Early diagnosis of congenital toxoplasmosis in newborn infants using IgG subclasses against two Toxoplasma gondii recombinant proteins

The aim of this work was to evaluate the utility of ELISA-based testing of total IgG (IgGt) antibodies and its subclasses (IgG1, IgG2, IgG3 and IgG4) against soluble (STAg) and recombinant (rSAG1 and rMIC3) antigens of Toxoplasma gondii for diagnosing congenital toxoplasmosis. Sera from 217 newborns initially testing positive for specific IgM in filter paper dried blood spots were tested for specific IgM and IgG by ELFA-VIDAS. Congenital toxoplasmosis was confirmed in 175 and ruled out in 42 infants. The validity of the ELISA tests was determined using the persistence of IgG antibodies (ELFA-VIDAS kit) at the end of 12 months, which is considered the reference test for the diagnosis of congenital toxoplasmosis. The frequency of positivity with IgGt against STAg, rSAG1 and rMIC3 was found in 97.2%, 96.3% and 80.2%, respectively, of the newborns with confirmed congenital toxoplasmosis. IgG1 reacted with all three antigens, while IgG3 and IgG4 reacted preferentially with rMIC3. Higher mean values of reactivity (sample optical density/cut-off) were found for all subclasses when using rMIC3. All of the antigens showed high sensitivity and low specificity in detecting anti-T. gondii IgGt and IgG1 and low sensitivity and high specificity in detecting IgG3 and IgG4. In conclusion, the combined detection of IgG antibody subclasses against recombinant toxoplasmic antigens may be useful for the early diagnosis of congenital toxoplasmosis.     

Profile of total IgG, IgG1, IgG2, IgG3 and IgG4 levels in sera of patients with paracoccidioidomycosis: treatment follow-up using Mexo and rPb27 as antigens in an ELISA

The levels of total of IgG, IgG1, IgG2, IgG3 and IgG4 were evaluated in 54 patients with chronic paracoccidioidomycosis (PCM) before, during and after treatment using an enzyme-linked immunosorbent assay with Mexo and recombinant Pb27 (rPb27) as the antigens. Mexo was effective in distinguishing PCM patients from individuals in the negative control group (NC) based on total IgG and rPb27 performed worse than Mexo when these two groups were compared. IgG1, IgG2, IgG3 and IgG4 could not be used to clearly distinguish PCM patients from those in the NC group using either antigen. There was no clear relationship between antibody levels and the period of treatment. The majority of patients presented with decreased antibody levels during treatment, with no statistically significant differences among the different periods of treatment. Only IgG4 presented a negative correlation between its levels and clinical improvement during treatment. In total, 65% of untreated PCM patients showed reactivity against IgG4 when the Mexo antigen was used and this reactivity decreased over the course of treatment. There was a tendency towards decreasing antibody levels during treatment, but these antibody levels did not necessarily clear after the treatment was stopped. Mexo was useful for PCM diagnosis using total IgG; however, more studies are necessary before this antigen can be used in measuring the levels of total IgG and its subclasses for monitoring patients during treatment.     

Differential binding of histidine-rich glycoprotein (HRG) to human IgG subclasses and IgG molecules containing kappa and lambda light chains.

In previous studies we showed that the plasma protein histidine-rich glycoprotein (HRG) binds strongly to pooled human IgG. In the present work myeloma proteins consisting of different human IgG subclasses were examined for their ability to interact with human HRG. Using an IAsys optical biosensor we found initially that IgG subclasses differ substantially in their affinity of interaction with HRG. However, the most striking finding was the observation that the kinetics of the HRG interaction was dramatically affected by whether the IgG subclasses contained the kappa or lambda light (L)-chains. Thus, the on-rate for the binding of HRG to the kappa L-chain containing IgG1 and IgG2 (IgG1kappa and IgG2kappa) was approximately 4- and approximately 10-fold faster than that for the binding of HRG to lambda L-chain containing IgG1 and IgG2 (IgG1lambda and IgG2lambda), respectively, with the dissociation constants (K(d)) in the range 3-5 nM and 112-189 nM for the kappa and lambda isoforms, respectively. In contrast, the on-rate for the binding of HRG to IgG3kappa and IgG4kappa was found to be 9- and 20-fold slower than that for the binding of HRG to IgG3lambda and IgG4lambda, respectively, with the K(d) in the range 147-268 nM and 96-109 nM for the kappa and lambda isoforms, respectively. The binding of HRG to immunoglobulins containing the kappa L-chain (particularly IgG1kappa) was generally potentiated in the presence of a physiological concentration (20 microM) of Zn(2+) (K(d) decreased to 0.60 +/- 0.01 for IgG1kappa), but Zn(2+) had no effect or slightly inhibited the binding of HRG to immobilized IgG subclasses possessing the lambda L-chain. Interestingly, HRG also bound differentially to Bence Jones (BJ) proteins containing kappa and lambda L-chains, with HRG having a 14-fold lower K(d) for BJkappa than for BJlambda when 20 microM Zn(2+) was present. HRG also bound to IgM (IgMkappa), but the affinity of this interaction (K(d) approximately 1.99 +/- 0.05 microM) was markedly lower than the interaction with IgG, and the affinity was actually decreased 4-fold in the presence of Zn(2+). The results demonstrate that both the heavy (H)- and L-chain type have a profound effect on the binding of HRG to different IgG subclasses and provide the first evidence of a functional difference between the kappa and lambda L-chains of immunoglobulins.     

Hyperacute rejection by anti-Gal IgG1, IgG2a, and IgG2b is dependent on complement and Fc-gamma receptors

We have previously reported that anti-Gal-alpha1,3Gal (Gal) IgG3 mAbs mediate a classical complement-dependent hyperacute rejection (HAR), while anti-Gal IgG1 mAbs mediate HAR that is dependent on complement, the Fc-gamma receptors FcgammaRII/III (CD32/CD16), and NK cells. IgG2a and IgG2b subclasses can activate complement and have FcgammaR binding properties in vitro. Whether these IgG subclasses can mediate HAR in vivo and the mechanisms by which they would do so are not known. In this study, we isolated spontaneous IgG switch mutants from an anti-Gal IgG1 hybridoma. In vitro complement-mediated hemolytic assays with mouse complement indicate that both anti-Gal IgG2a and IgG2b mAbs were more potent compared with the parent anti-Gal IgG1. In vivo administration of anti-Gal IgG2a and IgG2b mAbs into Gal-/- mice induced HAR of rat cardiac xenografts. HAR induced by anti-Gal IgG2a and IgG2b was dependent on complement activation and the presence of NK cells. Using FcgammaRIII-deficient (Gal-/-CD16-/-) recipients, we observed that HAR mediated by different anti-Gal IgG subclasses was variably dependent on FcgammaRIII, with IgG1>IgG2b>IgG2a=IgG3. Using FcgammaRI-deficient (Gal-/-CD64-/-) recipients, we observed that HAR mediated by anti-Gal IgG1, IgG2a, and IgG2b, but not by anti-Gal IgG3, was dependent on FcgammaRI. Collectively, these studies demonstrate the necessity and sufficiency of complement in IgG3-mediated HAR and the necessity of both complement and FcgammaR, especially FcgammaRI, in IgG1-, IgG2a-, and IgG2b-mediated HAR.     

Regulation of IgG1 and IgG2 subclass expression by adjuvant-activated splenic suppressor T cells

Spleen cells from mice immunized with different adjuvants are able to suppress secondary in vitro IgG plaque-forming cell (PFC) responses. The suppressive effect is mediated by Lyt-2-positive T cells. IgG subclasses are affected differentially depending on the number of T suppressor (Ts) cells added in the assays. At low Ts cell concentration IgG2a and IgG2b PFC responses are selectively inhibited. At higher Ts cell concentration IgG1 responses could also be completely inhibited, but IgA and IgM responses are not affected. Suppressor cells responsible for IgG1, IgG2a, and IgG2b suppression are never found in the draining lymph nodes of adjuvant-immunized animals.     

Molecular and functional characterization of cynomolgus monkey IgG subclasses

Studies for vaccine and human therapeutic Ab development in cynomolgus monkeys (cynos) are influenced by immune responses, with Ab responses playing a significant role in efficacy and immunogenicity. Understanding the nature of cyno humoral immune responses and characterizing the predominant cyno IgG types produced and the Fc-FcγR interactions could provide insight into the immunomodulatory effects of vaccines. Anti-drug Ab responses against human IgG therapeutic candidates in cynos may affect efficacy and safety assessments because of the formation of immune complexes. There is, however, limited information on the structure and function of cyno IgG subclasses and how they compare with human IgG subclasses in Fc-dependent effector functions. To analyze the functional nature of cyno IgG subclasses, we cloned four cyno IgG C regions by using their sequence similarity to other primate IgGs. The four clones, cyno (cy)IGG1, cyIGG2, cyIGG3, cyIGG4, were then used to construct chimeric Abs. The sequence features of cyno IgG subclasses were compared with those of rhesus monkey and human IgG. Our data show that rhesus monkey and cyno IgG C regions are generally highly conserved, with differences in the hinge and hinge-proximal CH2 regions. Fc-dependent effector functions of cyno IgG subclasses were assessed in vitro with a variety of binding and functional assays. Our findings demonstrate distinctive functional properties of cyno IgG subclasses. It is notable that human IgG1 was less potent than cyno IgG1 in cyno FcγR binding and effector functions, with the differences emphasizing the need to carefully interpret preclinical data obtained with human IgG1 therapeutics.     

双峰驼血清IgG亚型的分离纯化及多克隆抗体的制备

双峰驼IgG亚型包含IgG1、IgG2和IgG3,其中IgG2和IgG3为重链抗体,在结构上与IgG1存在显著差异。为获取双峰驼血清中的IgG1、IgG2和IgG3,并分析其抗原特异性和抗体特异性,本文交替使用Protein A和Protein G亲和层析柱,对其分离纯化,并通过聚丙烯酰胺凝胶电泳进行鉴定;之后分别制备兔抗双峰驼IgG1、IgG2和IgG3的多克隆抗体,通过ELISA对制备的多克隆抗体的效价进行测定;最后应用Western blot评估这三个亚型多克隆抗体的特异性,进而对双峰驼血清中IgG1、IgG2和IgG3的抗原特异性进行分析。结果表明,应用Protein A和Protein G亲和层析柱成功分离纯化出双峰驼血清中的IgG1、IgG2和IgG3;并制备兔抗双峰驼IgG1、IgG2和IgG3的多克隆抗体效价均在1∶10000以上,并且所获得的多克隆抗体分别与IgG1、IgG2和IgG3之间均存在交叉反应,但兔抗双峰驼IgG1多克隆抗体较其它两个亚型多克隆抗体特异性低。结果证明,双峰驼IgG1、IgG2和IgG3均具有良好的免疫原性,三者结构虽存在显著差异,但其抗原特性类似。     

Increased aggregation propensity of IgG2 subclass over IgG1: Role of conformational changes and covalent character in isolated aggregates

Aggregation of human therapeutic antibodies represents a significant hurdle to product development. In a test across multiple antibodies, it was observed that IgG1 antibodies aggregated less, on average, than IgG2 antibodies under physiological pH and mildly elevated temperature. This phenomenon was also observed for IgG1 and IgG2 subclasses of anti‐streptavidin, which shared 95% sequence identity but varied in interchain disulfide connectivity. To investigate the structural and covalent changes associated with greater aggregation in IgG2 subclasses, soluble aggregates from the two forms of anti‐streptavidin were isolated and characterized. Sedimentation velocity analytical ultracentrifugation (SV‐AUC) measurements confirmed that the aggregates were present in solution, and revealed that the IgG1 aggregate was composed of a predominant species, whereas the IgG2 aggregate was heterogeneous. Tertiary structural changes accompanied antibody aggregation as evidenced by greater ANS (8‐Anilino‐1‐naphthalene sulfonic acid) binding to the aggregates over monomer, and differences in disulfide character and tryptophan environments between monomer, oligomer and aggregate species, as observed by near‐UV circular dichroism (CD). Differences between subclasses were observed in the secondary structural changes that accompanied aggregation, particularly in the intermolecular β‐sheet and turn structures between the monomer and aggregate species. Free thiol determination showed ～2.4‐fold lower quantity of free cysteines in the IgG1 subclass, consistent with the 2.4‐fold reduction in aggregation of the IgG1 form when compared with IgG2 under these conditions. These observations suggested an important role for disulfide bond formation, as well as secondary and tertiary structural transitions, during antibody aggregation. Such degradations may be minimized using appropriate formulation conditions.     

Evaluation of production and characterization of monoclonal antibodies to human IgG of four subclasses

Human IgG of four subclasses, semi-purified from pooled human serum by a series of DEAE ion exchange and protein A affinity chromatographies, were used as immunogens and initial screening antigens to produce subclass-specific and -restricted monoclonal antibodies (McAbs). These McAbs were bound to CNBr-activated Sepharose 4B and utilized in immunoaffinity chromatography to prepare four polyclonal human IgG subclasses of satisfactory purities, which were then used as final screening antigens. Subclass-specific McAbs thus chosen were further evaluated for subclass- and especially allotype-specificity using a panel of monoclonal IgG myeloma proteins with representative Gm markers for each subclass in micro enzyme-linked immunosorbent assay (ELISA). A total of 10 clones of subclass-specific McAbs (one for anti-IgG1, three anti-IgG2, two anti-IgG3, four anti-IgG4) were established. Among them, IgG2-specific clones of HG2-30F and HG2-56F, IgG3-specific HG3-7C and HG3-32C, and IgG4-specific HG4-53G McAbs were superior to the corresponding specificity standard McAbs chosen by the Human Immunoglobulins Subcommittee of the WHO/International Union of Immunological Societies (IUIS) in 1985. As allotype-specific McAbs, HG1-1E for G1m(az) and HG3-3B for G3m(b) were obtained. In micro ELISA of this study as well as all protocols of the previous WHO/IUIS collaborative study, antigens (myeloma IgG subclasses) were immobilized or fixed to a solid phase, resulting in possible variations in their epitope expressions. We developed a new assay system, micro radioimmunoassay (RIA), in which reactivities of McAbs against free IgG subclasses in solution can be evaluated. HG2-30F, having extremely high reactivities to coated IgG2 in micro ELISA, remarkably reduced its reactivities to free IgG2 in solution in micro RIA. Two other clones also showed some different reactivities in micro RIA and micro ELISA. We believe that this micro RIA is valuable for evaluation of McAbs reactivities against native human IgG subclasses in solution.     

Subclasses of human IgG. I. Production of antisera to IgG subclasses]

Guinea pigs were used for preparing antisera to human IgG subclasses for anti-IgG1, and rabbits--for anti-IgG2, anti-IgG3, and anti-IgG4. Schemes of laboratory animals immunization with myeloma paraproteins of four IgG subclasses were determined. Methods of antisera absorption for bringing them up to strict monospecificity were worked out. Antisera specificity were determined by the precipitation test after Ouchterlony with standard myeloma proteins in the concentration of 1 mg/ml, and in the passive hemagglutination test with erythrocytic antigenic diagnostic agents. Precipitating antisera to four human IgG subclasses were obtained.     

Detection of a monoclonal human myeloma protein of IgM and IgG class by carp anti-idiotypic sera

In the Patient St. with a Morbus Waldenstr?m macroglobulinemia a double paraproteinemia could be detected. Besides the IgM myeloma protein an IgG myeloma protein was identified during the clinical course. A strong cross reactivity between the IgM and the IgG myeloma proteins was shown using anti-idiotypic antisera. This is an indirect indication for a common precursor cell clone of the IgM- and IgG-myeloma protein producing cells. The anti-idiotypic antisera were made in carp. The high specificity of these antisera could be confirmed by inhibition assays. The double paraproteinemia has been proved to be convenient model for testing the idiotypic specificity of anti-Id antisera of carp.     

Engineering a human IgG2 antibody stable at low pH

IgG2 subclass antibodies have unique properties that include low effector function and a rigid hinge region. Although some IgG2 subclasses have been clinically tested and approved for therapeutic use, they have a higher propensity than IgG1 for aggregation, which can curtail or abolish their biological activity and enhance their immunogenicity. In this regard, acid‐induced aggregation of monoclonal antibodies during purification and virus inactivation must be prevented. In the present study, we replaced the constant domain of IgG2 with that of IgG1, using anti‐2,4‐dinitrophenol (DNP) IgG2 as a model antibody, and investigated whether that would confer greater stability. While the anti‐DNP IgG2 antibody showed significant aggregation at low pH, this was reduced for the IgG2 antibody containing the IgG1 CH2 domain. Substituting three amino acids within the CH2 domain—namely, F300Y, V309L, and T339A (IgG2_YLA)—reduced aggregation at low pH and increased CH2 transition temperature, as determined by differential scanning calorimetric analysis. IgG2_YLA exhibited similar antigen‐binding capacity to IgG2, low affinity for FcγRIIIa, and low binding ability to C1q. The same YLA substitution also reduced the aggregation of panitumumab, another IgG2 antibody, at low pH. Our engineered human IgG2 antibody showed reduced aggregation during bioprocessing and provides a basis for designing improved IgG2 antibodies for therapeutic applications.     

Separation and purification of IgG1 and IgG2 from IgG-Cohn-II fraction of human plasma by pseudobioaffinity chromatography on histidyl-AH-sepharose.

L-histidine coupled to aminohexyl-sepharose (H-AH) has been used as an affinity sorbent to separate IgG from human plasma. Two subclasses IgG1 and IgG2 were specifically bound to histidyl-AH-sepharose at pH 7.4 and eluted using 0.2 M and 1M NaCl. The specificity of the two subclasses were determined by immunoelectrophoresis. Quantitative determination of IgG1, IgG2 was carried out using radial immunodiffusion technique.     

Neutralization of sendai virus by the IgG subclass antibodies of the guinea pig

A comparative study was made of the neutralizing activities of IgG subclasses IgG1 and IgG2, fractionated from guinea pig antisera against Sendai virus. The yields of IgG2 from the antisera were about 16 times as much as those of IgG1. The neutralizing activity of IgG2 per unit weight was four times as high as that of IgG1. This neutralizing activity of both IgG subclasses was enhanced about 10 times by addition of antibodies to the L-chain of guinea pig immunoglobulin. It is suggested that, in the complement-dependent neutralization of the virus, IgG1 and IgG2 activate the complement through the alternative and the classical pathway, respectively.     

IgG subclass alterations in adult asthma.

Immunoglobulin levels were measured in serum samples of 12 black adult non-smoking asthmatic patients, 11 females and 1 male, and compared with 15 age-, sex-matched normal controls. Their total IgG, IgA and IgM levels were within the normal range. However, on quantitation of subclasses, IgG1 levels were significantly above normal, while IgG2 and IgG3 levels were significantly lower than those of controls. No significant differences were found between the two groups when IgG4 levels were compared. These studies as well as those of others suggest that immunoglobulin administration, particularly of individual subclasses, might prove to be a beneficial addition in the management of this condition.     

Kinetic analysis of the binding of immunoglobulins IgG1 and IgG2 to bovine mammary cells

Previous reports were confirmed that specific binding sites exist on bovine mammary cells near parturition presumably involved in the transfer of immunoglobulins IgG1 and IgG2 across the mammary gland at the time of colostrum formation. Determination of the kinetic parameters of these binding sites using ¹²⁵I-labeled IgG1 and IgG2 immunoglobulins indicated the presence of sites with association constants (K_a) of about 5 · 10⁸?10 · 10⁸ M^?1 for both subclasses during normal lactation with about 9000 and 3000 sites per cell for each, respectively. The number of IgG1 sites tended to increase as the time of parturition approached. In addition, a new group of sites numbering about 5000 per cell with very strong binding of IgG1 (K_a about 45 · 10⁸ M^?1) appeared on the cells about a week before parturition. The numbers and affinity of the IgG1 and IgG2 binding sites bear a relationship to the approximate 7:1 ratio of these immunoglobulin subclasses found in colostrum and normal milk and to the time of maximum colostrum formation. The results support the premise that a highly selective transport mechanism exists in the bovine mammary epithelial cell for the transfer of IgG1 and IgG2 immunoglobulins from blood to the lacteal secretions.     

Fasciola hepatica: parasite-secreted proteinases degrade all human IgG subclasses: determination of the specific cleavage sites and identification of the immunoglobulin fragments produced

The study was focused on the relationship of Fasciola hepatica-secreted proteinases and human IgG subclasses. Each IgG was incubated at different pH values and lengths of time with either the adult parasite excretion-secretion products or the purified cysteinyl proteinases cathepsin L1 and cathepsin L2. The Ig fragments produced were isolated and characterized by Western blot analysis, and the specific cleavage sites were determined by amino acid sequence analysis. Parasite excretion-secretion products and both cathepsins L produced similar degradation patterns and cleaved all human IgG subclasses at the hinge region, yielding at pH 7.3 and 37 degrees C Fab and Fc fragments in the case of IgG1 and IgG3 or Fab(2) and Fc in IgG2 and IgG4. While IgG1 and IgG3 were readily degraded by E/S products either in the presence or in the absence of reducing agents, IgG2 and IgG4 were resistant to proteolysis and were only digested in the presence of 0.1 M dithiothreitol. The cathepsins L needed the presence of dithiothreitol to digest IgG1, IgG2, and IgG4 whereas IgG3 was identically cleaved under both reducing and nonreducing conditions. The main cleavage sites produced by E/S products, CL1, or CL2 were located at the positions peptide bonds: His237-Thr238, Glu237-Cys239, Gly233-Asp234, and Ser241-Cys242 for gamma1, gamma2, gamma3, or gamma4, respectively. The enzymes gave additional splitting sites on the middle hinge of IgG3 to produce shorter Fc fragments and also produce Fd degradation of the IgG4. No cleavage specificity differences were found between CL1 and CL2, but they differed in the kinetics of IgG3 degradation. By lowering the pH, only the E/S products produced concomitant destruction of the Fc while preserving the Fab portion. Under all the conditions assayed the enzymes produced an Fc'-like fragment of 14-15 kDa corresponding to the whole CH3 domain of the immunoglobulin. Contrary to the extensive degradation produced by cathepsins on digested proteins, its actions on IgG subclasses were specific and restricted; thus, all the fragments produced could be potentially involved in the mechanisms used by the parasite to evade the host immune response.     

Inhibitors to factor IX contain all IgG subclasses except IgG3.

Five per cent of patients with haemophilia B develop inhibitors to factor IX. It is of interest to know the immunoglobulin subclass of these IgG antibodies. We have developed a sensitive method for the characterization of the subclass nature of inhibitors to factor IX. The technique is a crossed immunoelectrophoresis for the isolation of factor IX-inhibitor complexes followed by an enzyme-linked immunoassay using monoclonal antibodies to IgG subclasses for the subclass identification. We studied seven inhibitors with both low and high titres. One patient was studied at a very early stage of inhibitor development. All inhibitors gave a strong reaction with antibody to IgG4. Depending on the titre of the inhibitor, a reaction was also found with antibodies to IgG1 and IgG2. No inhibitor contained any detectable IgG3. IgG4 does not bind complement and it is therefore of importance that IgG4 is the main subclass both in high-titred and in low-titred inhibitors. The inhibitors are polyclonal antibodies, also at an early stage of inhibitor development.     

Differential contribution of three activating IgG Fc receptors (FcgammaRI, FcgammaRIII, and FcgammaRIV) to IgG2a- and IgG2b-induced autoimmune hemolytic anemia in mice

Murine phagocytes express three different activating IgG FcgammaR: FcgammaRI is specific for IgG2a; FcgammaRIII for IgG1, IgG2a, and IgG2b; and FcgammaRIV for IgG2a and IgG2b. Although the role of FcgammaRIII in IgG1 and IgG2a anti-RBC-induced autoimmune hemolytic anemia (AIHA) is well documented, the contribution of FcgammaRI and FcgammaRIV to the development of IgG2a- and IgG2b-induced anemia has not yet been defined. In the present study, using mice deficient in FcgammaRI, FcgammaRIII, and C3, in combination with an FcgammaRIV-blocking mAb, we assessed the respective roles of these three FcgammaR in the development of mild and severe AIHA induced by two different doses (50 and 200 microg) of the IgG2a and IgG2b subclasses of the 34-3C anti-RBC monoclonal autoantibody. We observed that the development of mild anemia induced by a low dose of 34-3C IgG2a autoantibody was highly dependent on FcgammaRIII, while FcgammaRI and FcgammaRIV additionally contributed to the development of severe anemia induced by a high dose of this subclass. In contrast, the development of both mild and severe anemia induced by 34-3C IgG2b was dependent on FcgammaRIII and FcgammaRIV. Our results indicate differential roles of the three activating FcgammaR in IgG2a- and IgG2b-mediated AIHA.     

The Fab Conformations in the Solution Structure of Human Immunoglobulin G4 (IgG4) Restrict Access to Its Fc Region: IMPLICATIONS FOR FUNCTIONAL ACTIVITY*

Human IgG4 antibody shows therapeutically useful properties compared with the IgG1, IgG2, and IgG3 subclasses. Thus IgG4 does not activate complement and shows conformational variability. These properties are attributable to its hinge region, which is the shortest of the four IgG subclasses. Using high throughput scattering methods, we studied the solution structure of wild-type IgG4(Ser²²²) and a hinge mutant IgG4(Pro²²²) in different buffers and temperatures where the proline substitution suppresses the formation of half-antibody. Analytical ultracentrifugation showed that both IgG4 forms were principally monomeric with sedimentation coefficients s_20,w⁰ of 6.6–6.8 S. A monomer-dimer equilibrium was observed in heavy water buffer at low temperature. Scattering showed that the x-ray radius of gyration R_g was unchanged with concentration in 50–250 mm NaCl buffers, whereas the neutron R_g values showed a concentration-dependent increase as the temperature decreased in heavy water buffers. The distance distribution curves (P(r)) revealed two peaks, M1 and M2, that shifted below 2 mg/ml to indicate concentration-dependent IgG4 structures in addition to IgG4 dimer formation at high concentration in heavy water. Constrained x-ray and neutron scattering modeling revealed asymmetric solution structures for IgG4(Ser²²²) with extended hinge structures. The IgG4(Pro²²²) structure was similar. Both IgG4 structures showed that their Fab regions were positioned close enough to the Fc region to restrict C1q binding. Our new molecular models for IgG4 explain its inability to activate complement and clarify aspects of its stability and function for therapeutic applications.