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1.
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   

2.
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   

3.
P Early  H Huang  M Davis  K Calame  L Hood 《Cell》1980,19(4):981-992
We have determined the sequences of separate germline genetic elements which encode two parts of a mouse immunglobulin heavy chain variable region. These elements, termed gene segments, are heavy chain counterparts of the variable (V) and joining (J) gene segments of immunoglobulin light chains. The VH gene segment encodes amino acids 1-101 and the JH gene segment encodes amino acids 107-123 of the S107 phosphorylcholine-binding VH region. This JH gene segment and two other JH gene segments are located 5' to the mu constant region gene (Cmu) in germline DNA. We have also determined the sequence of a rearranged VH gene encoding a complete VH region, M603, which is closely related to S107. In addition, we have partially determined the VH coding sequences of the S107 and M167 heavy chain mRNAs. By comparing these sequences to the germline gene segments, we conclude that the germline VH and JH gene segments do not contain at least 13 nucleotides which are present in the rearranged VH genes. In S107, these nucleotides encode amino acids 102-106, which form part of the third hypervariable region and consequently influence the antigen-binding specificity of the immunoglobulin molecule. This portion of the variable region may be encoded by a separate germline gene segment which can be joined to the VH and JH gene segments. We term this postulated genetic element the D gene segment, referring to its role in the generation of heavy chain diversity. Essentially the same noncoding sequences are found 3' to the VH gene segment and as inverse complements 5' to two JH gene segments. These are the same conserved nucleotides previously found adjacent to light chain V and J gene segments. Each conserved sequence consists of blocks of seven and ten conserved nucleotides which are separated by a spacer of either 11 or 22 nonconserved nucleotides. The highly conserved spacing, corresponding to one or two turns of the DNA helix, maintains precise spatial orientations between blocks of conserved nucleotides. Gene segments which can join to one another (VK and JK, for example) always have spacers of different lengths. Based on these observations, we propose a model for variable region gene rearrangement mediated by proteins which recognize the same conserved sequences adjacent to both light and heavy chain immunoglobulin gene segments.  相似文献   

4.
A novel Ig H chain gene rearrangement, a VHDJH to JH joining, was observed in an Ig-null immature B cell line. The preexisting, nonproductive VHDJH complex was replaced by the productive VHJH complex which was generated by the novel joining between the rearranged VH and a germ line JH gene. This VHDJH to JH joining is thought to be a site-specific recombinational event mediated by a putative recombination signal sequence, CACAGCC-12-base-GCAAGAAAG, embedded in the rearranged VH gene including the N region. This sequence might be a novel recombination signal sequence, which had not yet been reported, for so-called recombinase.  相似文献   

5.
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   

6.
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   

7.
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   

8.
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.  相似文献   

9.
J B Cohen  D Givol 《The EMBO journal》1983,2(11):2013-2018
The nucleotide sequence of two germline immunoglobulin heavy chain variable region (VH) genes of mouse BALB/c origin was determined. These two genes are highly homologous to each other. They both have the unusual codon CCT for proline at position 7, which so far has been found only in a specific set of VH genes, called the NPb family. We show that the two VH genes belong to this set. One of our BALB/c genes, VH124, is more homologous to a C57BL/6 NPb VH gene than to any BALB/c VH gene, and we propose that these two genes are alleles. A comparison of the substitutions between these two genes with published sequences of all other BALB/c and C57BL/6 NPb VH genes reveals evidence for past homologous recombination events between related germline VH genes Homologous recombination may play an important role in the diversification of germline immunoglobulin VH genes.  相似文献   

10.
Circular DNA resulting from V gene replacement was studied with an A-MuLV transformed cell line containing ablts. This cell line undergoes V gene replacement at elevated temperatures in the immunoglobulin (Ig) heavy chain (H) gene. Examination of circular DNA revealed that a heptamer-related sequence (TACTGTG) within the coding region of VDJ was joined to the recombination signal sequence (RSS) of a germline VH segment. This provides direct evidence for a intramolecular DNA deletion mechanism for V gene replacement. In the pre-B cell line as well as in in vivo lymphocytes, unusual circular DNAs were found which were structurally similar to the V gene replacement circles. They represented excision products of the deletion type recombination between one complete RSS and a heptamer-like sequence in the Ig H region.  相似文献   

11.
12.
The heavy chain variable region genes of 5 human polyreactive mAbs generated in our laboratory have been cloned and sequenced using polymerase chain reaction(PCR) technique.We found that 2 and 3 mAbs utilized genes of the VHIV and VHⅢ families,respectively.The former 2 VH segments were in germline configuration.A common VH segment,with the best similarity of 90.1% to the published VHⅢ germline genes,was utilized by 2 different rearranged genes encoding the V regions of other 3 mAbs.This strongly suggests that the common VH segment is a unmutated copy of an unidentified germline VHⅢ gene.All these polyreactive mAbs displayed a large NDN region(VH-D-JH junction).The entire H chain V regions of these polyreactive mAbs are unusually basic.The analysis of the charge properties of these mAbs as well as those of other poly-and mono-reactive mAbs from literatures prompts us to propose that the charged amino acids with a particular distribution along the H chain V region,especially the binding sites(CDRs),may be an important structural feature involved in antibody polyreactivity.  相似文献   

13.
Sequence diversity at the junctions of Ig genes differs between newborn and adult mice in two respects: 1) fetal/newborn Ig lack N regions; and 2) these N- junctional sequences very often contain 1 to 6 nucleotides that could have been encoded by either of the two joined gene segments. We address the hypothesis that such short homologies preferentially direct recombination to that site, and we analyze the effect of such homology-directed recombination upon the neonatal Ig repertoire. We examined 546 CDR3 sequences that were generated from polymerase chain reaction-amplified DNA from fetal and newborn liver using primers from three different VH families: S107, 7183, and J558. All junctional sequences using 14 frequently occurring IgH V-D and D-J gene combinations were analyzed. In 12 of the 14 combinations analyzed, there were 1 to 3 short sequence homologies, and the junctional sequences that would be created by those homologies were observed with high frequency. The D-J junctions often had two to three predominant junctional sequences, whereas the V-D junctions had one dominant junctional sequence. The only exceptions were the VHJ558-D junctions, where homology-directed recombination using the sequence homology between VHJ558 genes and most D genes would result in an out-of-frame join, and most of our sequences were productive. This latter result further suggests that homology-directed recombination may play a role in the nonrandom VH gene usage observed in fetal and newborn mice. Thus, most neonatal IgH junctions show limited diversity, not only due to the lack of N regions, but also because of nonrandom junctional sequences. Inasmuch as the few adult N- junctions also show a high frequency of homology-directed junctional sequences, V-D-J recombination throughout life may involve pairing via short homologies, with addition of N regions obscuring its role in the formation of adult IgH junctions.  相似文献   

14.
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   

15.
Circular DNA, derived from lymphocytes of juvenile channel catfish, was used to construct lambda libraries that were screened to identify the products of immunoglobulin DH-JH excision events. Clones were characterized that contained DH to JH recombination signal joints. The signal joints represented 23-bp recombination signal sequences (RSS) identical to germline JH segments that were adjacent to DH 12-bp RSS elements. DH flanking regions within the clones were used to probe a genomic library. Three germline DH gene segments containing 11-19 bp coding regions flanked by 12-bp RSS elements with conserved heptamers and nonamers were identified. The DH locus is closely linked to the JH locus, and Southern blots indicate that the DH segments represent different single member gene families. Analysis of H chain cDNA shows that each germline DH segment was expressed in functional VDJ recombination events involving different JH segments and members of different VH families. Several aspects of CDR3 junctional diversity were evident, including deletion of coding region nucleotides, N- and P-region nucleotide additions, alternate DH reading frame utilization, and point mutations. Coding region motifs of catfish DH segments are phylogenetically conserved in some DH segments of higher vertebrates. These studies indicate that the structure, genomic organization, and recombination patterns of DH segments typically associated with higher vertebrates evolved early in vertebrate phylogeny at the level of the bony fish.  相似文献   

16.
17.
E Winter  A Radbruch    U Krawinkel 《The EMBO journal》1985,4(11):2861-2867
Four potentially productive and two non-productive VDJ gene segments were isolated from the DNA of mouse B-lymphocytes which had been polyclonally activated by bacterial lipopolysaccharide (LPS). Three VDJ regions exhibit VH genes which stem from two novel VH gene families. The complexity of these families is 5-9 genes. One of the non-productive VDJ regions exhibits a D segment which may have been generated by joining of two DSP2 segments. Both non-productive VDJ regions appear to contain rearranged pseudo VH genes. Three potential somatic mutations distributed over two productive VDJ regions are observed.  相似文献   

18.
We describe rearrangement events which alter expression from a productive VHDJH rearrangement in an Abelson murine leukemia virus-transformed pre-B cell line. One such rearrangement results in replacement of the initially expressed variable region gene by a site-specific join between the open reading frame of a LINE-1 repetitive element and a remaining JH segment. We discuss this event in the context of the 'accessibility' model of recombinase control, and with respect to similar rearrangements involved in oncogene activation. In another subclone of the same pre-B cell line, altered heavy chain expression resulted from a mu to gamma 2b class switch recombination which occurred by a recombination-deletion mechanism but involved a complex inversion. We provide evidence that the germline gamma 2b region is specifically expressed in pre-B cell lines and early in normal development. We propose that the predisposition of pre-B cell lines to switch to gamma 2b production may reflect a normal physiological phenomenon in which the switch event is directed by an increased 'accessibility' of the germline gamma 2b locus to switch-recombination enzymatic machinery. Our findings support the hypothesis that the apparently distinct recombination systems involved in variable region gene assembly and heavy chain class switching are both directed by the accessibility of their substrate gene segments.  相似文献   

19.
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   

20.
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