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1.
Ig VH repertoire differences between normal and x-linked immune deficiency- (xid) expressing mice are well established. To test the hypothesis that such differences might exist as early as the pre-B stage of ontogeny we generated panels of xid fetal liver derived Abelson murine leukemia virus transformants with H chain Ig VDJ rearrangements. Cells from CBA/Tufts.xid mice used VH genes from many families, with no demonstrable preference for 3' genes. Analysis of cells derived from (CBA/Tufts.xid X CBA/Tufts)F1 mice showed preferential usage of 3' family genes in the phenotypically normal females, even though V to DJ joins were made in vivo. The defective male mice did not show this marked preferential usage. A similar, but less marked, effect on VH gene usage was seen in mice with X-linked immune deficiency and a BALB/c background. Taken together, these results show that either X-linked immune deficiency, or a closely linked gene, affects fetal pre-B cells such that the usual pattern of predominant usage of 3' family genes is altered.  相似文献   

2.
The genes encoding 11 independently derived anti-DNA autoantibodies from the lupus-prone mouse strain, MRL-lpr/lpr, were examined with VH, D, and JH gene probes. These autoantibodies do not define new VH gene families, since all of the autoantibodies were encoded by VH genes from four of the nine known gene families. A minimum of nine different VH genes encoded this panel of 11 anti-DNA autoantibodies. These results are consistent with the stochastic use of the VH gene repertoire and the expression of multiple VH genes. However, the data is also consistent with a biased usage of the VH gene repertoire. First, two pairs of autoantibodies, one from the J558 family and one from the 7183 family, appear to express identical or closely related VH genes as determined by the position of two restriction enzyme sites 5' of the expressed VH genes. In addition, three autoantibodies that appear to be sister clones might define a third VH gene that is used repeatedly. Secondly, about 45% of the panel is encoded by the Q52 and 7183 families, which are the 3' most families. These families have been shown to be preferentially rearranged early in B cell ontogeny. This suggests that some anti-DNA autoantibodies might originate from a population of B cells that predominate early in ontogeny. An alternative hypothesis is that the potential bias in VH gene and gene family usage could be due to antigen selection. All four JH genes are expressed, although the JH1 gene appears to be underutilized in both expressed and unexpressed rearrangements. Two members of the panel that bind double-stranded DNA were encoded by two different VH gene families, the S107 family and the J558 family.  相似文献   

3.
To determine the distribution of Vlambda and Jlambda as well as VH and JH gene usage in a patient with systemic lupus erythematosus (SLE), productive and nonproductive VJ and V(D)J rearrangements were amplified from individual peripheral CD19+ B cells and were analyzed. No differences in the Vlambda and Jlambda or the VH and JH gene usage in the nonproductive gene repertoire of this SLE patient were found compared with the distribution of genes found in normal adults, whereas marked skewing of both Vlambda and VH was noted among the productive rearrangements. The distribution of productive Vlambda rearrangements was skewed, with significantly greater representation of the Jlambda distal cluster C Vlambda genes and the Vlambda distal Jlambda7 element, consistent with the possibility that there was receptor editing of the Vlambda locus in this patient. Significant bias in VH gene usage was also noted with VH3 family members dominating the peripheral B cell repertoire of the SLE patient (83%) compared with that found in normal subjects (55%; p < 0.001). Notably, a clone of B cells employing the VH3-11 gene for the heavy chain and the Vlambda1G segment for the light chain was detected. These data are most consistent with the conclusion that extreme B cell overactivity drives the initial stages of SLE leading to remarkable changes in the peripheral V gene usage that may underlie on fail to prevent the emergence of autoimmunity.  相似文献   

4.
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.  相似文献   

5.
VH gene utilization in the progeny of long term lymphoid-cultured cells used for reconstitution of severe combined immunodeficient mice under varying conditions was determined. Hybridomas made from the spleens of these animals were evaluated for clonality and donor origin and a panel of 146 independent hybridomas were subsequently examined for VH expression. Hybridomas derived from the spleens of SCID mice reconstituted with fresh cells, used as a control, utilized VH families in proportion to their numerical representation in the genome. However, hybridomas from the spleens of mice reconstituted with long term cultured cells utilized a predominance of the two VH gene families most proximal to JH, characteristic of cells early in B lymphocyte development. Coinjection of thymocytes with cultured fetal liver cells, to provide good levels of T lymphocytes, did not alter this pattern of VH utilization. Irradiation (3 Gy) of the mice before cultured cell injection, which leads to more complete reconstitution of the B cell compartment, was effective in removing this bias in the VH repertoire. Hybridomas derived from these mice expressed their VH genes more in proportion to family size, characteristic of cells later in B lymphocyte development. In this manner, long term lymphoid-cultured cells can be used to study the transitions that occur in VH repertoire expression which appear to be mediated by either B lymphocyte developmental microenvironment or population size.  相似文献   

6.
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.  相似文献   

7.
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.  相似文献   

8.
9.
Interspersion of the VHQ52 and VH7183 gene families in the NFS/N mouse   总被引:1,自引:0,他引:1  
Deletion mapping analysis has shown that members of the VH7183 and VHQ52 gene families are interspersed in the NFS/N mouse. To obtain direct evidence that members of these gene families are physically linked, an NFS/N liver library was constructed and genomic clones were analyzed for hybridization to both VHQ52 and VH7183 gene probes. Four clones were identified which contained both VHQ52 and VH7183 hybridizable restriction fragments. Two clones containing rearranged VHQ52 genes were also found to hybridize with the VH7183 gene probe. Sequence analysis of three of the VH7183-containing restriction fragments indicate that all are pseudogenes which contain interruptions at either the 5' and/or 3' ends of the VH coding region. Given the D-proximal location of at least a portion of the VHQ52 gene family relative to VH7183 in NFS/N mice, and the known correlation between D proximity and the frequency of VH gene utilization, 22 NFS/N-derived pre-B cell lines were analyzed for VHQ52 gene utilization. More than 40% of the identified H chain (VHDJH) rearrangements in this survey used members of this gene family. Furthermore, analysis of poly(A)+ RNA from NFS/N fetal liver and adult spleen also indicates preferential utilization of VHQ52 family in fetal liver. Kinetic studies show, however, that there are no changes in relative utilization throughout fetal ontogeny. The implications of these findings for the expression and randomization of the VH repertoire are discussed.  相似文献   

10.
G E Wu  C J Paige 《The EMBO journal》1986,5(13):3475-3481
The immunoglobulin heavy chain variable region (VH) genes of the mouse have been categorized into families based upon sequence homology. Utilizing the RNA colony blot assay we have determined the expression of eight of these families in B cell colonies derived from either surface immunoglobulin positive (sIg+) adult spleen B cells or sIg- fetal liver pre-B cells. We demonstrate, based upon the analysis of greater than 6000 individual colonies, that VH gene usage is a characteristic of the mouse strain studied. C57BL/6 mice most frequently (45%) utilize family VHJ558, the largest VH family, whereas BALB/c mice most frequently (22%) utilize family VH7183, the most JH proximal family in BALB/c mice. Moreover, colonies derived from sIg- fetal liver derived precursors show similar patterns, suggesting that selection based on exogenous antigen is not an important parameter in determining VH gene family usage.  相似文献   

11.
VH gene family usage was determined in both spontaneous, in vivo activated plasma cells and LPS-induced plasma cells from individual MRL/lpr mice by using in situ hybridization. It was found that VH gene family expression in spontaneous plasma cells varied from mouse to mouse. Some mice expressed VH families in an apparently random manner similar to that obtained with polyclonal activation. Other mice showed an exaggerated expression of particular VH gene families. VH J558 was overrepresented most frequently, but overrepresentation of VH 7183, Q52, and 36-60 was also observed. Importantly, LPS-induced VH gene family expression in these same mice displaying biased VH family usage in spontaneous plasma cells, appeared normal with no evidence for similar biases in the LPS-induced repertoire. Anti-DNA antibody concentrations and the degree of glomerulonephritis were determined for each mouse to measure the severity of disease. The level of expression of the J558 family was positively correlated with disease severity. The results suggest that the initial autoantibody response is highly diverse but becomes more restricted as the disease progresses.  相似文献   

12.
Comparison of V kappa gene family expression in adult and fetal B cells   总被引:7,自引:0,他引:7  
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.  相似文献   

13.
We have examined usage of variable region gene families of the immunoglobulin heavy chain (VH gene family) in spleens of MRL/MpJ-1pr/lpr (MRL/lpr), (NZB x NZW)F1, and BXSB mice by Northern analysis using various VH probes, including the VHPAR gene which we cloned and identified as a gene encoding the heavy-chain variable region of antipoly(ADP-ribose) antibody. The amount of VHS107 family mRNA was almost constant for the same amount of splenic crude RNA in autoimmune-prone and normal mice, while concentrations of other family mRNAs were elevated in autoimmune-prone mice. For example, per splenic RNA the VHPAR family was expressed in MRL/lpr mice 10 times more than in their normal counterpart, MRL/MpJ-+/+ (MRL/+) mice. These results indicate the bias of VH gene usage in autoimmune-prone mice. Expression of the VHS107 family was depressed from an early life stage of MRL/lpr and male BXSB mice. Furthermore, the expression of IL-4 and IL-5 were quantitatively compared, as B cell differentiation factor was thought to be produced by abnormally proliferative T cells in lymph nodes of MRL/lpr mice. We could not, however, observe overproduction of IL-4 and IL-5 mRNA in the lymph nodes.  相似文献   

14.
A new murine Ig VH gene family   总被引:13,自引:0,他引:13  
A novel murine VH gene family, termed VH10, has been found and characterized. Based on RFLP analysis, this family exhibits extensive polymorphism among inbred strains of mice and encompasses two to five members, depending on the Igh haplotype. Analyses of recombinant inbred strains suggest a map position of this family 5' to the 7183 and Q52 VH gene families. A VH10 gene has been found to encode anti-DNA autoantibodies from lupus mice; another one may be a pseudogene.  相似文献   

15.
We previously developed an in vitro immunization (IVI) protocol of human peripheral blood mononuclear cells (PBMC) for generating antigen-specific human antibodies. In order to clarify whether IVI protocolinduces antigen-specific B cell responses in PBMC, we analyzed family gene usage and sequence of the variable region gene of immunoglobulin heavy chain (VH gene) of the antibody produced from the in vitro immunized PBMC. Sequence homology analyses of VH gene demonstrated that a larger repertoire of B cells can be sensitized with mite-extract than with cholera toxin B subunit and rice allergen. Further, antigen-specific B cells were efficiently expanded by using CpG oligodeoxynucleotide as adjuvant. These results suggest that appropriate combination of sensitizing antigen and adjuvant is primarily important for expansion of antigen-specific B cells in IVI protocol.  相似文献   

16.
17.
18.
Lupus-prone, anti-DNA, heavy (H) chain "knock-in" mice were obtained by backcrossing C57BL/6 mice, targeted with a rearranged H chain from a VH11(S107)-encoded anti-DNA hybridoma (D42), onto the autoimmune genetic background of New Zealand Black/New Zealand White (NZB/NZW) F1 mice. The targeted female mice developed typical lupus serologic manifestations, with the appearance of transgenic IgM anti-DNA autoantibodies at a young age (2-3 mo) and high affinity, somatically mutated IgM and IgG anti-DNA Abs at a later age (6-7 mo). However, they did not develop clinical, lupus-associated glomerulonephritis and survived to at least 18 mo of age. L chain analysis of transgenic anti-DNA Abs derived from diseased NZB/NZW mouse hybridomas showed a very restricted repertoire of Vkappa utilization, different from that of nonautoimmune (C57BL/6 x BALB/c)F1 transgenic anti-DNA Abs. Strikingly, a single L chain was repetitively selected by most anti-DNA, transgenic NZB/NZW B cells to pair with the targeted H chain. This L chain had the same Vkappa-Jkappa rearrangement as that expressed by the original anti-DNA D42 hybridoma. These findings indicate that the kinetics of the autoimmune serologic manifestations are similar in wild-type and transgenic lupus-prone NZB/NZW F1 mice and suggest that the breakdown of immunologic tolerance in these mice is associated with the preferential expansion and activation of B cell clones expressing high affinity anti-DNA H/L receptor combinations.  相似文献   

19.
M G Reth  S Jackson    F W Alt 《The EMBO journal》1986,5(9):2131-2138
The Abelson murine leukemia virus (A-MuLV) transformed cell line 300-19 was derived from the bone marrow of an adult NIH/Swiss outbred mouse. The original 300-19 clonal isolate carried DHH rearrangements of both JH alleles, a molecular genotype characteristic of early pre-B cells. During propagation in culture, the 300-19 line frequently generates secondary rearrangements of its JH alleles including rearrangements which append VH segments to the pre-existing DJH complexes to form complete VHDJH variable region genes and secondary D to JH rearrangements which replace the pre-existing DJH rearrangement by joining an upstream D to a downstream JH. The two types of secondary rearrangement events occur at approximately equal frequency. Approximately 30% of the VH to DJH joins lead to the production of mu heavy chains providing support for a regulated model of allelic exclusion. Like pre-B cell lines from other origins, the 300-19 line preferentially utilized VH gene segments from the more JH-proximal (3') families to form VHDJH rearrangements. However, the VH segments preferentially employed by 300-19 were from a different family than those previously demonstrated to be utilized by pre-B lines of BALB/c origin; we relate these different utilization patterns to differences in the organization of the more 3' VH families between the two strains. The initial DJH rearrangements of the 300-19 line employed more 3' (JH-proximal) D segments; however, the DJH replacements preferentially employed the most 5' D segment. We discuss this phenomenon in the context of a mechanism which may target recombinase to regions of the chromosome more 5' to the D locus (VH-containing regions) once an initial DJH complex is formed.  相似文献   

20.
In this study, the contribution of the CD5+ B cell to the preferential expression of VH 7183 and Q52 observed early in development was determined. CD5+ and CD5- B cells from BALB/c mice were isolated by fluorescence-activated cell sorter and the expression of particular VH gene families was determined directly by in situ hybridization. The results indicate that CD5+ B cells obtained from both adult and neonatal animals express Q52 at increased levels compared with CD5- B cells. Preferential expression of VH 7183 was observed only in the neonatal CD5- B cell subset. Thus, the increased expression of VH 7183 early in development is caused by the CD5- subset whereas increased Q52 expression is caused by the CD5+ subset. These results indicate that the fetal/neonatal conventional B cell is distinct from conventional adult B cells in terms of Ig gene repertoire expression.  相似文献   

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