The genes for tumor necrosis factor (TNF-alpha) and lymphotoxin (TNF-beta) are tandemly arranged on chromosome 17 of the mouse

We have isolated clones containing the gene for tumor necrosis factor (TNF-alpha) from a mouse genomic library. Four out of five clones containing the TNF-alpha gene also hybridized to a human lymphotoxin (TNF-beta) probe. We constructed a restriction enzyme cleavage map of a 6.4 kb region from one of the genomic clones. From partial sequencing data and hybridizations with exon-specific oligonucleotide probes, we conclude that this region contains the mouse TNF-alpha and TNF-beta genes in a tandem arrangement, that they are separated by only about 1100 bases, and that their intron-exon structure is very similar to that seen in man. We probed genomic blots of DNA from human/mouse hybrids containing single mouse chromosomes for the presence of the mouse TNF genes. The results show that the genes are located on mouse chromosome 17, which also contains the major histocompatibility complex. Therefore, both the mouse and the human TNF genes are tandemly arranged and located on the same chromosome as the MHC.     

Does the rat have an H2-D orthologue next to Bat1?

Unlike all other mammalian species, which have only one class I region, rat and mouse possess a second class I region on the centromeric side of the MHC. The mouse has class Ia genes in both the centromeric H2-K and the telomeric H2-D region, whereas the rat has class Ia genes only in the centromeric RT1.A region. Bat1 is the last gene of the class III region in the mouse, and H2-D was mapped 10 kb telomeric of Bat1. To determine whether the rat possesses an H2-D orthologue, we sequenced a cosmid clone that contains rat Bat1 and an adjacent class I gene, RT1.46 (l). Homology searches suggest a transition in the rat sequence with a proximal stretch containing Nfkbil1, ATP6G, and Bat1, which is homologous to the mouse H2-D region, and a more-distal stretch, which contains the class I gene and has many similarities to mouse H2-Q region sequences. Downstream of Bat1 is a sequence stretch with great similarity to intron 3 of H2-D, which is not present in any of the rat class I genes but is found in mouse H2-K, D-, and - Q region genes. Numerous repetitive elements indicate that the region is prone to repeat-mediated rearrangements. A putative H2-D orthologue may have been present at this location and lost by genomic rearrangements, leaving the short intronic sequence behind. The class I gene RT1.46 (l) has an open reading frame, but it is unlike H2-D due to a unique 5'UTR shared with H2-Q1 and Q2, the absence of the B2 SINE repeat characteristic of H2-D/L, and the apparent lack of surface expression. We conclude that at least the LEW rat (RT1 (l)) does not possess an H2-D orthologue.     

Conservation of the central MHC genome: PFGE mapping and RFLP analysis of complement,HSP70, and TNF genes in the goat

A degree of conservation of the genes located between class II and class I [central major histocompatibility complex (MHC) genes] is apparent among mammalian species including primates and the mouse. Few others have been analyzed. The caprine MHC is of particular interest, since it has recently been observed that susceptibility to a lentivirus-induced polyarthritis (caprine arthritis) segregates with serologically defined MHC class I antigens. This arthritis resembles, in a number of respects, rheumatoid arthritis in man. Human cDNA probes were used to examine the caprine central MHC and class I and II genes by restriction fragment length polymorphism (RFLP) and by pulsed field gel electrophoresis (PFGE) in order to define the polymorphism and linkage of central MHC genes to class I and class II genes. An outbred population of dairy goats (Saanen, British Alpine, Anglo Nubian, and Toggenberg) was examined for class I and class II RFLPs. Both regions were found to be highly polymorphic. The number of fragments hybridizing to an HLA-B7 probe after Eco RI, Bam HI, Bgl II, or Hind III digestion suggests there may be 10–13 class I genes. The degree of polymorphism was comparable to that reported in the mouse. Limited polymorphism was found in the central MHC genes. The caprine C4 and CYP21 genes were duplicated and demonstrated RFLP with Bam HI, Hind III, Eco RV, and Taq I. An infrequent Taq I C2 polymorphism was found. PFGE revealed substantial conservation of both the order and linkage of the central MHC genes when compared with mous and man. C4, C2, CYP21, HSP70, and tumor necrosis factor (TNF) genes are all located within 800 kilobase (kb) of the class I loci. Distant from the class I region, the C4, C2, and CYP21 genes are linked on a short genomic segment (180 kb Not I and 190 kb Pvu I fragments). HSP70 cohybridizes with the complement genes on a 380 kb Mlu I fragment. Linkage of HSP70, TNF, and class I genes was found on a single Not I fragment (610 kb). TNF and class I cohybridize on Pvu I (730 kb) and Not I (610 kb) fragments. Conservation of a similar central MHC genomic structure across species argues for functional interaction between the central MHC genes. We postulate selection for these central MHC genes through their role as non antigen-specific regulators of immune response.     

Conservation of the RD-BF-C2 organization in the pig MHC class-III region: mapping and cloning of the pig RD gene

The RD gene, named after the arginine (R) and aspartic acid (D) repeat in the central part of its protein, was initially mapped in the mouse H-2S subregion between C4 and BF. It was later mapped in the same position in the human MHC and here we show it is also conserved in the pig MHC class III region, close to the complement BF gene. A pig RD genomic clone was isolated from a γ-phage library. Hybridizations on genomic DNA separated with pulsed field gel electrophoresis identified common 220kb Nrul, 130 kb EagI and 200 kb Mlul bands for RD, BF and C2. The RD gene has also a 17 kb Kpnl and 11 kb Sad fragment in common with BFbut not with C2. The close linkage of the RD and BF genes was further established by hybridization of BF to a genomic γ-phage clone also containing the RD gene. This genomic RD clone overlaps with a γ -phage clone previously isolated and containing the complete BF gene and the 3' part of C2. The distance between RD and BF is about 6 kb. The junction between the two complement genes BF and C2 was sequenced and the BF 5' promoter region, overlapping the 3' noncoding region of C2, was compared with that of the human BF promoter. The overall homology was about 80% and all but one identified promoter elements were found in the same position in both genes. The results obtained demonstrate the RD-BF-C2 organization is strongly conserved between human, mouse and pig. No polymorphisms were detected in either the RD gene or in the BF promoter region using polymerase chain reaction and restriction fragment polymorphism analysis.     

The murine MHC encodes a mammalian homolog of bacterial ribosomal protein S13

The mouse major histocompatibility complex (MHC) contains many genes in addition to the classical immune response genes. We have screened overlapping cosmid clones covering 170 kb of the H-2K region for genes expressed in embryonal carcinoma (EC) cells. The Ke-3 gene (Abe et al. 1988) found in this region was further studied by Southern, Northern, and sequence analysis. It is an expressed, intron-containing locus encoding a mouse homolog of the bacterial ribosomal protein S13. This is the first nonorganelle S13 homolog identified in metazoans, and its genomic location has been determined precisely.     

Characterization of six new loci within the swine major histocompatibility complex class III region

A search for new potential coding sequences was conducted within two overlapping cosmid genomic DNA clusters of about 170 and 45 kb from the swine major histocompatibility complex class III region. The sequences were detected with various probes, including pools of swine cDNA, homologous and heterologous genomic sequences, and synthetic oligonucleotides. The 170 kb cluster was centered on the tumor necrosis factor genes (TNF), and the 45 kb cluster contained the heat-shock protein 70 genes (HSP70). The TNF cluster revealed the presence of five new genes: lymphotoxin , BAT1, BAT2, BAT3, and a sequence related to DNA-binding factors. No sequence homologous to B144 was found in the TNF cluster, although other unidentified coding sequences may be present in this cluster. The HSP70 cluster contained a gene identified as BAT6, that is, tRNA-valyl synthetase. These results provide new evidence that the genomic maps of these various genes in the TNF and HSP70 sub-regions are similar in swine and human.     

Gene organisation, sequence variation and isochore structure at the centromeric boundary of the human MHC.

We have mapped and sequenced the region immediately centromeric of the human major histocompatibility complex (MHC). A cluster of 13 genes/pseudogenes was identified in a 175 kb PAC linking the TAPASIN locus with the class II region. It includes two novel human genes (BING4 and SACM2L) and a thus far unnoticed human leucocyte antigen (HLA) class II pseudogene, termed HLA-DPA3. Analysis of the G+C content revealed an isochore boundary which, together with the previously reported telomeric boundary, defines the MHC class II region as one of the first completely sequenced isochores in the human genome. Comparison of the sequence with limited sequence from other cell lines shows that the high sequence variation found within the classical class II region extends beyond the identified isochore boundary leading us to propose the concept of an "extended MHC". By comparative analysis, we have precisely identified the mouse/human synteny breakpoint at the centromeric end of the extended MHC class II region between the genes HSET and PHF1.     

Genotype versus phenotype: conflicting results in mapping a lung tumor susceptibility locus to the G7c recombination interval in the mouse MHC class III region

Susceptibility to chemically induced lung tumorigenesis has previously been mapped to a genomic interval of 27 kb in the MHC class III region of the mouse using two H2 (a/b) intra- H2 recombinants, B10.A(1R) and B10.A(2R). Three genes are located within this interval, G7e (encoding a viral envelope protein), G7a/ Vars2 (encoding valyl-tRNA synthetase), and G7c (a gene with unknown function). A 70 kb contig, spanning the 27 kb region and extending 20 kb either side, was constructed from lambda phage libraries with genomic inserts derived from mouse strains B10.A(1R) and B10.A(2R). The region was analyzed for single-nucleotide polymorphisms, which would facilitate further fine mapping of the interval. Analysis of the expression levels of the candidate genes did not reveal any difference between B10.A(1R) and B10.A(2R). In addition, no differences were found at the sequence level in the 27 kb interval except for an A to T transition in intron 7 of G7c. A database comparison of the sequence surrounding this polymorphism did not identify any DNA-binding or enhancer consensus sequence. In conclusion, the previously observed phenotype could not be associated with or assigned to any of the candidate genes G7e, G7a/ Vars2, or G7c, nor could any of the other susceptibility loci, which have been reported to map to this region ( Cps1, Acp, Orch1, and Igis1).     

The <Emphasis Type="Italic">Tnfrh1</Emphasis> (<Emphasis Type="Italic">Tnfrsf23</Emphasis>) gene is weakly imprinted in several organs and expressed at the trophoblast-decidua interface

Background  

The Tnfrh1 gene (gene symbol Tnfrsf23) is located near one end of a megabase-scale imprinted region on mouse distal chromosome 7, about 350 kb distant from the nearest known imprinting control element. Within 20 kb of Tnfrh1 is a related gene called Tnfrh2 (Tnfrsf22) These duplicated genes encode putative decoy receptors in the tumor necrosis factor (TNF) receptor family. Although other genes in this chromosomal region show conserved synteny with genes on human Chr11p15.5, there are no obvious human orthologues of Tnfrh1 or Tnfrh2.     

Comparative genomic sequencing reveals a strikingly similar architecture of a conserved syntenic region on human chromosome 11p15.3 (including gene ST5) and mouse chromosome 7

Comparative genomics is a superior way to identify phylogenetically conserved features like genes or regions involved in gene regulation. The comparison of extended orthologous chromosomal regions should also reveal other characteristic traits essential for chromosome or gene function. In the present study we have sequenced and compared a region of conserved synteny from human chromosome 11p15.3 and mouse chromosome 7. In human, this region is known to contain several genes involved in the development of various disorders like Beckwith-Wiedemann overgrowth syndrome and other tumor diseases. Furthermore, in the neighboring chromosome region 11p15.5 extensive imprinting of genes has been reported which might extend to region 11p15.3. The analysis of approximately 730 kb in human and 620 kb in mouse led to the identification of eleven genes. All putative genes found in the mouse DNA were also present in the same order and orientation in the human chromosome. However, in the human DNA one putative gene of unknown function could be identified which is not present in the orthologous position of the mouse chromosome. The sequence similarity between human and mouse is higher in transcribed and exon regions than in non-transcribed segments. Dot plot analysis, however, reveals a surprisingly well-conserved sequence similarity over the entire analyzed region. In particular, the positions of CpG islands, short regions of very high GC content in the 5' region of putative genes, are similar in human and mouse. With respect to base composition, two distinct segments of significantly different GC content exist as well in human as in the mouse. With a GC content of 45% the one segment would correspond to "isochore H1" and the other segment (39% GC in human, 40% GC in mouse) to "isochore L1/L2". The gene density (one gene per 66 kb) is slightly higher than the average calculated for the complete human genome (one gene per 90 kb). The comparison of the number and distribution of repetitive elements shows that the proportion of human DNA made up by interspersed repeats (43.8%) is significantly higher than in the corresponding mouse DNA (30.1%). This partly explains why the human DNA is longer between the landmark genes used to define the orthologous positions in human and mouse.     

A second susceptibility gene for developing rheumatoid arthritis in the human MHC is localized within a 70-kb interval telomeric of the TNF genes in the HLA class III region

Rheumatoid arthritis (RA) is a chronic inflammatory joint disease with a multifactorial genetic basis. However, pathogenic genes for RA other than the human leukocyte antigen (HLA)-DRB1 gene have yet to be identified. Here, we investigated whether there is a second susceptibility locus for RA within the human major histocompatibility complex using 18 microsatellite markers distributed from the centromeric (HSET) to the telomeric end (P5-15) of the 3.6-Mb HLA region. Statistical studies of associated alleles on each microsatellite locus showed that one pathogenic gene for RA in the HLA region is localized in the DRB1 gene, as expected. Further, a second susceptibility gene of RA was suggested to be present in the HLA class III region, narrowed to 70 kb, that is just telomeric of the TNF gene cluster (TNFA and LTA) and that is located between the microsatellites TNFa and C1-2-A. In this critical segment, four expressed genes have been thus far identified, NFKBIL1 (IkappaBL), ATP6G, BAT1, and MICB, all of which are candidate genes for determining susceptibility to RA. These results exclude the possibility of involvement of the TNFA genes (TNF-alpha) in the development of RA, which was suggested previously to be a strong candidate for RA in the class III region.     

Cloning of human immunoglobulin mu gene and comparison with mouse mu gene

We have cloned a 12 kb DNA segment containing human mu gene and its flanking sequence from human fetal liver DNA library using mouse mu gene as a probe. Partial nucleotide sequence determination shows that the cloned DNA contains the sequence encoding human mu chain. This is the first constant region gene of the human heavy chain that is cloned. We have compared human and mouse mu genes by heteroduplex analysis and Southern blot hybridization. The results clearly show that not only the sequence encoding the CH4 domain but also the 5'-flanking (S mu) sequence is conserved between human and mouse mu genes, suggesting that the nucleotide sequence in the S mu region has an important biological function, presumably a recognition signal for the class switch recombinant as proposed previously.     

Close genetic and physical linkage between the murine haemopoietic growth factor genes GM-CSF and Multi-CSF (IL3).

The two murine haemopoietic growth factors, granulocyte-macrophage colony stimulating factor (GM-CSF) and Multi-CSF (interleukin 3) stimulate the proliferation and differentiation of an overlapping set of haemopoietic progenitor cells and are produced coordinately following activation of T lymphocytes. Here we report the chromosomal location of the genes encoding these two factors. Initially both genes were assigned to chromosome 11 by analysis of mouse/Chinese hamster somatic cell hybrids. Genetic analysis using an interspecies (Mus musculus X Mus spretus) back-cross confirmed this assignment by demonstrating that both the GM-CSF and Multi-CSF genes are genetically linked to the SPARC gene, which had been independently assigned to sub-band B1 of chromosome 11. Analysis of physical distances by pulsed field gel electrophoresis demonstrated further that the two CSF genes lie within 230 kb of each other. However examination of the subchromosomal region containing all three loci by pulsed field gel analysis showed that SPARC is at least 400-500 kb distant from the region containing the two CSF genes.