limit the use of them as therapeutic candidates. In this review, we classify the neutralizing antibodies against ZIKV based on the epitopes and summarize the resolved structural information on antibody/antigen complex from X-ray crystallography and cryo-electron microscopy(cryo-EM), which might be useful for further development of potent neutralizing antibodies and vaccines toward clinical use.     

Structural Basis for the Inhibition of Host Protein Ubiquitination by Shigella Effector Kinase OspG

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