Receptor aggregation is necessary for activation of the soluble insulin receptor kinase

Purified polyclonal human antibodies (B-8) against the receptor for insulin (anti-R IgG), and their F(ab')2 and Fab' fragments, were used to study a possible role of receptor aggregation in the process that couples insulin binding with the activation of the insulin receptor kinase. Anti-R IgG, F(ab')2, and Fab' fragments were shown to inhibit insulin binding to solubilized partially purified receptor preparations from rat liver. This suggests that the antibodies and fragments bind near or at the insulin-binding site. Only anti-R IgG and its bivalent F(ab')2 fragments were capable of stimulating the receptor kinase activity. Monovalent Fab' fragments were completely devoid of such activity. Cross-linking of anti-R Fab' with goat anti-human Fab' restored the capability of the Fab' fragments to activate the receptor kinase. These data strongly suggest that receptor cross-linking or aggregation constitutes a sufficient trigger to activate the insulin-receptor kinase and could, therefore, be an important step in the transmembrane signaling process. This step presumably precedes the activation of the receptor kinase and the resulting phosphorylation of its protein substrates.     

Purification of recombinant chimeric B72.3 Fab' and F(ab')2 using streptococcal protein G.

Streptococcal protein G has been used extensively for the purification of antibodies using the interaction of the Fc region with protein G. Many antibodies also interact with protein G through a low-affinity binding site for the Fab region. The exploitation of this low-affinity interaction for the purification of Fab' fragments is described here. Chimeric mouse-human B72.3 Fab' and F(ab')2 fragments were expressed by CHO cells and purified from CHO cell supernatant using protein G-Sepharose. Since chimeric B72.3 Fab' bound weakly to the protein G-Sepharose it could be separated from F(ab')2 and eluted with a pH 7 wash whereas B72.3 F(ab')2 required elution at pH 2. Both Fab' and F(ab')2 were recovered with full immunoreactivity and could be further purified using gel-filtration chromatography to greater than 99% purity. This method allows the simple purification of directly expressed Fab' or F(ab')2 fragments from CHO cell supernatant.     

Asymmetrically glycosylated IgG isolated from non-immune human sera

When human IgG or its F(ab')2 fragment purified from a pool of non-immune sera was passed through a Con A-Sepharose column, 12% of the molecules bound to concanavalin A. While 44% of Fab' and 72% of Fd' fragments obtained from F(ab')2 retained by concanavalin A and eluted with methyl alpha-D-mannoside bound to concanavalin A, the Fab' and Fd' fragments obtained from non-retained F(ab')2 and the L chains and Fc fragments did not interact with the lectin. Only Fd' fragment obtained from the F(ab')2 retained by concanavalin A inhibited the fixation of guinea-pig erythrocytes to concanavalin A. These results are similar to those previously observed for IgG antibodies of different animal species and indicate that partial asymmetric glycosylation is a general phenomenon that is not restricted exclusively to IgG molecules with known specificity.     

Pepsin digestion of a mouse monoclonal antibody of IgG1 class formed F(ab')(2) fragments in which the light chains as well as the heavy chains were truncated

In the preparation of F(ab')(2) fragments of monoclonal antibodies (mAbs) of IgG class, heavy (H) chains are truncated by pepsin and light (L) chains are remained intact. However, F(ab')(2) fragments formed by pepsin-digestion of a mouse mAb PM373, which was of the IgG1 class and raised against human prostate specific antigen (PSA), indicated that the L chains of 31 kDa were cleaved into 23-kDa fragments as well as the cleavage of H chains of 50 kDa into 28-kDa fragments. On the other hand, F(ab')(2) fragments formed by digesting the mAb by cathepsin D showed that the L chains were intact and the H chains were truncated. The immunoreactivities against PSA of the F(ab')(2) fragments containing the intact L chains and those containing the truncated L chains were almost the same as that of the parental mAb, suggesting that the truncation of the L chains does not affect the interaction of the mAb with its specific antigen.     

Triggering of histamine release from rat mast cells by divalent antibodies against IgE-receptors.

Antibodies against receptor molecules for IgE on rat basophilic leukemic (RBL) cells were prepared by immunization of a rabbit with immune precipitates composed of IgE-receptor complexes and anti-IgE. Antibodies against cell surface components were specifically purified by using RBL cells and rendered specific for mast cells by appropriate absorption. The major antibodies in the final preparation (anti-RBL) were directed against receptor molecules. It was found that the F(ab')2 fragments of anti-RBL induced histamine release from rat mast cells and caused immediate skin reactions in normal rats. These reactions by anti-RBL or its F(ab')2 fragments were inhibited if the receptors on mast cells had been saturated with IgE. The Fab' fragments of anti-RBL could bind with receptors on RBL cells and blocked passive sensitization of mast cells with IgE antibodies, but failed to induce skin reactions and histamine release from normal mast cells. Sensitization of normal rat skin with the Fab' fragment followed by an i.v. injection of anti-rabbit IgG induced skin reactions. The results indicated that bridging of receptor molecules by divalent anti-receptor antibody triggered mast cells for histamine release.     

Pretargeting for cancer radioimmunotherapy with bispecific antibodies: role of the bispecific antibody's valency for the tumor target antigen

The use of a divalent effector molecule improves bispecific antibody (bsMAb) pretargeting by enabling the cross-linking of monovalently bound bsMAb on the cell surface, thereby increasing the functional affinity of a bsMAb. In this work, it was determined if a bsMAb with divalency for the primary target antigen would improve bsMAb pretargeting of a divalent hapten. The pretargeting of a (99m)Tc-labeled divalent DTPA-peptide, IMP-192, using a bsMAb prepared by chemically coupling two Fab' fragments, one with monovalent specificity to the primary target antigen, carcinoembryonic antigen (CEA), and to indium-loaded DTPA [DTPA(In)], was compared to two other bsMAbs, both with divalency to CEA. One conjugate used the whole anti-CEA IgG, while the other used the anti-CEA F(ab')(2) fragment to make bsMAbs that had divalency to CEA, but with different molecular weights to affect their pharmacokinetic behavior. The rate of bsMAb blood clearance was a function of molecular weight (IgG x Fab' < F(ab')(2) x Fab' < Fab' x Fab' conjugate). The IgG x Fab' bsMAb conjugate had the highest uptake and longest retention in the tumor. However, when used for pretargeting, the F(ab')(2) x Fab' conjugate allowed for superior tumor accretion of the (99m)Tc-IMP-192 peptide, because its more rapid clearance from the blood enabled early intervention with the radiolabeled peptide when tumor uptake of the bsMAb was at its peak. Excellent peptide targeting was also seen with the Fab' x Fab' conjugate, albeit tumor uptake was lower than with the F(ab')(2) x Fab' conjugate. Because the IgG x Fab' bsMAb cleared from the blood so slowly, when the peptide was given at the time of its maximum tumor accretion, the peptide was captured predominantly by the bsMAb in the blood. Several strategies were explored to reduce the IgG x Fab' bsMAb remaining in the blood to take advantage of its 3-4-fold higher tumor accretion than the other bsMAb conjugates. A number of agents were tested, including those that could clear the bsMAb from the blood (e.g., galactosylated or nongalactosylated anti-id antibody) and those that could block the anti-DTPA(In) binding arm [e.g., DTPA(In), divalent-DTPA(In) peptide, and DTPA coupled to bovine serum albumin (BSA) or IgG]. When clearing agents were given 65 h after the IgG x Fab' conjugate (time of maximum tumor accretion for this bsMAb), (99m)Tc-IMP-192 levels in the blood were significantly reduced, but a majority of the peptide localized in the liver. Increasing the interval between the clearing agent and the time the peptide was given to allow for further processing of the bsMAb-clearing agent complex did not improve targeting. At the dose and level of substitution tested, galacosylated BSA-DTPA(In) was cleared too quickly to be an effective blocking agent, but BSA- and IgG-DTPA(In) conjugates were able to reduce the uptake of the (99m)Tc-IMP-192 in the blood and liver. Tumor/nontumor ratios compared favorably for the radiolabeled peptide using the IgG x Fab'/blocking agent combination and the F(ab')(2) x Fab' (no clearing/blocking agent), and peptide uptake 3 h after the blocking agent even exceeded that of the F(ab')(2) x Fab'. However, this higher level of peptide in the tumor was not sustained over 24 h, and actually decreased to levels lower than that seen with the F(ab')(2) x Fab' by this time. These results demonstrate that divalency of a bsMAb to its primary target antigen can lead to higher tumor accretion by a pretargeted divalent peptide, but that the pharmacokinetic behavior of the bsMAb also needs to be optimized to allow for its clearance from the blood. Otherwise, blocking agents will need to be developed to reduce unwanted peptide uptake in normal tissues.     

Neutralizing activities of early and late IgG fragments from rabbits immunized with herpes simplex virus.

Rabbits immunized with herpes virus were bled periodically and bivalent and univalent fragments of IgG from each serum sample were prepared by enzymatic digestion. The 2-week F(ab')2 showed a low neutralizing activity only after addition of anti-IgG. F(ab')2 of the 4-week serum retained almost all of the neutralizing activity of IgG, while its univalent fragments demonstrated none even when tested with anti-IgG. In contrast to these early IgG fragments, univalent fragments of the 9-week and 20-week IgG neutralized the virus to considerable extents in the absence of anti-IgG; after addition of anti-IgG the activity equaled that of intact IgG in the cases of Fab' and Fab-II, though the activity of Fab-I was relatively low. Three three univalent fragments were all sensitive to heating at 70 C and to ultraviolet irradiation, whereas intact IgG resisted these treatments. F(ab')2 was resistant to the heating and less sensitive to ultraviolet irradiation than univalent fragments. Neutralization kinetic curve experiments to test blocking effects of IgG fragments against the neutralization by intact IgG suggested that the early Fab' did combine with the virus and that the late Fab' exerted a higher blocking effect than the early Fab'.     

Preparation and performance of bispecific F(ab' gamma)2 antibody containing thioether-linked Fab' gamma fragments

A simple and efficient method is described for the production of pure bispecific F(ab' gamma)2 heterodimers, in which the individual antibody Fab' gamma fragments are joined via a stable thioether linkage. Hybrid molecules were constructed from both mouse monoclonal and rabbit polyclonal antibodies with equal efficiency, in the combinations mouse-rabbit and mouse-mouse. Peptic F(ab' gamma)2 fragments from the two chosen antibodies were first reduced to provide Fab' gamma SH. The SH groups on one of the Fab' gamma SH partners were then fully alkylated with o-phenylenedi-maleimide to provide free maleimide groups. Finally the two preparations, Fab' gamma mal and Fab' gamma SH, combined under conditions which allowed cross-linking of the maleimide and SH groups and avoided reoxidation of SH groups. The major product isolated from the reaction mixture after chromatography was always the F(ab' gamma)2 heterodimer (50 to 70%), other products being unreacted Fab' gamma and trace amounts of putative F(ab' gamma)3. Immunochemical analysis revealed that the thioether-linked F(ab' gamma)2 molecules were essentially all heterodimers, most of which had been joined via their Fd chains. The dual specificity of F(ab' gamma)2 heterodimers was tested functionally in three systems: 1) the combination (anti-idiotype + anti-phycoerythrin) linked L2C cells to the fluorochrome phycoerythrin, allowing fluorescence analysis; 2) the combination (anti-idiotype + anti-saporin) linked L2C cells to the ribosome-inactivating protein saporin, and transformed a subtoxic dose of saporin into a highly toxic mixture which prevented further protein synthesis by L2C cells; and 3) the combination of anti-idiotype with 3G8 (antibody to the Fc gamma receptor CD16) subjected L2C cells to cytotoxic attack by human mononuclear effectors.     

The role of A-cells in affecting the immunostimulating effect of F(ab')2-fragments

The immunoregulatory effect of F(ab')2 fragments on normal rabbit IgG and that preincubated with A-cells from spleen have been compared. Both products were tested for their ability to enhance primary immune response of rabbit spleen cells to SRBC. It was demonstrated that low molecular mass product appeared after F(ab')2 fragments incubation with A-cells at 37 degrees C and possessed immunostimulating activity similar to that of initial F(ab')2 fragments. In addition, it was shown that F(ab')2 reduction to monovalent Fab' fragment with the following alkylation of SH-group abolished the ability of Fab' fragment to enhance the immune response. It may signify that half cystein Fab' fragment residue is essential for processing of the fragment in A-cells and (or) for immune response enhancement.     

Thioether-bonded constructs of Fab'gamma and Fc gamma modules utilizing differential reduction of interchain disulfide bonds

We describe a two-stage preparation of chemically engineered Ab constructs, employing as modules Fab'gamma from mAb or rAb, and Fc from human normal IgG1. A multivalent, optionally multispecific F(ab')(n) core is formed in stage one, and one or more Fc modules added in stage two. Examples include bispecific Fab(2)Fc(2) (for simplicity, primes and Greek letters are omitted from names of final constructs) and trivalent Fab(3)Fc(2), which are designed to kill neoplastic cells. An essential element in the construction is the availability of the Fab' in two reduced forms, Fab'(-sulfhydryl (SH))(5) and Fab'-SH. The first is obtained by full reduction of the interchain disulfide bonds (SS) in the F(ab')(2) fragment of IgG. Fab'-SH is obtained by disulfide-interchange reactions on Fab'(-SH)(5), whereby the gamma-light SS is reconstituted, an unusual intrachain SS forms in the gamma-chain hinge, and one hinge SH remains. F(ab')(2) and F(ab')(3) cores are built using partially reduced modules, being given intermodular thioether links that resist reduction. These cores are then fully reduced, making available SH groups for addition of the Fcgamma modules. In the final constructs, all intermodular links embody tandem thioether bonds arising at hinge-region cysteines. Cytotoxic activities of representative constructs, and some enhancements deriving from multiple modules, are assessed. In guinea pigs, catabolism of Fab(2)Fc(2) yielded a t(1/2) similar to that of human IgG1, although the serum Fab(2)Fc(2) revealed some proteolytic breakdown not shown by the IgG1. Immunotherapy of a guinea-pig leukemia confirmed the ability of these constructs to kill target cells in vivo.     

Characterization of primate antibody responses to administered murine monoclonal immunoglobulin

Murine monoclonal antibodies (MAb) are currently being assessed for their utility as tools in cancer management. Anti-murine immunoglobulin responses have been observed in many patients receiving monoclonal antibody treatment. In this study, we evaluated the response of primates to the administration of a monoclonal antibody. MAb B6.2, an antibody generated against a human breast tumor metastasis, was used as a prototype MAb. Baboons were inoculated with MAb B6.2 whole IgG, Fab', or F(ab')2 fragments. Blood samples were drawn at periodic intervals post-inoculation and the sera collected. Anti-murine immunoglobulin responses were detected using a solid-phase radioimmunoassay. The specificity of the antibody response was analyzed to determine if the response was directed against the species of origin of the MAb (species specificity), against the class of the MAb (isotype specificity), or against the hypervariable region of the MAb (idiotype specificity). We found that primates develop a humoral immune response against all three forms of the monoclonal antibody [IgG, Fab', and F(ab')2]. Furthermore, this antibody response demonstrated a high degree of specificity for the antigen binding site suggesting an idiotypic specificity. Using a competitive radioimmunoassay, the antibody response was found to interfere with antigen binding of MAb B6.2. These studies suggest that monoclonal antibody treatment can generate an anti-idiotypic response which may alter the efficacy of this mode of treatment.     

Single-step purification of pepsin-derived monoclonal antibody fragments from crude murine ascitic fluids by ceramic hydroxyapatite high-performance liquid chromatography

Ceramic hydroxyapatite (CHT) high-performance liquid chromatography (HPLC) is used to purify a variety of classes of monoclonal antibodies (mAbs) from crude murine ascites fluids. We report here that this method is also applicable for simple and efficient purification of many mAb fragments that are generated by pepsin treatment of crude ascites. F(ab')(2) fragments were quantitatively generated from IgG(1) mAbs in ascitic fluids by incubation with pepsin for 6 h at pH 3.9-4.1. Under the same conditions, pepsin also cleaved unwanted ascites components, such as albumin and transferrin to very low molecular weight polypeptides. The F(ab')(2) fragments, but not the low molecular weight products, selectively bound to and were eluted from the CHT column using a linear gradient of phosphate ion concentration over 15 min. The recovery of the F(ab')(2) fragments by CHT-HPLC was >90%. This method also allowed single-step purification of mAb fragments from distinct IgG subclasses (IgG(2a) and IgG(2b)) and IgM directly from crude digested ascitic samples. This CHT-HPLC method combined with direct pepsinolysis of murine ascites is a useful strategy for rapid purification and characterization of many types of mAb fragments.     

Defining the role of complement in experimental pemphigus vulgaris in mice

Parenteral passive transfer of human pemphigus vulgaris IgG (PV IgG) into neonatal mice reproduces the cutaneous disease. We used this model to study the role of complement in the development of acantholysis in three steps. Peptic F(ab')2 fragments were prepared from PV IgG and were injected into seven newborn mice, and all animals developed acantholytic skin blisters without local complement activation, as shown by direct immunofluorescence. These fragments were reduced and alkylated to produce Fab' fragments with equivalent in vitro binding activity. The monovalent fragments were given in an identical fashion to five littermates but failed to produce disease even though they were bound in the epidermis in vivo. Intact PV IgG was injected in 20 genetically C5-deficient neonates (B10-D2-OSN strain) and 20 control neonates (B10-D2-NSN, normal complementemic). Extensive blistering, with a positive Nikolsky sign, was produced in all 40 animals. PV IgG was given to 34 BALB/c neonates that were complement depleted by pretreatment with cobra venom factor (CoF) for 24 hr, and to 38 untreated neonates from the same litters. There was no difference in the disease produced after CoF treatment in animals that received high doses of PV IgG (5 to 15 mg/g/day). In animals receiving 2.5 mg PV IgG/g/day, blister formation was delayed and the final extent of the cutaneous lesions was less in CoF-treated mice (n = 12) than in normal complementemic controls (n = 12, p less than 0.02). These results show that complement activation is not an essential mechanism in PV IgG-induced acantholysis in vivo, but it does have an amplifying effect on the development of cutaneous lesions under certain conditions, and lesions can be induced in vivo by bivalent F(ab')2 fragments of PV IgG, but not by the monovalent Fab' fragments, suggesting that cross-linking of the cell surface antigen is an initiating signal in acantholysis.     

Immunization strategies to block the herpes simplex virus type 1 immunoglobulin G Fc receptor

Herpes simplex virus type 1 (HSV-1) glycoprotein gE functions as an immunoglobulin G (IgG) Fc receptor (FcgammaR) that promotes immune evasion. When an IgG antibody binds by the F(ab')(2) domain to an HSV antigen, the Fc domain of some of the same antibody molecules binds to the FcgammaR, which blocks Fc-mediated functions. gE is a type 1 membrane glycoprotein with a large ectodomain that is expressed on the virion envelope and infected-cell surface. Our goal was to determine if immunizing with gE protein fragments could produce antibodies that bind by the F(ab')(2) domain to gE and block the FcgammaR, as measured by competitively inhibiting nonimmune human IgG binding to the FcgammaR. Three gE peptides were constructed in baculovirus spanning almost the entire ectodomain and used to immunize mice and rabbits. Two fragments were highly effective at producing antibodies that bind by the F(ab')(2) domain and block the FcgammaR. The most potent of these two antibodies was far more effective at blocking the FcgammaR than antibodies that are only capable of binding by the Fc domains to the FcgammaR, including anti-gC, anti-gD, and nonimmune IgG. These results suggest that immunizing with gE fragments has potential for preventing immune evasion by blocking activities mediated by the HSV-1 FcgammaR.     

On the fragmentation of monoclonal IgG1, IgG2a, and IgG2b from BALB/c mice

Methods for the production and purification of F(ab')2 fragments from BALB/c monoclonal IgG1, IgG2a, and IgG2b with pepsin and other proteases were examined. The overall susceptibility to degradation is IgG2b greater than IgG2a greater than IgG1. Stable F(ab')2 can be produced in good yield from IgG1 with pepsin at pH 3.5 to 4.0 and can be made directly by pepsin treatment of ascites fluids or cell culture supernatants containing IgG1. IgG2a is cleaved in two steps by pepsin, first to F(ab')2 and then to Fab'. With carefully chosen conditions, F(ab')2 can be obtained in acceptable yield. The primary cleavage for the IgG2a heavy chain appears to be on the COOH terminal side of the interheavy chain disulfides, and secondary cleavage is on the NH2-terminal side. For IgG2b the reverse is true, and F(ab')2 has not been obtained in useful amounts; however, the primary cleavage of IgG2b appears to be assymetric with respect to the two heavy chains, and Fab/c fragments that have one Fab plus Fc can be made. Digestion with elastase resulted in the best yield of Fab/c. This finding may provide a method for retaining cytotoxicity in monoclonal antibodies against cell surface antigens while eliminating their capacity to modulate. The cleavage patterns of the three classes of IgG are rationalized in terms of the structure of their hinge regions.     

Purification of antibody and antibody-fragment from E. coli homogenate using 6,9-diamino-2-ethoxyacridine lactate as precipitation agent

To obtain a more efficient purification process for antibody fragments from an Escherichia coli homogenate, the precipitant, Ethodin (6,9-diamino-2-ethoxyacridine lactate) was introduced to the homogenate. By adding the precipitant a drastic reduction of host cell protein was obtained. The majority of the proteins were recovered in a precipitate with the cell debris, while the antibody or antibody-fragment was recovered in the clarified supernatant. In addition, DNA was also efficiently precipitated when using Ethodin as a precipitation agent. The improved purity of the clarified extract obtained by using the precipitant allows for the use of smaller chromatography columns and may reduce the number of chromatographic steps required in the recovery process. The effect of Ethodin concentration, pH, temperature, and conductivity were investigated. The investigation was performed on two different antibody-fragments, e.g., F(ab')(2) molecules and a full-length antibody produced in E. coli. The two F(ab')(2) proteins were F(ab')(2)A and F(ab')(2)B, which have a similar molecular mass (100 kDa) but different isoelectric points (pIs), i.e., 8.9 and 7.5, respectively. The full-length antibody, Ab (the full IgG form of F(ab')(2)B) has a pI of 7.8 and molecular mass of 150 kDa. The investigation showed that the highest purification factors were obtained at neutral pH, low conductivity, and Ethodin concentrations of 0.6%.     

F(ab')2 reagents are not required if goat, rather than rabbit, antibodies are used to detect human surface immunoglobulin.

The present report provides evidence that whole goat anti-human immunoglobulin, unlike similar reagents produced in the rabbit, binds both to the same number of and the same individual cells as the F(ab')2 fragments of rabbit or goat anti-human immunoglobulin. These results suggest that goat IgG has a lower affinity for the Fc receptors of human lymphocytes and monocytes than rabbit IgG. Because of this property, whole goat antibodies against human immunoglobulin can be used as simple, convenient relatively inexpensive reagents for the routine detection of immunoglobulin on cell surfaces by immunofluorescence microscopy. The preparation of F(ab')2 fragments of anti-immunoglobulin, which are necessary when rabbit antibodies are used, does not appear to -e required if goat antibodies can be empolyed. This observation has multiple practival applications in cellular immunology.     

小鼠抗天花粉蛋白IgE型单抗的酶解及其Fab的制备

研究了Ｐａｐａｉｎ及Ｔｒｙｐｓｉｎ裂解小鼠抗天花粉蛋白ＩｇＥ单抗的条件及Ｆａｂ的制备。Ｐａｐａｉｎ和Ｔｒｙｐｓｉｎ两者都可产生Ｆ（ａｂ′）_２,分子量在１５０～１６０ｋＤ左右;经Ｐａｐａｉｎ裂解的主要产物中还有Ｆａｂ,分子量７２ｋＤ,可通过凝胶过滤获得纯的Ｆａｂ。而Ｔｒｙｐｓｉｎ裂解物经ＤＴＴ还原、碘乙酰胺烷化虽然也可得到Ｆａｂ′（ｔ）,但不易纯化;可见,要制备Ｆａｂ以采用Ｐａｐａｉｎ裂解为好,而制备Ｆ（ａｂ′）_２则可采用Ｔｒｙｐｓｉｎ裂解。这二个酶的裂解速度是Ｔｒｙｐｓｉｎ大于Ｐａｐａｉｎ。     

Higher protective activity of Fab' fragment compared to F(ab')2 and IgG on experimental tetanus

Summary Horse sera containing anti-tetanus whole IgG molecules, bivalent F(ab')₂ fragments and monovalent Fab' fragments were injected in 24 groups of 10–20 mice to compare their protective activity. When tetanus was induced in the mice, either with toxin or with spore suspension ofClostridium tetani 24 or 32 h prior to the injection of the antitoxins, monovalent Fab' was significantly more efficient in conferring protection against tetanus than F(ab')₂ or IgG.

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Resumen Afín de comparar la actividad protectora frente al tétanos de moléculas de IgG enteras, fragmentos F(ab')₂ bivalentes y fragmentos Fab' monovalentes, se inyectaron, con suero de caballo que contenía las distintas moleculas, 24 grupos de 10 a 20 ratones. Se indujo el tétanos en los ratones 24 o 32 horas antes de la inoculación con antitoxinas, mediante la toxina o bien con una suspensión de esporas deClostridium tetani. El fragmento monovalente Fab' confirió una protección frente al tétanos significativamente mayor que F(ab')₂ y IgG.

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Résumé Des sera de cheval contenant soit des molécules d'IgG entier, des fragments bivalents F(ab')₂ ou des fragments monovalents Fab' ont été injectés dans 24 groupes de 10 à 20 souris afin de comparer leur activité protectrice. Lorsque le tétanos a été induit chez les souris, que ce fût avec la toxine ou avec une suspension de spores deClostridium tetani, 24 ou 32 heures avant l'injection des antitoxines, le fragment monovalent Fab' s'est révelé plus efficace de manière significative que le fragment F(ab')₂ ou l'IgG dans l'octroi de l'activité protectrice contre le tétanos.

     

Immunoglobulin G3 from polyclonal human immunodeficiency virus (HIV) immune globulin is more potent than other subclasses in neutralizing HIV type 1.

Passive antibody prophylaxis against human immunodeficiency virus type 1 (HIV-1) has been accomplished in primates, suggesting that this strategy may prove useful in humans. While antibody specificity is crucial for neutralization, other antibody characteristics, such as subclass, have not been explored. Our objective was to compare the efficiencies of immunoglobulin G (IgG) subclasses from polyclonal human HIV immune globulin (HIVIG) in the neutralization of HIV-1 strains differing in coreceptor tropism. IgG1, IgG2, and IgG3 were enriched from HIVIG by using protein A-Sepharose. All three subclasses bound major HIV-1 proteins, as shown by Western blot assay and enzyme-linked immunosorbent assay. In HIV-1 fusion assays using X4, R5, or X4R5 envelope-expressing effector cells, IgG3 more efficiently blocked fusion. In neutralization assays with cell-free viruses using X4 (LAI, IIIB), R5 (BaL), and X4R5 (DH123), a similar hierarchy of neutralization was found: IgG3 > IgG1 > IgG2. IgG3 has a longer, more flexible hinge region than the other subclasses. To test whether this is important, IgG1 and IgG3 were digested with pepsin to generate F(ab')(2) fragments or with papain to generate Fab fragments. IgG3 F(ab')(2) fragments were still more efficient in neutralization than F(ab')(2) of IgG1. However, Fab fragments of IgG3 and IgG1 demonstrated equivalent neutralization capacities and the IgG3 advantage was lost. These results suggest that the IgG3 hinge region confers enhanced HIV-neutralizing ability. Enrichment and stabilization of IgG3 may therefore lead to improved HIVIG preparations. The results of this study have implications for the improvement of passive immunization with polyclonal or monoclonal antibodies and suggest that HIV-1 vaccines which induce high-titer IgG3 responses could be advantageous.