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In order to study sequences involved in the developmentally regulated and tissue-specific expression of the class I Major Histocompatibility Complex (MHC) genes, we have constructed several H-2/lacZ transgenic lines in which the 5' regulatory sequences of the H-2Kb gene are linked to the Escherichia coli beta-galactosidase (lacZ) gene. In five H-2/lacZ lines, the pattern of lacZ expression, detected histochemically varied greatly from line to line. None of the H-2/lacZ transgenes were transcribed in cells normally expressing a high level of endogenous H-2 molecules, although these H-2 regulatory sequences have been shown to be sufficient to drive tissue-specific expression of other reporter genes. Interestingly, when constructs containing 5' beta 2-microglobulin (beta 2m) regulatory sequences linked to lacZ were used to derive transgenic lines, similar results were obtained. A survey of lacZ labeling in H-2/lacZ and beta 2m/lacZ transgenic mice strongly suggests that these transgenes are very sensitive to position effect, lacZ expression being controlled by endogenous chromosomal regulatory elements specific for each insertion site. Here we describe the complex pattern of lacZ expression in the different transgenic lines during development; we discuss the unusual properties of these transgenes and underline their potential use for developmental studies and characterization of genomic sequences involved in spatiotemporal gene expression.  相似文献   

3.
We previously reported that genomic major histocompatibility complex class I human leukocyte antigen (HLA)-B7 gene constructs with as little as 0.66 kb of 5'- and 2.0 kb of 3'-flanking DNA were expressed efficiently and appropriately in transgenic mice. To identify and characterize the relevant cis-acting regulatory elements in more detail, we have generated and analyzed a series of transgenic mice carrying native HLA-B7 genes with further 5' truncations or intronic deletions and hybrid constructs linking the 5'-flanking region of B7 to a reporter gene. We were unable to detect a specific requirement for sequence information within introns 2 to 7 for either appropriate constitutive or inducible class I expression in adult animals. The results revealed the presence of cis-acting regulatory sequences between -0.075 kb and -0.66 kb involved in driving efficient copy number-dependent constitutive and gamma interferon-enhanced tissue-specific expression. The region from -0.11 to -0.66 kb is also sufficient to prevent integration site-specific "position effects," because in its absence HLA-B7 expression is frequently detected at significant levels at inappropriate sites. Conserved sequence elements homologous to the H-2 class I regulatory element, or enhancer A, and the interferon response sequence are located between about -151 and -228 bp of the B7 gene. Our results also indicate the existence of sequences downstream of -0.11 kb which can influence the pattern of tissue-specific expression of the HLA-B7 gene and the ability of this gene to respond to gamma interferon.  相似文献   

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DNA methylation of two murine major histocompatibility complex (H-2) class I genes was examined in hybridizations to MspI and HpaII chromosomal DNA restriction digests. Q10, which exhibits liver-specific expression, and H-2Kb, a transplantation antigen gene, were examined in liver, spleen, thymus, and cell-line DNAs. Unmethylated Q10 gene sequences were detected only in the liver, whereas the H-2Kb gene was unmethylated in all tissues examined.  相似文献   

6.
The mechanism that generates spontaneous mutants of the Kb histocompatibility gene was analyzed. Nucleotide sequence analysis of four mutant genes (Kbm3, Kbm4, Kbm10, and Kbm11) revealed that each mutant K gene contains clustered, multiple nucleotide substitutions. Hybridization analyses of parental B6 genomic DNA and cloned class I genes with mutant-specific oligonucleotide probes, followed by sequence analyses, have identified major histocompatibility complex class I genes in the K, D, and Tla regions (K1, Db, and T5, respectively) that contain the exact sequences as substituted into mutant Kb genes. These data provide evidence for the hypothesis that the mutant Kb genes are generated by a microrecombination (gene conversion) mechanism that results in the transfer of small DNA segments from class I genes of all four regions of the major histocompatibility complex (K, D, Qa, and Tla) to Kb. Many of the nucleotides substituted into the mutant Kb genes were identical to those found in other naturally occurring K alleles such as Kd. Thus, we propose that the accumulation of microrecombination products within the K genes of a mouse population is responsible for the high sequence diversity among H-2 alleles.  相似文献   

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Transcription of H-2 and Qa genes in embryonic and adult mice   总被引:17,自引:6,他引:11       下载免费PDF全文
K Fahrner  B L Hogan    R A Flavell 《The EMBO journal》1987,6(5):1265-1271
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We have taken the approach of producing somatic cell variants with altered H-2 products to study the structural requirements for cell surface expression of class I histocompatibility molecules. H-2 antigen variants generated by chemical mutagenesis of a cell line expressing the H-2b haplotype were first selected with alloantisera for their loss of H-2Kb expression, and then were analyzed by radioimmunoassay for the appearance of intracellular Kb antigen. For one such variant (69.9.15), whereas the H-2Kb antigen was absent from the cell surface as assayed by antibody-mediated complement-dependent cytotoxicity, an H-2Kb molecule was detected within the cell lysate as confirmed by direct immune precipitation with Kb-specific monoclonal antibodies. The product had an altered antigenic phenotype, since it reacted with only two anti-Kb monoclonal antibodies (Y-3 and EH-144) and not with a third (5F1.2). Analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis identified the beta 2 microglobulin-associated, intracellular H-2Kb heavy chain to be slightly smaller in Mr than the H-2Kb of the parental cell line. Hybridization analysis revealed the Kb gene from the variant to be without gross alterations, and furthermore, identified a Kb mRNA species that was identical in size to wild-type Kb mRNA. Because complementation was not observed after somatic cell fusion of variant cells with BALB/c splenocytes, it appeared that the alteration in Kb expression was due to a cis-acting defect. In addition, DNA-mediated gene transfer of the wild-type Kb gene into the variant cell line resulted in expression of the Kb antigen on the cell surface, thus confirming that the defect in expression of the mutant Kb product was not due to other factors in the 69.9.15 cell line. Such findings are consistent with the conclusion that stable H-2Kb surface-negative somatic variants can arise due to limited alterations in the Kb gene, resulting in the synthesis of a class I molecule that is expressed only as an intracellular product.  相似文献   

11.
The E alpha MHC class II gene with 1.4 kb of 5'-flanking and 0.5 kb of 3'-flanking sequences was introduced into (H-2b X s)F2 mice, which do not express their endogenous E alpha gene. The transgene was expressed in thymic tissue and in adherent spleen cells and was induced in peritoneal exudate cells by gamma-interferon. In contrast to the normal E alpha gene, there was no expression in B lymphocytes. Since transgenic animals made with constructs containing 3.2 kb and 2 kb of 5'-flanking sequences show normal expression pattern of the E alpha gene, it appears that deletion of 5'-flanking sequences between -1.4 kb and -2 kb inactivated or eliminated regulatory sequences required for expression of E alpha specifically in B cells. The presence of pBR327 DNA linked to the -1.4 kb E alpha transgene suppresses expression in peripheral adherent cells, yielding mice expressing E alpha only in the thymus. These mice appear to be tolerant to I-E, as measured in mixed leukocyte response experiments.  相似文献   

12.
A Kimura  A Isra?l  O Le Bail  P Kourilsky 《Cell》1986,44(2):261-272
Sequencing and deletion analyses of the H-2Kb promoter have suggested that several regions may be important for expression and regulation of this gene. Two of these regions are conserved inside the promoter of several genes coding for classical transplantation antigens, but not in the promoter of class I genes located in the Qa region. They display enhancer-like activity in cells that express H-2 genes, but show some tissue specificity in that they function very poorly in undifferentiated embryonal carcinoma cells in which H-2 genes are not expressed. They also have been shown not to be the target of the adenovirus-12 induced repression of class I gene expression recently demonstrated by Schrier et al. The promoter of the beta 2-microglobulin gene also contains a sequence with enhancer-like activity, but shares no homology with the H-2Kb promoter region.  相似文献   

13.
Non-self class I histocompatibility Ag can act as strong alloantigens and be recognized as distinct targets by CTL. To study the possibility of using allograft rejection to generate tumor-specific immunity, we have introduced an allogeneic class I histocompatibility gene, the H-2Kb gene, into a k haplotype tumor, K36.16, by DNA-mediated gene transfer. The K36.16 tumor grows readily and does not confer protective immunity in AKR mice. A total of 37 H-2Kb-transfected K36.16 clones (Kb/K36.16) was isolated and studied individually. The Kb/K36.16 clones were found to differ significantly in the amount of the exogenous H-2Kb antigens expressed on their cell surface. Moreover, as a result of the transfection, the level of expression of the endogenous H-2Dk Ag was also altered when compared to that of the parental K36.16 tumor cells. All the Kb/K36.16 clones that were positive for the H-2Kb Ag were rejected by the semisyngeneic AKR mice. Moreover, some of these Kb/K36.16 clones were also rejected by syngeneic (AKR x C57BL/10)F1 mice. In consequence of immunization with the Kb/K36.16 clones, the AKR and F1 mice were able to survive a subsequent challenge of the wild-type, unmodified, parental K36.16 tumor cells. More importantly, some of these Kb/K36.16 clones demonstrated an active and specific immunotherapeutic effect, and they were able to eradicate the growth of the parental K36.16 tumor cells in AKR mice. This observation therefore reinforces the feasibility of using DNA-mediated gene transfer as a molecular approach to abrogate tumor growth.  相似文献   

14.
The developmental regulation of the human globin genes involves a key switch from fetal (gamma-) to adult (beta-) globin gene expression. It is possible to study the mechanism of this switch by expressing the human globin genes in transgenic mice. Previous work has shown that high-level expression of the human globin genes in transgenic mice requires the presence of the locus control region (LCR) upstream of the genes in the beta-globin locus. High-level, correct developmental regulation of beta-globin gene expression in transgenic mice has previously been accomplished only in 30- to 40-kb genomic constructs containing the LCR and multiple genes from the locus. This suggests that either competition for LCR sequences by other globin genes or the presence of intergenic sequences from the beta-globin locus is required to silence the beta-globin gene in embryonic life. The results presented here clearly show that the presence of the gamma-globin gene (3.3 kb) alone is sufficient to down-regulate the beta-globin gene in embryonic transgenic mice made with an LCR-gamma-beta-globin mini construct. The results also show that the gamma-globin gene is down-regulated in adult mice from most transgenic lines made with LCR-gamma-globin constructs not including the beta-globin gene, i.e., that the gamma-globin gene can be autonomously regulated. Evidence presented here suggests that a region 3' of the gamma-globin gene may be important for down-regulation in the adult. The 5'HS2 gamma en beta construct described is a suitable model for further study of the mechanism of human gamma- to beta-globin gene switching in transgenic mice.  相似文献   

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We have cloned 26 different class I genes that are located in the major histocompatibility complex of the C57BL/10 mouse. Two of the three class I genes found in the H-2 complex encode the H-2Kb and H-2Db antigens; the other 23 class I genes map to the adjacent Tla complex. We have grouped the cosmids containing these genes into three clusters: one cluster links the H-2K and I-A regions, one cluster links the H-2D and Qa-2 regions, and the final cluster maps to the TL region. The class I gene organizations in the Qa-2 and TL regions of the C57BL/10 and BALB/c mice are generally similar, but there are several polymorphic segments. The Qa-2 region of both mice seems to have evolved by the duplication of gene pairs; furthermore, the H-2K region may have been generated by the translocation of a gene pair from the Qa-2 region. We have evidence that several of the genes in the Qa-2 region are expressed.  相似文献   

17.
We have ligated two cosmids through an oligonucleotide linker to produce a single fragment spanning 70 kb of the human alpha-globin cluster, in which the alpha-like globin genes (zeta 2, alpha 2 and alpha 1), their regulatory element (HS-40) and erythroid-specific DNase I hypersensitive sites accurately retain their normal genomic organization. The zeta (embryonic) and alpha (embryonic, fetal and adult) globin genes were expressed in all 17 transgenic embryos. Similarly, all fetal and adult mice from seven transgenic lines that contained one or more copies of the fragment, produced up to 66% of the level of endogenous mouse alpha-globin mRNA. However, as for smaller constructs containing these elements, human alpha-globin expression was not copy number dependent and decreased by 1.5-9.0 fold during development. These findings suggest that either it is not possible to obtain full regulation of human alpha-globin expression in transgenic mice or, more likely, that additional alpha-globin regulatory elements lie beyond the 70 kb segment of DNA analysed.  相似文献   

18.
Thymocytes fail to tolerize the developing T cell repertoire to self MHC class I (MHC I) Ags because transgenic (CD2Kb) mice expressing H-2Kb solely in lymphoid cell lineages reject skin grafts mismatched only for H-2Kb. In this study, we examined why thymocytes fail to tolerize the T cell repertoire to self MHC I Ags. The ability of CD2Kb mice to reject H-2Kb skin grafts was age dependent because CD2Kb mice older than 20 wk accepted skin grafts. T cells from younger CD2Kb mice proliferated, but did not develop cytotoxic functions in vitro in response to H-2Kb. Proliferative responses were dominated by H-2Kb-specific, CD4+ T cells rather than CD8+ T cells. Representative CD4+ T cell clones from CD2Kb mice were MHC II restricted and recognized processed H-2Kb. TCR transgenic mice were generated from one CD4+ T cell clone (361) to monitor development of H-2Kb-specific immature thymocytes when all thymic cells or lymphoid cell lineages only expressed H-2Kb. Thymocyte precursors were not eliminated and mice were not tolerant to H-2Kb when Tg361 TCR transgenic mice were intercrossed with CD2Kb mice. In contrast, all thymocyte precursors were eliminated efficiently in thymic microenvironments in which all cells expressed H-2Kb. We conclude that self MHC I Ags expressed exclusively in thymocytes do not induce T cell tolerance because presentation of processed self MHC I Ags on self MHC II molecules fails to induce negative selection of CD4+ T cell precursors. This suggests that some self Ags are effectively compartmentalized and cannot induce self-tolerance in the T cell repertoire.  相似文献   

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The regulated expression of major histocompatibility complex class I antigens is essential for assuring proper cellular immune responses. To study H-2 class I gene regulation, we have transferred a foreign class I gene to inbred mice and have previously shown that the heterologous class I gene was expressed in a tissue-dependent manner. In this report, we demonstrate that these mice expressed the transgenic class I molecule on the cell surface without any alteration in the level of endogenous H-2 class I antigens. Skin grafts from transgenic mice were rapidly rejected by mice of the background strain, indicating that the transgenic antigen was expressed in an immunologically functional form. As with endogenous H-2 class I genes, the class I transgene was inducible by interferon treatment and suppressible by human adenovirus 12 transformation. Linkage analysis indicated that the transgene was not closely linked to endogenous class I loci, suggesting that trans-regulation of class I genes can occur for class I genes located outside the major histocompatibility complex.  相似文献   

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