Isotype, VH genes, and antigen-binding analysis of hybridomas from newborn normal BALB/c mice

In this study we report on the characterization of a panel of 62 hybridomas generated by fusing unstimulated spleen cells from neonatal (less than 24 hr old) normal BALB/c mice with the non-secreting Sp 2/0 cell line. The vast majority (98%) of these hybridomas secreted Ig but only 20% produced IgM. The isotype of the remaining hybridomas was determined as being IgG2b. Interestingly, when splenocytes from 1-day-old mice were stimulated with LPS for 48 h prior to the fusion event, 84% of the hybridomas were secreting IgM. The hybridoma supernatants were screened either by ELISA or RIA for binding reactivity using a panel of 17 Ag, proportionally divided between self and non-self. A binding reactivity could be assigned in 44% of cases. Of these, 29% were monoreactive, i.e., reactivity occurred with one Ag only, while the remaining 15% were multireactive. The majority (21 of 27) of hybridomas with a defined reactivity were directed against self-Ag. These included autologous red blood cells, DNA, histone H1, thyroglobulin, and Ag of the cell surface of T cells. The frequency of utilization of VH genes was determined using DNA probes for eight VH gene families. While all VH gene families appeared to have been used, one, VH 7183, had a slight but significant (p less than 0.02) higher utilization than expected by random expression. The frequency of all the other VH gene families was not significantly different from random utilization. No correlation was found between Ag reactivity in the supernatants and the utilization of a particular VH gene family. These findings indicate that early in the ontogeny the predominant reactivity of B cells is for self-Ag and, unlike what it is commonly believed, the IgM isotype is not dominant within these endogenously activated B cells at this time of ontogeny when genes from all VH families are utilized.     

Altered VH gene segment utilization in the response to phosphorylcholine by aged mice

Newly generated bone marrow B cell precursors of aged BALB/c mice, stimulated in splenic fragment cultures, display a markedly increased frequency of phosphorylcholine (PC)-responsive cells. This increased frequency is found for both precursors that utilize VHS107, a phenotype common to essentially all PC-specific B cells of young mice, and, surprisingly, for precursors that utilize VH genes other than VHS107. PC-specific hybridomas derived from bone marrow cells of aged mice utilize members of at least three VH gene segment families that have never been observed in PC responses of young mice. The ability of aged but not young mice to generate these unique PC-specific clonotypes may be evidence for constraints on V region utilization during repertoire development in young adults and has important implications for aging-associated changes in immune responsiveness.     

Direct quantitative in situ hybridization studies of Ig VH utilization. A comparison between unstimulated B cells from autoimmune and normal mice

This study examines Ig VH utilization in murine lupus with emphasis on the relative contribution of 3' and 5' gene families. We used in situ hybridization with 35S-labeled ssRNA probes to detect VH expression in individual spleen cells. Cells were taken from unmanipulated animals, and were not stimulated in vitro. This approach allows analysis of VH usage among only those B cells which have undergone activation in vivo, while minimizing the potential for skewing in vitro. We compared usage of the 3' 7183 and Q52 families with the more 5' J558 family in adult NZB, MRL-lpr/lpr, and nonautoimmune NIH Swiss mice. VH utilization in the autoimmune strains was proportionate to VH family size, and was not biased toward the 3' families when compared with the Swiss repertoire. Moreover, 3' skewing did not develop in NZB mice with increasing age. Thus, systemic autoimmunity is not associated with impaired normalization of the adult repertoire away from the 3' bias of early ontogeny. Instead, our data support a stochastic model for VH gene usage in the activated B cells and plasma cells of adult lupus mice.     

Repertoire diversity of antibody response to bacterial antigens in aged mice. II. Phosphorylcholine-antibody in young and aged mice differ in both VH/VL gene repertoire and in specificity

Aging of mice is accompanied by both quantitative and qualitative changes in antibody responses to phosphorylcholine (PC), an immunodominant epitope of Streptococcus pneumoniae R36a strain (Pn). In order to study these changes at the molecular level, we generated PC-specific hybridomas from young (3 to 4 mo) and aged (20 to 24 mo) mice of different strains after primary immunization with S. pneumoniae R36a strain. These mAb were tested for Ig VH and VL gene family utilization, idiotopic repertoire, and cross-reactivity with unrelated Ag. Hybridomas from young mice (BALB/c, C57BL/6, and D1.LP) uniformly expressed the VH-S107 and V kappa-22 genes as well as most idiotopes of the T15 family, which were identified with different anti-T15 mAb. In contrast, the PC-reactive mAb from aged mice were quite heterogeneous: only 2 out of 13 utilized VHS107, 1 of 13 used VH7183, and 3 of 13 used VHJ558 gene family. Moreover, none of these mAb used L chain encoded by V kappa 22(0/13), but surprisingly they frequently expressed some of the T15 idiotope. In addition, the PC-binding mAb from aged mice showed broad cross-reactivity with various mouse and foreign proteins, whereas the mAb from young mice did not. These results demonstrate the genetic shift in antibody response of aging mice to PC, which is accompanied by a change in the antibody specificity. Interestingly, the qualitative repertoire change appears to be unrelated to the magnitude of antibody response, for the aged BALB/c mice maintain a very high reactivity to PC.     

Neonatal and adult primary B cells use the same germ-line VH and V kappa genes in their (T,G)-A-L-specific repertoire

Although there is a nonrandom usage of VH gene families by primary B cells early in ontogeny, at issue is whether the preferential rearrangement of 3' germ-line VH genes, e.g., VH7183 and VHQ52 family genes, influences the neonatal B cell repertoire that can be expressed in response to Ag. In order to address this issue, and to determine whether neonatal B cells can use the same germ-line VH and V kappa genes as adult B cells in their primary response, we have analyzed at the molecular level the neonatal antibody response to (T,G)-A-L and compared it with the adult primary response. Among the TGB5 Id+, GT+ antibodies, which dominate the neonatal response to (T,G)-A-L, two VH gene families were used: J558 (high frequency) and 36-60 (low frequency). The majority of Id+ neonatal hybridomas used the same germ-line VH gene (H10, from the VHJ558 family), but with enormous diversity in the D region, and one of two germ-line V kappa 1 genes (V kappa 1A, V kappa 1C). These are the same germ-line V-genes used by most primary adult Id+ hybridomas, and the frequency of expression of this germ-line V-gene combination appears equivalent in the neonatal and adult primary repertoires. Therefore, it is clear from this study that as early as day 5, neonatal B cells can use the same germ-line V-genes as adult primary B cells in their Ag-specific repertoire.     

Patterns of Ig V region expression among neonatal hemagglutinin-responsive B cells. Evidence for non-random VH gene representation during later stages of development

Hybridoma libraries were established whose specificities reflect those within the BALB/c hemagglutinin-responsive B cell repertoire at 1 or 2 wk of age. These libraries were generated through chronic immunization regimes that induce responses dominated by clonotypes available at the age of initial immunization. Dot blot analyses of cytoplasmic RNA from these hybridomas were performed to determine the Ig H chain V region (VH) families associated with the repertoire at each age. Although genes from most known VH families can generate hemagglutinin-specific antibodies, clonotypes prevalent during the first week of life disproportionately use VH7183 gene segments. In contrast, hybridomas representative of the repertoire in 2-wk-old individuals preferentially use VHS107, VH36-60, and VHX24 gene segments. These results demonstrate changes in VH gene family predominance that correlate with the age-related patterns of clonal emergence and turnover previously shown in the hemagglutinin-reactive B cell pool. Taken together, these findings suggest that the very early neonatal Ag-responsive B cell pool closely reflects preferential VH gene rearrangements within the pre-B cell compartment. Further, they suggest that either non-random strategies of VH gene expression, or selective clonal expansion strategies based on VH, operate even at later stages of development.     

VH gene family repertoire of resting B cells. Preferential use of D-proximal families early in development may be due to distinct B cell subsets

The fetal VH gene repertoire was shown previously to be characterized by overrepresentation of D-proximal families, VH 7183 and VH Q52, compared with adult bone marrow B cells in which VH genes were expressed in a more stochastic fashion. To determine the underlying mechanisms of these findings, adult vs fetal progenitors were placed in the same supportive microenvironment and the resulting B lineage cells analyzed for VH gene family expression. The supportive microenvironment was provided by established adult bone marrow stromal cell layers. In this way the relative importance of environmental vs genetic influences could be determined. The fetal B cells and pre-B cells that developed on adult stromal cells maintained a fetal-like VH gene family repertoire with preference for D-proximal families VH 7183 and Q52. In contrast, adult cultured B cells maintained the adult-like repertoire with predominance of the largest family VH J558. Only after long-term incubation was there a change in the expression of particular VH gene families. These findings suggest that the D-proximal VH gene family preference observed early in ontogeny is associated more with the inherent genetic potential of B cell progenitors that predominate during fetal life and less with environmental influences.     

Diversity in the available repertoire of murine antibodies reactive with bromelain-treated isologous erythrocytes

Antibodies specific for bromelain-treated mouse RBC (BrMRBC) are of interest as models of "natural autoantibodies" and because of their primary source is Ly-1+ (CD5+) B cells. In earlier work by others, anti-BrMRBC hybridomas prepared by using CBA or NZB "spontaneously activating" peritoneal B cells were all found to produce mAb with a single common H chain V region sequence, by using a novel gene (VH11p), and a single common L chain V region sequence, a member of the Vk9 group (VkBrMp). We prepared anti-BrMRBC hybridomas by using LPS-activated B10.A splenic B cells in order to reveal the maximum available diversity in this repertoire. Data based on binding studies, Northern blot analyses with V region-specific probes, and mRNA nucleotide sequence analysis indicated that there is combining-site diversity in the repertoire of anti-BrMRBC hybridomas. There was considerable variation in trimethylammonium (a constituent of phosphatidyl choline) binding efficiency, and one of the anti-BrMRBC mAb showed no detectable binding. Northern blot analyses indicated 6 of 11 mAb to be of the VH11p/VkBrMp type, including one dual reactive anti-[BrMRBC + SRBC] mAb. Sequence analyses of the H chain V regions of four of the non-VH11p mAb revealed utilization of four distinct VH, three of which are very similar to the VH expressed by Ly-1+ B cell clones or lymphomas, as reported by others. However, because the VH11p/VkBrMp-type mAb were all relatively efficient at lysing BrMRBC and binding trimethylammonium, we suggest that affinity considerations may determine the selective predominance of B cells with this V region configuration from an available repertoire of considerable diversity.     

High frequency expression of S107 VH genes by peritoneal B cells of B10.H-2aH-4bP/WTS mice

Our previous analyses of peritoneal Ly-1 B cells indicate that a high percentage express VH genes of the VH11 and VH12 families, and that this bias is due to clonal selection. The antibodies encoded by these genes bind the same hapten, phosphatidyl choline (PtC). Twenty-one of 73 hybridomas generated from fusions with peritoneal Ly-1 and Ly-1 sister population B cells of B10.H-2aH-4bp/Wts mice produce anti-PtC specific antibodies. We show here that 19 of these express VH11 and VH12 family genes and two express VH36-60 family genes. To assess whether there is a bias in VH gene use among non-PtC-specific hybridomas we analyzed the remaining 52 hybridomas for VH family expression by using VH family-specific probes in an RNA dot blot assay and by Ig mRNA sequencing. We find a seven-fold increase in the expression of the VHS107 family genes, and only slight differences in the expression of VH genes of other families relative to splenic B cells. We attribute the increase in VHS107 gene expression to clonal selection inasmuch as five of the seven VHS107+ hybridomas express the same VH gene (V11) and VL association is nonrandom. The bias in VH gene use among the entire panel of 73 peritoneal hybridomas is to the extent that approximately one-third express one of three genes: the V11 gene of the S107 family, the CH34 gene of the VH11 family, and the VH12 family gene.     

Differential L chain expression in the antibody responses to phosphorylcholine of adult bone marrow or peritoneum-derived B lymphocytes

Lethal irradiation of adult BALB/c mice followed by reconstitution with autologous bone marrow results in loss of T15 Id and IdX expression in the responses to phosphorylcholine (PC) and alpha(1-3)-dextran, respectively. T15 Id, but not IdX expression can be reconstituted with low numbers of syngeneic, T cell-depleted peritoneal resident cells. All three groups of mice produce comparable titers of specific anti-PC and anti-dextran antibodies. The inability of adult bone marrow-reconstituted BALB/c mice to produce T15 Id+ antibodies is not due to differential VH-gene expression in bone marrow or peritoneum-derived B cells. Thus, the levels of T15 VH in total serum Ig and in anti-PC antibodies are similar in all groups of mice. Furthermore, IEF patterns of T15 VH-associated L chains directly demonstrate differential Vk repertoire expression in bone marrow and peritoneum-derived B cells.     

VH gene analysis of spontaneously activated B cells in adult MRL-lpr/lpr mice. J558 bias is not limited to classic lupus autoantibodies

To determine the genetic origins of lupus auto-antibodies, we analyzed the relationship between VH gene usage and auto-Ag-binding properties of 352 B cell hybridomas derived from MRL-lpr/lpr mice. The hybridomas were derived from neonatal, 1-month-old, 3-month-old, and 6-month-old mice. The experimental strategy provided that the hybridomas were monoclonal at initial evaluation, so the Ag binding and V gene frequencies of the entire population could be determined. Initially, 1032 Ig-producing hybridomas were evaluated for binding to six Ag; VH gene family use was determined in 119 anti-DNA and anti-rabbit thymus extract (RTE) antibodies (autoantibodies) and in 233 age-matched Ig that did not bind to any of the six Ag (nonbinders). Neonatal B cells, including cross-reactive IgM autoantibodies and nonbinder IgM, used relatively 3' VH genes. The majority of B cells in adult mice used VH genes of the J558 family. Although J558 use was significantly higher among the autoantibodies (anti-DNA and anti-RTE) than among the nonbinder Ig, this difference was due to a higher frequency of J558 use by 1-month-old mice. At 3 months, J558 use by the nonbinder Ig increased to the same frequency of J558 use as in the autoantibody population. J558 use in both groups of antibodies exceeded a previously reported estimation of J558 expression in the functional B cell repertoire of young adult MRL-lpr/lpr mice. Several subgroups of antibodies that share properties with pathogenic Ig, including IgG, cross-reactive Ig, and anti-dsDNA autoantibodies, demonstrated a marked preferential expression of the J558 family. These results suggest that there is an age-related bias in the activation of B cells using J558 VH genes in MRL-lpr/lpr mice that is under the influence of a selective force distinct from, or in addition to, an ssDNA or RTE auto-Ag-driven response.     

A single VH gene is utilized predominantly in anti-BrMRBC hybridomas derived from purified Ly-1 B cells. Definition of the VH11 family

By establishing hybridomas from two distinct surface IgM+ splenic B cell populations, Ly-1 B cells and "conventional" (Ly-1-) B cells, we found that the Ly-1 B population includes a 30 to 70 times higher frequency (1 to 2%) of cells with specificity for bromelain treated autologous red blood cells (anti-BrMRBC) when compared with conventional B cells (0.03%). We cloned and sequenced the V genes encoding anti-BrMRBC antibody from two hybridomas made with Ly-1 B cells sorted from the spleen of SM/J mice. The VH sequence (for both) is identical with the previously reported sequence associated with this specificity and belongs to a new VH gene family. This gene family, defined here as VH11, has only two members and is the predominant VH rearranged in a collection of Ly-1 B derived anti-BrMRBC hybridomas, always in association with a single VL gene (a member of the V kappa 9 family). Furthermore, analysis of hybridomas made with Ly-1 B cells sorted from the peritoneum reveals a yet higher increased frequency of VH11-encoded anti-BrMRBC specificity (30%). This variation in frequency of anti-BrMRBC in the Ly-1 population depending on location, together with the repeated association of VH11 with a particular V kappa gene suggest that antigen driven selection is (at least in part) responsible for the biased V gene expression seen in this population. Furthermore, a mechanism that might contribute to biased expression, preferential rearrangement due to close proximity to J (as seen in pre-B lines), is excluded by localization of VH11 5' to several of the more J-proximal families (Q52, 7183).     

Comparison of V kappa gene family expression in adult and fetal B cells

The functional B cell repertoires from adult and fetal mice were compared by examining V kappa gene family expression in individual cells. In addition, because little is known about the relative use of the various V kappa gene families in an immune response, adult B cells from several different strains of mice were analyzed. This was accomplished by stimulating B cells with the polyclonal activator, LPS. Activated cells were then analyzed for V kappa gene family expression at the single cell level by in situ hybridization using radiolabeled V kappa gene probes. It was found that all V kappa gene families tested were represented in the LPS-induced adult repertoire with V kappa 1, V kappa 4,5 and V kappa 19 being expressed to the largest degree in all strains tested. The LPS-induced adult V kappa gene family repertoire was then compared to the fetal repertoire and some differences were observed. In particular, a lower proportion of fetal B cells expressed V kappa 1 and a higher proportion of fetal B cells expressed V kappa 4,5 and V kappa 10. Importantly, compared with the adult response there was no evidence in the fetal response for an increased expression of V kappa 21, the family that maps closest to J kappa,C kappa. This is in contrast to what has been shown previously with H chain V region exons in which there was a clear preference for the VH gene families that mapped closest to DH.     

Germline V genes encode viable motheaten mouse autoantibodies against thymocytes and red blood cells

Autoantibodies against thymocytes and RBC may contribute to the pathophysiology of homozygous viable motheaten (mev) autoimmune disease. Whether the production of these autoantibodies in mev mouse results from polyclonal nonspecific B cell activation or specific Ag-driven stimulation is not known. To understand the mechanisms involved in the induction of antithymocyte autoantibody response in mev mouse, we have studied the fine antigenic specificity, structure, and origin of three antithymocyte autoantibodies derived from mev splenic B cell hybridomas. Western blot analysis showed that these mAb bind to polypeptides of 33 and 105 kDa present in RBC and thymocytes, respectively. Additional specificities for the epitopes present in other polypeptides distinguished these three autoantibodies. Northern hybridization and flow microfluorimetry analysis indicated that these hybridomas are derived from the Ly1+ B cell subset. These autoreactive Ly-1 B cell hybridomas, chosen on the basis of their specificity, expressed L chain V genes from a single VK family (VK9) and VH genes from J606 and S107 families. Hybridomas UN34.11 and UN42.5 expressed the VK9 gene identical to that used by peritoneal Ly1+ B cells from various mouse strains and malignant B lymphoma cells secreting anti-mouse RBC treated with proteolytic enzyme bromelin and anti-SRBC antibodies. The third hybridoma, S2-14.2, used a VK9 gene identical to that expressed by MOPC41. None of the VK genes encoding these autoantibodies showed any somatic mutations. In the case of VH genes, the two hybridomas UN42.5 and S2-14.2 derived from two separate fusions, used identical VH genes from the J606 family. The third hybridoma UN34.11 used unmutated V11 germline VH gene, a member of the S107 family. Southern hybridizations, using oligonucleotide probes specific for CDR1 and CDR2, showed that the VH genes encoding the J606 autoantibodies were derived from a germline gene found in the 6.7-kb fragment of EcoRI-digested germline DNA. This germline VH gene is distinct from VH22.1 germline gene that codes for antigalactan antibodies. Sequence analysis of this gene showed perfect homology with the rearranged VH genes confirming the lack of somatic mutations. Thus, our data demonstrate that antithymocyte antibody response occurring in mev mouse is polyclonal and it involves Ly-1 B cells expressing unmutated germline VH and VK genes. These results indicate that antigen driven stimulation may not play an important role in the induction of anti-thymocyte antibody response in mev mouse.     

Immunologic memory to phosphocholine. VII. Lack of T15 V1 gene utilization in Xid anti-PC hybridomas

CBA/N mice carrying the Xid defect fail to make antibodies expressing the T15 idiotype in response to immunization with PC-KLH. Antibodies predominating in the Xid response have binding properties characteristic of group II antibodies that emerge in the memory response in BALB/c; the prototype group II antibody utilizes a VH gene product distinct from the V1 gene product expressed by T15 idiotype-positive antibodies. To examine VH gene usage in the anti-PC response of Xid B cells, hybridomas were produced from Xid mice immune to PC-KLH. Four hybridomas possessing properties typical of the predominant group II antibody response in Xid mice and two representing minor components of the response were studied. Analysis of DNA by Southern blot hybridization revealed that none of the hybridomas utilized the T15 V1 gene segment, nor did they share use of a common VDJ gene product. These results indicate that Xid group II antibodies either make use of different VH gene segments or use the same VH in combination with various D and JH segments.     

Ig gene rearrangement and expression in the progeny of B-cell progenitors in the course of clonal expansion in bone marrow cultures.

In cultures of murine bone marrow cells colonies of 10(3)-10(4) cells were identified which consisted to a large part of pre-B and B cells. Cell mixing experiments with genetically marked cells indicated that each colony is derived from a single progenitor cell not yet committed to the expression of either IgH locus. A concanavalin-A-mediated electrofusion method allowed us to rescue and amplify individual cells from a given colony by hybridization with X63.Ag8.653 cells. The molecular analysis of 12 such hybridomas revealed that all IgH loci were rearranged into DJH or productive or nonproductive VHDJH complexes. Most kappa and all lambda light chain loci were in germline configuration. Kappa chain expression was only seen in heavy (mu) chain expressing hybridomas. Hybridomas from a given colony were heterogeneous in terms of DJH and VHDJH rearrangements and in no cell was more than one productive VHDJH complex detected. None of the productive VHDJH complexes contained a VH gene of group 1 (J558), the largest VH gene family with about half of the VH genes. This is in marked contrast to VH gene usage in splenic B cells.     

Hybridomas synthesizing monoclonal antibodies to surface antigens of human lymphocytes

Three types of hybridomas were obtained by fusion of murine myeloma cells (NSI-1-Ag4-1) with splenocytes from mice immunized with human lymphoblastoid cells (RPMI-6410t line, acute myeloblastic leukemia). Hybridomas of the first type synthesize monoclonal antibodies Ma-1, which interact with 6410t-cells, but are not bound to the cells of human Burkitt lymphoma-Raji. Raji cells contain HLA-DRw5 and -DRw6 antigens on cell surface but there are no HLA-A2, -B7 and -B12 antigens (specific for 6410t). Thus, Ma-1 are probably derected against some of HLA antigens of loci A or B. Hybridomas of the second type synthesize Ma-2 antibodies which react with 6410t and Raji cells, but are not bound to peripheral blood lymphocytes (PBL). We suppose that Ma-2 antibodies to tumor specific antigens which have common antigen determinants both for Raji and RPMI-6410t cells. The third type of hybridomas synthesizes monoclonal antibodies Ma-3 reacting with all the three types of target cells: 6410t, Raji, and PBL. Ma-3 seems to be directed against human species-specific lymphocyte antigens which remained in 6410t and Raji cells.     

V-region directed selection in differentiating B lymphocytes.

We here analyse the repertoire of VH7183 rearrangements isolated from different stages of B cell differentiation in adult mice. The nucleotide sequence analyses of VH7183-D-JH rearrangements derived from large pre-B cells (B220+, mu-), small pre-B cells (B220+, mu-) and mature B cells (B220+, mu+) isolated from adult bone marrow revealed a sequential accumulation, among functional rearrangements, of D segments of the FL16 family and a depletion of D segments using the second and the third reading frame (RF). One member (VH7183.1) of the VH7183 gene family was utilized in 60-80% of the rearrangements of all populations analysed. In neonates the majority of the rearrangements utilizing this gene was found to be functional. In contrast, > 96% of the VH7183 rearrangements isolated from adult spleen were non-functional. These data provide evidence for cellular selection of VH regions acting at different points of the B cell differentiation pathway and at the transition of B cells from the bone marrow to the periphery.