A cross-reactive idiotype on anti-DNA antibodies defines a H chain determinant present almost exclusively on IgG antibodies

We have previously reported two anti-idiotypic antibodies, 3I and 8.12, that recognize L chain determinants on anti-DNA antibodies. We have generated a new anti-idiotypic antibody, F4, that recognizes a H chain determinant on cationic anti-DNA antibodies. F4 reactivity is present in high titer in serum of approximately 60% of SLE patients and on 84 of 706 myeloma proteins. It is preferentially associated with 3I reactive L chains. Furthermore, antibodies bearing both the F4 and 3I idiotypic determinants preferentially bind DNA. Amino acid sequencing of H chains isolated from four F4-reactive myeloma proteins suggests that they derive from two currently identified VH gene families. F4 reactivity is restricted almost exclusively to Ig of the IgG isotype suggesting that F4 may recognize either a somatically mutated hypervariable region or a variable region used late in the immune response. F4, therefore, represents a new idiotypic family preferentially associated with auto-Ag specificity and having features of an Ag-driven immune response.     

Monoclonal antibodies to streptococcal group A carbohydrate. I. A dominant idiotypic determinant is located on Vk

In an effort to better define the antibody repertoire to streptococcal group A carbohydrate (GAC), somatic cell hybrids were prepared from A/J mice immunized with streptococcal vaccine. Most antibodies were IgG3K and IgMK, while 2 of 26 antibodies were lambda type. Each of the IgG3 antibodies had a distinct isoelectric point consistent with previous estimates of clonal repertoires of approximately 200. IEF analysis of the L chains, however, showed that about half of the antibodies produce a common L chain, called VK1GAC, previously identified in A/J anti-GAC serum antibodies. Additional support for the structural similarity of these L chains was gained by developing an idiotype antiserum to VK1GAC. All proteins with the common L chain spectrotype react strongly with anti-VK1GAC. Thus, it appears that anti-GAC antibodies are composed of H chains bearing a few VH regions pairing with a few L chains.     

A view of the human idiotypic repertoire. Electron microscopic and immunologic analyses of spontaneous idiotype-anti-idiotype dimers in pooled human IgG

It has previously been reported that up to 40% of the molecules of human IgG from pooled plasma (100,000 donations) spontaneously dimerize, whereas IgG prepared from a single donor contains only trace quantities of dimer. We have conducted immunoelectron microscopic analyses on such samples and have verified that the majority of dimers are composed of complexes in which two arms of each molecule are bound in a reciprocal fashion at or near the distal tips of their respective arms as previously seen in bona fide Id-anti-Id complexes. A significant role for Fc was ruled out by showing the formation of dimeric ring structures in purified F(ab')2 samples. Spontaneous dimerization was also observed in pooled bovine or mouse IgG, but not in that from single animals. Radiolabeled monomeric, single donor human IgG was used as a probe to investigate dimer formation; this material readily codimerized with IgG from other donors or from pooled plasma (either human or bovine), but did not dimerize with IgG from the same donor. Subclass analysis of multiple donor human IgG revealed that the most flexible subclass (IgG3) was overrepresented in the dimer fraction, whereas one of the less flexible subclasses (IgG2) was underrepresented. Although IgG2 could dimerize to some extent with IgG of other subclasses, it could not self-dimerize. These data suggest that structural constraints (hinge flexibility) may play a role in limiting dimerization. This suspicion was confirmed by showing that an additional 15.5% of the monomeric IgG fraction from a multidonor sample could dimerize after a chemically induced increase in hinge flexibility. Our results are interpreted to show that, although the number of functionally distinct Id produced by a species is immense, it is nontheless finite. Moreover, the Id repertoire of an individual is much smaller than that of the species. Pooling the IgG from a number of individuals increases the Id diversity, which increases the chance that any given Id-bearing molecular will encounter a complementary partner.     

Structural studies on induced antibodies with defined idiotypic specificities. II. The light chains of anti-p-azophenylarsonate antibodies from A/J mice bearing a cross-reactive idiotype.

N-terminal amino acid sequence analyses have been performed on three preparations of light chains of A/J mice. Light chains derived from the IgG of unimmunized animals were compared to light chains of anti-p-azo-phenylarsonate (anti-Ar) antibodies possessing a cross-reacting idiotype (CRI); the latter were derived from the ascites fluid of a single A/J mouse, or from the pooled ascites fluids of 18 A/J mice. The heavy chains of these same two antibody preparations had previously been shown to comprise a single, homogeneous sequence to position 40. With few exceptions, the first 26 positions of light chains derived from unimmunized animals were extremely heterogeneous; the heterogeneity is comparable to that observed in a composite of sequence data on light chains of BALB/c myeloma proteins. Although the light chains obtained from anti-Ar antibodies possessing the CRI (whether from the pool of 18 A/J mice or from a single mouse) were more restricted in their sequence, at several positions as many as four alternative amino acids were detected. These studies indicate that an antibody population with defined idiotypic specificity, and very possibly identical heavy chain sequences, may contain at least four distinct light chains. The feasibility of structural studies on antibodies induced in individual mice is further demonstrated.     

Structural studies on induced antibodies with defined idiotypic specificities. I. The heavy chains of anti-p-azophenylarsonate antibodies from A/J mice bearing a cross-reactive idiotype.

Amino acid sequence analysis has been performed on three groups of heavy (H) chains of A/J mice. H chains derived from unimmunized animals were compared to anti-p-azophenylarsonate (anti-Ar) antibodies which were further subdivided into those possessing and those depleted of a cross-reacting idiotype (CRI). It was found that anti-Ar antibodies bearing the CRI are homogeneous through the first hypervariable region of the H chain. The same sequence was obtained for pooled antibody isolated from the ascites fluid of 18 A/J mice or from a single mouse. The H chains appear to belong to a minor V-H subgroup. In the first 30 positions Anti-Ar antibodies depleted of the CRI had the same sequence as those containing the CRI (with small amounts of heterogeneity at some positions), but contained a mixture of sequences in the first hypervariable region of the H chain. These studies indicate that antibodies with similar specificity and with identical framework sequences, but which differ in their hypervariable regions, contain different idiotypic determinants, and support the concept that the idiotypic determinants reside primarily within hypervariable regions.     

Idiotypic analysis of antibodies to hen egg-white lysozyme (HEL). III. Further studies on the idiotypic cross-reactivity among anti-HEL antibodies in mice

An isolated antibody preparation directed to the native hen egg-white lysozyme (HEL) from a single A/J mouse (#a-11), termed IDHELa-11, was inoculated into rabbits to produce anti-idiotypic sera (anti-Id). The antisera were extensively absorbed with normal A/J Ig to render then idiotype specific. Radioimmunoassay utilizing 125I-IdHELa-11 and the anti-ID sera (R103 and R104) was performed to examine the idiotypic cross-reactivity of the humoral immune response to HEL in various mouse strains and other animal species. Idiotypes shared by IdHELa-11 were detected in the sera of five mouse strains tested, but not in any of the examined sera of other animal species such as rats, goats, guinea pigs, or sheep, indicating the occurrence of species-specific cross-reactive idiotypes (CRI) of antibodies to HEL. Our experiments also suggested the presence of intrastrain CRI. The present experiments, along with our earlier results (15), suggest that idiotypic cross-reactivity among murine antibodies to HEL appears to be weak. Thus when R103 and R104 were the anti-Id sera used, the frequency of occurrence of CRI shared by IdHELa-11 in 5 micrograms of anti-HEL antibody in strain A mice was 74 ng and 111 ng; in other strains it was 25-44 ng and 60-98 ng, respectively.     

Production of IgG antibodies and enhanced response of nude mice to DNP-AE-dextran.

DNP-AE-dextran, prepared by the binding of DNP-epsilon-aminocaproyl residues to animoethylated dextran (predominantly alpha-1,6-linked), induced a T-independent anti-DNP antibody response in mice. However, certain differences were observed between the response to this antigen in normal andnude mice. Thus, the antibody titers of nu/nu mice from day 10 to 38 after immunization were significantly higher than those of nu/+ controls. Furthermore, DNP-AE-dextran induced a weak secondary response in nu/+ but not in nu/nu mice. For both thymusless and normal mice the production of IgG in addition to IgM antibodies to DNP-AE-dextran could be established. The former included antibodies of the IgG1 subclass which were considered to be particularly thymus dependent (1). The higher response of nu/nu mice was reflected mainly in the increased production of IgG antibodies. Under the influence of a graft-vs-host reaction, a 10-fold increase in antibody titers to DNP-AE-dextran was observed, due entirely to an enhanced IgG response.     

A DNA vaccine against chikungunya virus is protective in mice and induces neutralizing antibodies in mice and nonhuman primates

Chikungunya virus (CHIKV) is an emerging mosquito-borne alphavirus indigenous to tropical Africa and Asia. Acute illness is characterized by fever, arthralgias, conjunctivitis, rash, and sometimes arthritis. Relatively little is known about the antigenic targets for immunity, and no licensed vaccines or therapeutics are currently available for the pathogen. While the Aedes aegypti mosquito is its primary vector, recent evidence suggests that other carriers can transmit CHIKV thus raising concerns about its spread outside of natural endemic areas to new countries including the U.S. and Europe. Considering the potential for pandemic spread, understanding the development of immunity is paramount to the development of effective counter measures against CHIKV. In this study, we isolated a new CHIKV virus from an acutely infected human patient and developed a defined viral challenge stock in mice that allowed us to study viral pathogenesis and develop a viral neutralization assay. We then constructed a synthetic DNA vaccine delivered by in vivo electroporation (EP) that expresses a component of the CHIKV envelope glycoprotein and used this model to evaluate its efficacy. Vaccination induced robust antigen-specific cellular and humoral immune responses, which individually were capable of providing protection against CHIKV challenge in mice. Furthermore, vaccine studies in rhesus macaques demonstrated induction of nAb responses, which mimicked those induced in convalescent human patient sera. These data suggest a protective role for nAb against CHIKV disease and support further study of envelope-based CHIKV DNA vaccines.     

A small proportion of cationic antibodies in immune complexes is sufficient to mediate their deposition in glomeruli

Positively charged antibodies mediate enhanced deposition of circulating immune complexes at the glomerular basement membrane. The presented experiments demonstrate that when soluble immune complexes were prepared with a mixture of antibodies containing 10 to 25% cationic antibodies, then noncationic antibodies in the complexes were deposited in mouse glomeruli. One or two cationic antibodies in each immune complex sufficed for deposition of the complexes. Proof for this was obtained by two kinds of experiments. First, the injected immune complexes were prepared in Ag excess from mixtures of radiolabeled noncationic rabbit antibodies to human serum albumin (HSA) and unlabeled cationized rabbit antibodies to HSA, thus permitting the specific quantitation of the deposition of noncationic antibodies in glomeruli because of the presence of cationized antibodies within the same complexes. As a control experiment, immune complexes prepared only with noncationic antibodies resulted in very little deposition in kidneys over the same time period. Second, detection of the localization of the noncationic antibody in deposits in glomeruli by immunofluorescence microscopy was accomplished using immune complexes prepared with mixtures of noncationic goat antibodies to HSA and cationized rabbit antibodies to HSA. Thus, the synthesis of a small population of cationic antibodies during the immune response may lead to the formation of circulating immune complexes with enhanced propensity for deposition in glomeruli in patients with SLE or other immune complex diseases.     

TOR signaling is a determinant of cell survival in response to DNA damage

The conserved TOR (target of rapamycin) kinase is part of a TORC1 complex that regulates cellular responses to environmental stress, such as amino acid starvation and hypoxia. Dysregulation of Akt-TOR signaling has also been linked to the genesis of cancer, and thus, this pathway presents potential targets for cancer chemotherapeutics. Here we report that rapamycin-sensitive TORC1 signaling is required for the S-phase progression and viability of yeast cells in response to genotoxic stress. In the presence of the DNA-damaging agent methyl methanesulfonate (MMS), TOR-dependent cell survival required a functional S-phase checkpoint. Rapamycin inhibition of TORC1 signaling suppressed the Rad53 checkpoint-mediated induction of ribonucleotide reductase subunits Rnr1 and Rnr3, thereby abrogating MMS-induced mutagenesis and enhancing cell lethality. Moreover, cells deleted for RNR3 were hypersensitive to rapamycin plus MMS, providing the first demonstration that Rnr3 contributes to the survival of cells exposed to DNA damage. Our findings support a model whereby TORC1 acts as a survival pathway in response to genotoxic stress by maintaining the deoxynucleoside triphosphate pools necessary for error-prone translesion DNA polymerases. Thus, TOR-dependent cell survival in response to DNA-damaging agents coincides with increased mutation rates, which may contribute to the acquisition of chemotherapeutic drug resistance.     

Molecular modelling study of antigen binding to oxazolone-specific antibodies: the Ox1 idiotypic IgG and its mature variant with increased affinity to 2-phenyloxazolone

Structural models of the variable domains of the murine anti-2-phenyloxazolone IgG (Ox1 idiotype) and its somatic variant, which has higher affinity to the hapten 2-phenyloxazolone, were constructed by computer-aided model building using known structures of highly homologous immunoglobulins as templates. Molecular dynamics simulations were used to dock the hapten between the VL and VH domains. The hapten is predicted to bind to slightly different sites in the two models. Hypotheses concerning the role of a number of preferred mutations in anti-oxazolone variants are presented. These can be tested by mutagenesis and crystallography. In particular, the higher binding affinities of the different antibody variants are shown to correlate with better complementarity of electrostatics. The molecular dynamic simulations also suggest that two mobile tryptophans at the mouth of the pocket may play an important role in the binding of hapten.     

Failure of CD25+ T cells from lupus-prone mice to suppress lupus glomerulonephritis and sialoadenitis

The development of organ-specific autoimmune diseases in mice thymectomized on day 3 of life (d3tx mice) can be prevented by transferring CD4(+)CD25(+) T cells from syngeneic, normal adult mice. Using a d3tx model, we asked whether CD4(+)CD25(+) T cell deficiency contributes to glomerulonephritis (GN) in lupus-prone mice. New Zealand Mixed 2328 (NZM2328) mice spontaneously develop autoantibodies to dsDNA and female-dominant, fatal GN. After d3tx, both male and female NZM2328 mice developed 1) accelerated dsDNA autoantibody response, 2) early onset and severe proliferative GN with massive mesangial immune complexes, and 3) autoimmune disease of the thyroid, lacrimal gland, and salivary gland. The d3tx male mice also developed autoimmune prostatitis. The transfer of CD25(+) cells from 6-wk-old asymptomatic NZM2328 donors effectively suppressed dsDNA autoantibody and the development of autoimmune diseases, with the exception of proliferative lupus GN and sialoadenitis. This finding indicates that NZM2328 lupus mice have a selective deficiency in T cells that regulates the development of lupus GN and sialoadenitis. After d3tx, the proliferative GN of female mice progressed to fatal GN, but largely regressed in the male, thereby revealing a checkpoint in lupus GN progression that depends on gender.     

Inhibition of RNA synthesis by oxolinic acid is unrelated to average DNA supercoiling.

Oxolinic acid reduced RNA synthesis rates whether chromosome supercoiling decreased, increased, or remained unchanged. Thus, inhibition of RNA synthesis by oxolinic acid appears to involve factors other than average DNA supercoiling level. Coumermycin A1 caused RNA synthesis rates to increase or decrease roughly in parallel with DNA supercoiling.     

Escherichia coli DNA polymerase III is responsible for the high level of spontaneous mutations in mutT strains

Reactive oxygen species induce oxidative damage in DNA precursors, i.e. dNTPs, leading to point mutations upon incorporation. Escherichia coli mutT strains, deficient in the activity hydrolysing 8‐oxo‐7,8‐dihydro‐2′‐deoxyguanosine 5′‐triphosphate (8‐oxo‐dGTP), display more than a 100‐fold higher spontaneous mutation frequency over the wild‐type strain. 8‐oxo‐dGTP induces A to C transversions when misincorporated opposite template A. Here, we report that DNA pol III incorporates 8‐oxo‐dGTP ≈ 20 times more efficiently opposite template A compared with template C. Single, double or triple deletions of pol I, pol II, pol IV or pol V had modest effects on the mutT mutator phenotype. Only the deletion of all four polymerases led to a 70% reduction of the mutator phenotype. While pol III may account for nearly all 8‐oxo‐dGTP incorporation opposite template A, it only extends ≈ 30% of them, the remaining 70% being extended by the combined action of pol I, pol II, pol IV or pol V. The unique property of pol III, a C‐family DNA polymerase present only in eubacteria, to preferentially incorporate 8‐oxo‐dGTP opposite template A during replication might explain the high spontaneous mutation frequency in E. coli mutT compared with the mammalian counterparts lacking the 8‐oxo‐dGTP hydrolysing activities.     

Long-term clinical protection from falciparum malaria is strongly associated with IgG3 antibodies to merozoite surface protein 3

Background

Surrogate markers of protective immunity to malaria in humans are needed to rationalize malaria vaccine discovery and development. In an effort to identify such markers, and thereby provide a clue to the complex equation malaria vaccine development is facing, we investigated the relationship between protection acquired through exposure in the field with naturally occurring immune responses (i.e., induced by the parasite) to molecules that are considered as valuable vaccine candidates.

Methods and Findings

We analyzed, under comparative conditions, the antibody responses of each of six isotypes to five leading malaria vaccine candidates in relation to protection acquired by exposure to natural challenges in 217 of the 247 inhabitants of the African village of Dielmo, Senegal (96 children and 121 older adolescents and adults). The status of susceptibility or resistance to malaria was determined by active case detection performed daily by medical doctors over 6 y from a unique follow-up study of this village. Of the 30 immune responses measured, only one, antibodies of the IgG3 isotype directed to merozoite surface protein 3 (MSP3), was strongly associated with clinical protection against malaria in all age groups, i.e., independently of age. This immunological parameter had a higher statistical significance than the sickle cell trait, the strongest factor of protection known against Plasmodium falciparum. A single determination of antibody was significantly associated with the clinical outcome over six consecutive years in children submitted to massive natural parasite challenges by mosquitoes (over three parasite inoculations per week). Finally, the target epitopes of these antibodies were found to be fully conserved.

Conclusions

Since anti-MSP3 IgG3 antibodies can naturally develop along with protection against P. falciparum infection in young children, our results provide the encouraging indication that these antibodies should be possible to elicit by vaccination early in life. Since these antibodies have been found to achieve parasite killing under in vitro and in vivo conditions, and since they can be readily elicited by immunisation in naïve volunteers, our immunoepidemiological findings support the further development of MSP3-based vaccine formulations.     

Microglial cell line established from prion protein-overexpressing mice is susceptible to various murine prion strains

Several lines of evidence suggest that microglia have important roles in the pathogenesis of prion diseases. Here, we establish a novel microglial cell line (MG20) from neonatal tga20 mice that overexpress murine prion protein. After exposure to Chandler scrapie, we observed the replication and accumulation of disease-associated forms of the prion protein in MG20 cells up to the 15th passage. Furthermore, MG20 cells were susceptible to ME7, Obihiro scrapie, and bovine spongiform encephalopathy agents. Thus, MG20 cell lines persistently infected with various murine prion strains provide a useful model for the study of the pathogenesis of prion diseases.