Isolation and characterization of novel human monoclonal antibodies possessing neutralizing ability against rabies virus

Rabies is a fatal viral encephalitis which is transmitted by exposure to the bite of rabid animals. Human and equine rabies immunoglobulins are indispensable pharmacological agents for severe bite exposure, as is vaccine. However, several disadvantages, including limited supply, adverse reactions, and high cost, hamper their wide application in developing countries. In the present study, two novel huMabs which neutralize rabies virus were established from vaccinated hyperimmune volunteers using the Epstein‐Barr virus transformation method. One MAb (No. 254), which was subclass IgG3, effectively neutralized fixed rabies viruses of CVS, ERA, HEP‐Flury, and Nishigahara strains and recognized a well‐conserved epitope located in antigenic site II of the rabies virus glycoprotein. No. 254 possessed 68 ng/ml of FRNT₅₀ activity against CVS, 3.7 × 10^?7 M of the Kd value, and the enhancing effect of complement‐dependent virolysis. In addition, No. 254 showed effective neutralization potency in vivo in the mouse challenge test. The other MAb, 4D4, was subclass IgM and showed neutralizing activity against CVS and Nishigahara strains. 4D4 recognized a novel antigenic site which is associated with the neurovirulence of rabies, a glycoprotein located between antigenic site I and VI. Both human MAbs against rabies are expected to be utilized as a tool for future post‐exposure prophylaxis.     

Anti-idiotypic antibodies induce neutralizing antibodies to rabies virus glycoprotein.

Rabbit anti-idiotypic antibodies (alpha Id Ab) were prepared against five murine monoclonal antibodies (mAb) specific for the rabies virus glycoprotein. Four of the mAb were directed against three known, type-specific, neutralizing sites on the glycoprotein, and the other mAb was directed against a topographically uncharacterized, nonneutralizing epitope. An absence of significant cross-reactivity among the alpha Id Ab for heterologous mAb suggested that the alpha Id Ab were highly specific for unique variable region determinants. The binding of three of the five alpha Id Ab to their homologous mAb could be inhibited by rabies virus-soluble glycoprotein, suggesting that the alpha Id Ab possessed subpopulations similar or adjacent to the antigen-binding site of the mAb. Two of the five alpha Id Ab injected into mice elicited a specific virus-neutralizing antibody response. Mechanisms to account for the induction of the virus-neutralizing antibody by alpha Id Ab are discussed.     

Generation and characterization of neutralizing human monoclonal antibodies against human immunodeficiency virus type 1 Tat antigen

The human immunodeficiency virus Tat regulatory protein is essential for virus replication and pathogenesis. From human peripheral blood mononuclear cells of three Tat toxoid-immunized volunteers, we isolated five Tat-specific human monoclonal antibodies (HMAbs): two full-length immunoglobulin G (IgG) antibodies and three single-chain fragment-variable (scFv) antibodies. The two IgGs were mapped to distinct epitopes within the basic region of Tat, and the three scFvs were mapped to the N-terminal domain of Tat. The three scFvs were highly reactive with recombinant Tat in Western blotting or immunoprecipitation, but results were in contrast to those for the two IgGs, which are sensitive to a particular folding of the protein. In transactivation assays, scFvs were able to inhibit both active recombinant Tat and native Tat secreted by a transfected CEM cell line while IgGs neutralized only native Tat. These HMAbs were able to reduce viral p24 production in human immunodeficiency virus type 1 strain IIIB chronically infected cell lines in a dose-dependent manner.     

Rabies virulence: effect on pathogenicity and sequence characterization of rabies virus mutations affecting antigenic site III of the glycoprotein

Using four neutralizing monoclonal antibodies which presumably bind to the same antigenic site on the CVS glycoprotein (antigenic site III as defined by cross-neutralization tests), we isolated 58 mutants of the CVS strain of rabies virus. These mutants were highly resistant to the selecting antibodies and grew efficiently in cell cultures. We classified them into five groups on the basis of the pattern of resistance to the four antibodies. We determined pathogenicities of the mutants for adult mice by intracerebral inoculation. Group 2 mutants were nonpathogenic or had attenuated pathogenicity. On the contrary, mutants from the other groups were pathogenic, causing paralysis and death as does CVS. We determined the nucleotide alterations of representative mutants from each group by using the dideoxy method of RNA sequencing. In the glycoproteins of eight nonpathogenic or attenuated mutants, we identified an amino acid substitution at position 333. Arginine 333 was replaced by either glutamine or glycine. In the glycoprotein of eight pathogenic mutants, we identified an amino acid substitution at lysine 330, asparagine 336, or isoleucine 338. Thus, although all substitutions affected neutralization and were located close to each other in the glycoprotein sequence, only substitutions at position 333 affected pathogenicity.     

Generation and characterization of human anti-human IL-21 neutralizing monoclonal antibodies

Interleukin-21 (IL-21) is a type I four-helical bundle cytokine that exerts a variety of significant effects on many hematopoietic cells, including T and B lymphocytes and natural killer cells. IL-21 is produced predominantly by CD4+ T cells and natural killer T cells and, when aberrantly overexpressed, appears to play important roles in a wide variety of autoimmune disorders. To generate potential therapeutic reagents capable of inhibiting IL-21 for clinical use, we immunized human immunoglobulin transgenic mice with IL-21 and then identified and cloned a panel of human anti-human IL-21 binding monoclonal antibodies. IL-21 neutralizing and IL-21-binding, non-neutralizing antibodies were assigned to distinct epitope “bins” based on surface plasmon resonance competition studies. The most potent neutralizing antibodies had extremely high (sub pM) affinity for IL-21 and were able to block IL-21 activity in various biological assays using either an IL-21R-transfected pre-B-cell line or primary human B cells, and their neutralizing activity was, in some cases, superior to that of a soluble form of the high affinity heterodimeric IL-21 receptor. Characterization of this panel of IL-21 antibodies provided the basis for the selection of a therapeutic candidate antibody capable of inhibiting IL-21 activity for the treatment of autoimmune and inflammatory diseases.     

Generation and characterization of human anti-human IL-21 neutralizing monoclonal antibodies

Interleukin 21 (IL-21) is a type I four-helical bundle cytokine that exerts a variety of significant effects on many hematopoietic cells, including T and B lymphocytes and natural killer cells. IL-21 is produced predominantly by CD4⁺ T cells and natural killer T cells and, when aberrantly overexpressed, appears to play important roles in a wide variety of autoimmune disorders. To generate potential therapeutic reagents capable of inhibiting IL-21 for clinical use, we immunized human immunoglobulin transgenic mice with IL-21 and then identified and cloned a panel of human anti-human IL-21 binding monoclonal antibodies. IL-21 neutralizing and IL-21-binding, non-neutralizing antibodies were assigned to distinct epitope “bins” based on surface plasmon resonance competition studies. The most potent neutralizing antibodies had extremely high (sub pM) affinity for IL-21 and were able to block IL-21 activity in various biological assays using either an IL-21R-transfected pre-B-cell line or primary human B cells, and their neutralizing activity was, in some cases, superior to that of a soluble form of the high affinity heterodimeric IL-21 receptor. Characterization of this panel of IL-21 antibodies provided the basis for the selection of a therapeutic candidate antibody capable of inhibiting IL-21 activity for the treatment of autoimmune and inflammatory diseases.Key words: interleukin 21, IL-21, mAb, human Ig transgenic mice, autoimmunity     

The major neutralizing antigenic site on herpes simplex virus glycoprotein D overlaps a receptor-binding domain

Herpes simplex virus (HSV) entry is dependent on the interaction of virion glycoprotein D (gD) with one of several cellular receptors. We previously showed that gD binds specifically to two structurally dissimilar receptors, HveA and HveC. We have continued our studies by using (i) a panel of baculovirus-produced gD molecules with various C-terminal truncations and (ii) a series of gD mutants with nonoverlapping 3-amino-acid deletions between residues 222 and 254. Binding of the potent neutralizing monoclonal antibody (MAb) DL11 (group Ib) was unaffected in forms of gD containing residues 1 to 250 but was greatly diminished in molecules truncated at residue 240 or 234. Both receptor binding and blocking of HSV infection were also affected by these C-terminal truncations. gD-1(234t) bound weakly to both HveA and HveC as determined by enzyme-linked immunosorbent assay (ELISA) and failed to block infection. Interestingly, gD-1(240t) bound well to both receptors but blocked infection poorly, indicating that receptor binding as measured by ELISA is not the only gD function required for blocking. Optical biosensor studies showed that while gD-1(240t) bound HveC with an affinity similar to that of gD-1(306t), the rates of complex formation and dissociation were significantly faster than for gD-1(306t). Complementation analysis showed that any 3-amino-acid deletion between residues 222 and 251 of gD resulted in a nonfunctional protein. Among this set of proteins, three had lost DL11 reactivity (those with deletions between residues 222 and 230). One of these proteins (deletion 222-224) was expressed as a soluble form in the baculovirus system. This protein did not react with DL11, bound to both HveA and HveC poorly as shown by ELISA, and failed to block HSV infection. Since this protein was bound by several other MAbs that recognize discontinuous epitopes, we conclude that residues 222 to 224 are critical for gD function. We propose that the potent virus-neutralizing activity of DL11 (and other group Ib MAbs) likely reflects an overlap between its epitope and a receptor-binding domain of gD.     

Preparation and diagnostic use of a novel recombinant single-chain antibody against rabies virus glycoprotein

Rabies virus (RABV) causes a fatal infectious disease, but effective protection may be achieved with the use of rabies immunoglobulin and a rabies vaccine. Virus-neutralizing antibodies (VNA), which play an important role in the prevention of rabies, are commonly evaluated by the RABV neutralizing test. For determining serum VNA levels or virus titers during the RABV vaccine manufacturing process, reliability of the assay method is highly important and mainly dependent on the diagnostic antibody. Most diagnostic antibodies are monoclonal antibodies (mAbs) made from hybridoma cell lines and are costly and time consuming to prepare. Thus, production of a cost-effective mAb for determining rabies VNA levels or RABV titers is needed. In this report, we describe the prokaryotic production of a RABV-specific single-chain variable fragment (scFv) protein with a His-tag (scFv98H) from a previously constructed plasmid in a bioreactor, including the purification and refolding process as well as the functional testing of the protein. The antigen-specific binding characteristics, affinity, and relative affinity of the purified protein were tested. The scFv98H antibody was compared with a commercial RABV nucleoprotein mAb for assaying the VNA level of anti-rabies serum samples from different sources or testing the growth kinetics of RABV strains for vaccine manufactured in China. The results indicated that scFv98H may be used as a novel diagnostic tool to assay VNA levels or virus titers and may be used as an alternative for the diagnostic antibody presently employed for these purposes.     

Isolation and characterization of broadly neutralizing human monoclonal antibodies to the e1 glycoprotein of hepatitis C virus

The relative importance of humoral and cellular immunity in the prevention or clearance of hepatitis C virus (HCV) infection is poorly understood. However, there is considerable evidence that neutralizing antibodies are involved in disease control. Here we describe the detailed analysis of human monoclonal antibodies (MAbs) directed against HCV glycoprotein E1, which may have the potential to control HCV infection. We have identified two MAbs that can strongly neutralize HCV-pseudotyped particles (HCVpp) bearing the envelope glycoproteins of genotypes 1a, 1b, 4a, 5a, and 6a and less strongly neutralize HCVpp bearing the envelope glycoproteins of genotype 2a. Genotype 3a was not neutralized. The epitopes for both MAbs were mapped to the region encompassing amino acids 313 to 327. In addition, robust neutralization was also observed against cell culture-adapted viruses of genotypes 1a and 2a. Results from this study suggest that these MAbs may have the potential to prevent HCV infection.     

Fine mapping of antigenic site II of herpes simplex virus glycoprotein D.

Glycoprotein D (gD) is a virion envelope component of herpes simplex virus types 1 (HSV-1) and 2 (HSV-2) which plays an important role in viral infection and pathogenesis. Previously, anti-gD monoclonal antibodies (MAbs) were arranged into groups which recognize distinct type-common and type-specific sites on HSV-1 gD (gD-1) and HSV-2 gD (gD-2). Several groups recognize discontinuous epitopes which are dependent on tertiary structure. Three groups, VII, II, and V, recognize continuous epitopes present in both native and denatured gD. Previously, group II consisted of a single MAb, DL6, whose epitope was localized between amino acids 268 and 287. In the study reported here, we extended our analysis of the antigenic structure of gD, concentrating on continuous epitopes. The DL6 epitope was localized with greater precision to residues 272 to 279. Four additional MAbs including BD78 were identified, each of which recognizes an epitope within residues 264 to 275. BD78 and DL6 blocked each other in binding to gD. In addition, a mutant form of gD was constructed in which the proline at 273 was replaced by serine. This change removes a predicted beta turn in gD. Neither antibody reacted with this mutant, indicating that the BD78 and DL6 epitopes overlap and constitute an antigenic site (site II) within residues 264 to 279. A separate antigenic site (site XI) was recognized by MAb BD66 (residues 284 to 301). This site was only six amino acids downstream of site II, but was distinct as demonstrated by blocking studies. Synthetic peptides mimicking these and other regions of gD were screened with polyclonal antisera to native gD-1 or gD-2. The results indicate that sites II, V, VII, and XI, as well as the carboxy terminus, are the major continuous antigenic determinants on gD. In addition, the results show that the region from residues 264 through 369, except the transmembrane anchor, contains a series of continuous epitopes.     

Biological characterization of human monoclonal antibodies to rabies virus.

Rabies virus antigen-specific human monoclonal antibodies (MAbs) that recognized either viral glycoprotein, ribonucleoprotein, or matrix proteins were generated. Only glycoprotein-specific MAb neutralized a variety of rabies viruses and protected laboratory rodents against lethal rabies virus infection. The determinant recognized by this MAb does not appear to reside in previously defined antigenic sites of the viral glycoprotein.     

Characterization of recombinant rabies virus carrying double glycoprotein genes

A recombinant rabies virus carrying double glycoprotein (G) genes, R(NPMGGL) strain, was generated by a reverse genetics system utilizing cloned cDNA of the RC-HL strain, and the biological properties of the virus were compared to those of the recombinant RC-HL (rRC-HL) strain. The extents of virus growth in cultured cells and virulence for adult mice of the R(NPMGGL) strain were almost same as those of the rRC-HL strain, while G protein content of the purified R(NPMGGL) virion and G protein expression level in R(NPMGGL)-infected cells were 1.5-fold higher than those of the rRC-HL strain. As a result of serial passages of the R(NPMGGL) strain in cultured cells, the expression level of G protein in cultured cells infected with the passaged R(NPMGGL) strain was maintained and virus titers rose with adaptation to the cultured cells. Furthermore, analysis of neutralization titers in mice immunized with UVinactivated virus suggested that the R(NPMGGL) strain had higher immunogenicity than that of the rRC-HL strain. The results suggest that the R(NPMGGL) strain carrying double G genes might be a useful candidate for development of a new inactivated rabies vaccine.     

Generation and characterization of human monoclonal antibodies to G5, a linear neutralization epitope on glycoprotein of rabies virus, by phage display technology

The aim of the present study was to discover distinct human MAbs to RV with high neutralizing potency and a broad neutralization spectrum. A phage display technology was used to produce human scFv to G5, a conserved linear neutralization epitope on Gp of RV. A phage display scFv library with 6 x 10(7) members was constructed and the phage-scFv with 'antigen-binding' activities were selected with synthetic peptide G5-24. The obtained scFv genes were cloned into pET22b(+)/BL21(DE3) and from this we prepared purified scFv fragments. The assay of the specificity characteristics and neutralization capacity showed that two distinct clones with new human immunoglobulin V genes can recognize G5 specifically as well as neutralize different RV strains. They have potential for inclusion in an antibodies combination aimed for use in rabies PEP.     

Neutralizing monoclonal antibodies to hepatitis A virus: partial localization of a neutralizing antigenic site.

BALB/c mice were immunized with purified preparations of hepatitis A virus (HAV) isolated after 21 days of growth in LLC-MK2 cells. The HAV antigen was isolated from CsCl gradients and consisted primarily of the following three proteins as analyzed after sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Coomassie blue staining: VP-1 at 33,000 daltons, VP-2 at 29,000 to 30,000 daltons, and VP-3 at 27,000 daltons. The spleen cells isolated from two BALB/c mice, immunized with two inoculations of HAV, were fused with SP 2/0 myeloma cells and grown in hypoxanthine-aminopterin-thymidine medium. Of 270 hybridomas initially screened, 72 were positive for binding HAV by a noncompetitive radioimmunoassay. All 72 were tested for the ability to neutralize the infectivity of HAV in an in vitro cell culture assay that was adapted for microtiter plates and that used detergent-treated virus for improved neutralization sensitivity and newborn cynomolgus monkey kidney cells for rapid growth. Eighteen hybridomas were positive for neutralization; 16 remained stable. Of the 16, 9 were able to compete with labeled polyclonal serum for binding to HAV. The nine competing hybridomas could be separated into two groups which appear to be directed towards two different sites on HAV and could complement each other in the competitive radioimmunoassay against polyclonal sera. Of the original 16 neutralizing hybridomas, 4 were subcloned through two cycles of limit dilutions. All four monoclonal antibodies retained their original neutralizing and competitive properties; three were immunoglobulin G2a, and one was immunoglobulin G1. All four monoclonal antibodies readily precipitate whole 125I-labeled HAV but are not able to recognize the disrupted proteins of the virus (as tested by immune precipitations of heat- and detergent-disrupted virions or Western blot analyses). However, the heterobifunctional cross-linking reagent toluene-2,4-diisocyanate was used to cross-link purified Fab fragments of two different monoclonal antibodies (2D2 and 6A5) to HAV before disruption. This reagent demonstrated a specific reaction of the monoclonal antibodies to the VP-1 of HAV, suggesting this major surface protein contains at least one of the major neutralization sites for HAV.     

A model of the rabies virus glycoprotein active site

The glycoprotein from the neurotropic rabies virus shows a significant homology with the α neurotoxin that binds to the nicotinic acetylcholine receptor. The crystal structure of the α neurotoxins suggests that the Arg 37 guanidinium group and the Asp 31 side-chain carboxylate of the erabutoxin have stereochemical features resembling those of acetylcholine. Conformational studies on the Asn194-Ser195-Arg196-Gly197 tetrapeptide, an essential part of the binding site of the rabies virus glycoprotein, indicate that the side chains of Asn and Arg could also mimic the acetylcholine structure. This observation is consistent with the recently proposed mechanism of the viral infection. © 1993 John Wiley & Sons, Inc.     

Development and characterization of neutralizing monoclonal antibodies against canine distemper virus hemagglutinin protein

Canine distemper virus (CDV) causes a serious multisystemic disease in dogs and other carnivora. Hemagglutinin (H) protein‐specific antibodies are mainly responsible for protective immunity against CDV infection. In the present study, six neutralizing MAbs to the H protein of CDV were newly obtained and characterized by immunizing BALB/c mice with a recent Chinese field isolate. Competitive binding inhibition assay revealed that they recognized four distinct antigenic regions of the H protein. Immunofluorescence assay and western blotting showed that all MAbs recognize the conformational rather than the linear epitopes of the H protein. Furthermore, in immunofluorescence and virus neutralization assays, two of the MAbs were found to react only with the recent Chinese field isolate and not with older CDV strains, including vaccine strain Onderstepoort, indicating there are neutralization‐related antigenic variations between the recent Chinese field isolate and the older CDV strains examined in this study. The newly established MAbs are useful for differentiating the expanding CDV strains and could be used in immunotherapy and immunodiagnosis against infection with CDV.     

Novel human 3-domain disulfide-stabilized antibody fragment against glycoprotein of rabies virus

Mutated disulfide bond sites VH (Cys44) and VL (Cys100) were constructed in variable domains (Fvs) of the human anti-glycoprotein antigen of the rabies virus (anti-GPRV), and the light chain variable (VL) and heavy chain variable (VH) fragments were linked using the heavy chain constant region 1 (CH1) of the human immunoglobulin (Ig) to successfully construct a 3-domain disulfide-stabilized fragment of variables (3d-dsFv). 3d-dsFv was mainly expressed as an inclusion body. After refolding by the conventional dilution method, 3d-dsFv was purified using a nickel-nitrilotriacetic acid (Ni-NTA) column. Enyzme-linked immunosorbent assay (ELISA) was used to determine the binding activity of 3d-dsFv to GPRV. Flow cytometry studies and rapid fluorescent focus inhibition test were used to evaluate the function of 3d-dsFv. The results showed that the stability of 3d-dsFv was improved notably in some aspects such as thermal kinetics, ability to withstand urea denaturation, etc. 3d-dsFv could bind specially to infective cells and the GPRV. The titration of 3d-dsFv to RV-CVS is 83.3 IU/mg, and it can easily reach 2.5IU/mL, which is the value suggested by the WHO as effective for neutralization titration of the rabies virus.     

狂犬病病毒糖蛋白重组人腺病毒的构建及免疫效果的初步研究

构建表达狂犬病病毒弱毒SRV9糖蛋白(GP)的重组人5型腺病毒,检测其对小鼠的免疫效果。将狂犬病病毒SRV9株GP基因的完整开放阅读框克隆到腺病毒表达系统中的穿梭质粒多克隆位点,构建重组穿梭质粒pac-Ad5CMV-Gs9,以罗氏转染液介导线性化骨架质粒和重组穿梭质粒共转染293AD细胞,细胞病变后取培养物进行PCR鉴定并电镜观察,在293AD细胞上测定病毒滴度。以106 TCID50重组腺病毒腹腔接种昆明小鼠,免疫后不同时段采尾静脉血通过荧光抗体病毒中和试验(FAVN)检测小鼠血清狂犬病中和抗体效价。正确构建重组穿梭质粒pacAd5CMV-Gs9;获得表达狂犬病病毒SRV9株GP蛋白的缺陷型重组人5型腺病毒;病毒滴度达到106 CFU/mL以上;腹腔接种小鼠14d后均产生了抗狂犬病中和抗体,有效保护率达90%。成功获得了表达狂犬病病毒GP基因的重组腺病毒,该腺病毒免疫小鼠可产生保护性中和抗体,为进一步开发新型兽用狂犬病疫苗奠定了物质基础。     

Identification of the human cytomegalovirus glycoprotein B gene and induction of neutralizing antibodies via its expression in recombinant vaccinia virus.

A human cytomegalovirus (HCMV) glycoprotein gene with homology to glycoprotein B (gB) of herpes simplex virus and Epstein-Barr virus and gpII of varicella zoster virus has been identified by nucleotide sequencing. The gene has been expressed in recombinant vaccinia virus and the gene product recognized by monoclonal antibodies and human immune sera. Rabbits immunized with the recombinant vaccinia virus produced antibodies that immunoprecipitate gB from HCMV-infected cells and neutralize HCMV infectivity in vitro. These data demonstrate a role for this protein in future HCMV vaccines.     

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。