Activation of the beta globin locus by transcription factors and chromatin modifiers.

Locus control regions (LCRs) alleviate chromatin-mediated transcriptional repression. Incomplete LCRs partially lose this property when integrated in transcriptionally restrictive genomic regions such as centromeres. This frequently results in position effect variegation (PEV), i.e. the suppression of expression in a proportion of the cells. Here we show that this PEV is influenced by the heterochromatic protein SUV39H1 and by the Polycomb group proteins M33 and BMI-1. A concentration variation of these proteins modulates the proportion of cells expressing human globins in a locus-dependent manner. Similarly, the transcription factors Sp1 or erythroid Krüppel-like factor (EKLF) also influence PEV, characterized by a change in the number of expressing cells and the chromatin structure of the locus. However, in contrast to results obtained in a euchromatic locus, EKLF influences the expression of the gamma- more than the beta-globin genes, suggesting that the relief of silencing is caused by the binding of EKLF to the LCR and that genes at an LCR proximal position are more likely to be in an open chromatin state than genes at a distal position.

Altered retinoic acid sensitivity and temporal expression of Hox genes in polycomb-M33-deficient mice.

The Polycomb group genes are required for the correct expression of the homeotic complex genes and segment specification during Drosophila embryogenesis and larval development. In mouse, inactivation studies of several Polycomb group genes indicate that they are also involved in Hox gene regulation. We have used our previously generated M33 mutants to study the function of M33, the mouse homologue of the Polycomb gene of Drosophila. In this paper, we show that in the absence of M33, the window of Hoxd4 retinoic acid (RA) responsiveness is opened earlier and that Hoxd11 gene expression is activated earlier in development This indicates that M33 antagonizes the RA pathway and has a function in the establishment of the early temporal sequence of activation of Hox genes. Despite the early activation, A-P boundaries are correct in later stages, indicating a separate control mechanism for early aspects of Hox regulation. This raises a number of interesting issues with respect to the roles of both Pc-G proteins and Hox regulatory mechanisms. We propose that a function of the M33 protein is to control the accessibility of retinoic acid response elements in the vicinity of Hox genes regulatory regions by direct or indirect mechanisms or both. This could provide a means for preventing ectopic transactivation early in development and be part of the molecular basis for temporal colinearity of Hox gene expression.

Altered lymphoid development in mice deficient for the mAF4 proto-oncogene.

Some chromosomal translocations in acute leukemias involve the fusion of the trithorax-related protein Mll (also called HRX, All1, Htrx,) with a variety of heterologous proteins. In acute lymphoblastic leukemia associated with the t(4;11)(q21;q23) translocation, the 4q21 gene that fuses with Mll is AF4. To gain insight into the potential role of AF4 in leukemogenesis and development, this gene was inactivated by homologous recombination in mice. As expected from the tissue distribution of the AF4 transcript, development of both B and T cells is affected in AF4 mutant mice. A severe reduction of the thymic double positive CD4/CD8 (CD4(+)/CD8(+)) population was observed; in addition most double- and single-positive cells expressed lower levels of CD4 and CD8 coreceptors. Most importantly, the reconstitution of the double-positive compartment by expansion of the double-negative cell compartment was severely impaired in these mutant mice. In the bone marrow pre-B and mature B-cell numbers are reduced. These results demonstrate that the function of the mAF4 gene is critical for normal lymphocyte development. This raises the possibility that the disruption of the normal AF4 gene or its association with Mll function by translocation may orient the oncogenic process toward the lymphoid lineage. This represents the first functional study using a knock-out strategy on one of the Mll partner genes in translocation-associated leukemias. (Blood. 2000;96:705-710)

Vertebrate orthologues of the Drosophila region-specific patterning gene teashirt.

In Drosophila the teashirt gene, coding for a zinc finger protein, is active in specific body parts for patterning. For example, Teashirt is required in the trunk (thorax and abdomen) tagmata of the embryo, parts of the intestine and the proximal parts of appendages. Here we report the isolation of vertebrate cDNAs related to teashirt. As in Drosophila, human and murine proteins possess three widely spaced zinc finger motifs. Additionally, we describe the expression patterns of the two murine genes. Both genes show regionalized patterns of expression, in the trunk, in the developing limbs and the gut.

Gene structure, expression pattern, and biological activity of mouse killer cell activating receptor-associated protein (KARAP)/DAP-12.

Natural killer cell and T cell subsets express at their cell surface a repertoire of receptors for MHC class I molecules, the natural killer cell receptors (NKRs). NKRs are characterized by the existence of inhibitory and activating isoforms, which are encoded by highly homologous but separate genes present in the same locus. Inhibitory isoforms express an intracytoplasmic immunoreceptor tyrosine-based inhibition motif, whereas activating isoforms lack any immunoreceptor tyrosine-based inhibition motif but harbor a charged amino acid residue in their transmembrane domain. We previously characterized KARAP (killer cell activating receptor-associated protein), a novel disulfide-linked tyrosine-phosphorylated dimer that selectively associates with the activating NKR isoforms. We report here the identification of the mouse KARAP gene, its localization on chromosome 7 and its genomic organization in five exons. Point mutation and transfection studies revealed that KARAP is a novel signaling transmembrane subunit whose transduction function depends on the integrity of an intracytoplasmic immunoreceptor tyrosine-based activation motif. In contrast to previous members of the immunoreceptor tyrosine-based activation motif polypeptide family, KARAP is ubiquitously expressed on hematopoietic and nonhematopoietic cells, suggesting its association with a broad range of activating receptors in a variety of tissues.

Genetic interactions and dosage effects of Polycomb group genes in mice.

In Drosophila and mouse, Polycomb group genes are involved in the maintenance of homeotic gene expression patterns throughout development. Here we report the skeletal phenotypes of compound mutants for two Polycomb group genes bmi1 and M33. We show that mice deficient for both bmi1 and M33 present stronger homeotic transformations of the axial skeleton as compared to each single Polycomb group mutant, indicating strong dosage interactions between those two genes. These skeletal transformations are accompanied with an enhanced shift of the anterior limit of expression of several Hox genes in the somitic mesoderm. Our results demonstrate that in mice the Polycomb group genes act in synergy to control the nested expression pattern of some Hox genes in somitic mesodermal tissues during development.

Altered cellular proliferation and mesoderm patterning in Polycomb-M33-deficient mice.

In Drosophila, the trithorax-group and the Polycomb-group genes are necessary to maintain the expression of the homeobox genes in the appropriate segments. Loss-of-function mutations in those groups of genes lead to misexpression of the homeotic genes resulting in segmental homeotic transformations. Recently, mouse homologues of the Polycomb-group genes were identified including M33, the murine counterpart of Polycomb. In this report, M33 was targeted in mice by homologous recombination in embryonic stem (ES) cells to assess its function during development. Homozygous M33 (-/-) mice show greatly retarded growth, homeotic transformations of the axial skeleton, sternal and limb malformations and a failure to expand in vitro of several cell types including lymphocytes and fibroblasts. In addition, M33 null mutant mice show an aggravation of the skeletal malformations when treated to RA at embryonic day 7.5, leading to the hypothesis that, during development, the M33 gene might play a role in defining access to retinoic acid response elements localised in the regulatory regions of several Hox genes.

Composite exon structure of an unusual Ig lambda-like gene located at human 22q11 position.

The surrogate light chain, composed of the VpreB and the lambda-like proteins, plays a critical role in controlling the early stages of B lymphocyte development. The lambda-like locus, located on the q11. 2-q11.3 region of human Chromosome (Chr) 22, contains three genes (14.1 Flambda-1, and 16.1) among which only the 14.1 is functional. This gene contains three exons, whereas the others lack exon 1. We have isolated in fetal liver a transcript of the Flambda-1 gene that contains the exon 3 sequence and a long non-Ig related sequence upstream. We show that this sequence resulted from the splicing of three new exons located telomeric to the Flambda-1 gene, highly homologous to beta-glucuronidase exon 11 (Chr 7), to the ABR exon 8 (Chr 17), and to an Expressed Sequence Tag (EST), respectively. We also show that this chimeric transcript is expressed in cells or tissues from various origins. This composite gene structure appears to be a new example of human genome flexibility, which can be explained by mechanisms such as exon shuffling and which results in the emergence of new transcription units inserted in regions involved in translocations.

Physical and transcriptional mapping of DXS56-PGK1 1 Mb region: identification of three new transcripts.

Several new techniques for isolation expressed sequences have been recently described considerably speeding up the identification of unknown genes. Here we present a transcriptional map of the 1 Mb DXS56-PGK1 region in Xq13.3. Rare cutter restriction site mapping, direct cDNA selection on membrane discs and probing of Northern blots with total YAC DNA, were the methods explored in order to achieve this goal. In addition to three known genes from this region which have been recloned, two new cDNA clones corresponding to two new genes were isolated, mapped and characterized. Moreover one more transcript, highly expressed in placenta, has been detected in the region with a total YAC as a probe. In summary there are at least six genes known to reside in the DXS56-PGK1 region. As several human disease gene loci (i.e. SCID, CMTX1, WWS, MRX, XDP, ASB) were tightly linked to the markers from the region (PGK, CA repeats), the three new transcripts may be considered as their potential candidate genes.

Structure and expression of the human trithorax-like gene 1 involved in acute leukemias.

The human trithorax-like gene 1 (Htrx1 gene) is disrupted in 11q23 translocations that are associated with acute leukemias. Sequencing of a partial human cDNA revealed an open reading frame encoding 1012 amino acids with extensive homology to the Drosophila trithorax protein, particularly in the zinc finger-like domains. Htrx1 gene appears to be unique in the human genome and has been conserved during evolution. Use of the human cDNA as a probe demonstrates that this gene is interrupted in both infant and adult acute myeloid (AML) and lymphoid (ALL) leukemia patients with 11q23 translocations. The structure of the Htrx1 gene around the breakpoints shows that this part of the human gene is interrupted by nine introns. As a result of the rearrangement, zinc finger domains are translocated in both ALL and AML patients. Expression studies reveal that the Htrx1 gene differentially expresses three transcripts within the normal lymphocyte cell lineage.

Tandem linkage of genes coding for leukemia inhibitory factor (LIF) and oncostatin M (OSM) on human chromosome 22.

Leukemia-inhibitory factor (LIF) and oncostatin M (OSM) are members of a family of structurally similar growth factors presenting overlapping and specific functions. Although the genes coding for IL-6, CSF3 and CNTF are scattered in the human and mouse genome, human LIF and OSM genes have conserved synteny in the course of evolution. Through isolation of a YAC and a cosmid clone containing both LIF and OSM we demonstrate that the two genes are linked in tandem on human chromosome 22q12, separated by 16 kilobases of intervening genomic DNA and transcribed in the same head-to-tail orientation. The close physical linkage between LIF and OSM genes brings new evidence of their evolutionary relationship.

Structure and linkage of the D2 dopamine receptor and neural cell adhesion molecule genes on human chromosome 11q23.

The gene encoding the D2 dopamine receptor (DRD2) is located on human chromosome 11q23 and has been circumstantially associated with a number of human disorders including Parkinson's disease, schizophrenia, and susceptibility to alcoholism. To determine the physical structure of the DRD2 gene, we utilized cosmid cloning, isolation of yeast artificial chromosomes (YACs), and pulsed-field gel electrophoresis to construct a long-range physical map of human chromosome 11q23 linking the genes for the DRD2 and neural cell adhesion molecule (NCAM). The D2 dopamine receptor gene extends over 270 kb and includes an intron of approximately 250 kb separating the putative first exon from the exons encoding the receptor protein. The resulting physical map spans more than 1.5 mb of chromosome band 11q23 and links the DRD2 gene with the gene encoding the NCAM located 150 kb 3' of the DRD2 gene and transcribed from the same DNA strand. We additionally located the sites of at least four hypomethylated HTF islands within the physical map, which potentially indicate the sites of additional genes. High-resolution fluorescent in situ suppression hybridization using cosmid and YAC clones localized this gene cluster between the ApoAI and STMY loci at the interface of bands 11q22.3 and 11q23.1.

A trithorax-like gene is interrupted by chromosome 11q23 translocations in acute leukaemias.

Some acute lymphocytic leukaemias, particularly those in young children, are associated with a t(4;11)(q21;q23) reciprocal translocation. We have cloned the translocation breakpoint on chromosome 11q23 and isolated corresponding RNA transcripts from this region. The translocation occurs within a cluster of Alu repetitive elements located within an intron of a gene that gives rise to 11.5 (kb) transcript spanning the translocation breakpoint. The 11.5 kb transcript encodes a protein that is highly homologous to the Drosophila trithorax gene, a developmental regulator. An analysis of a series of leukaemic patients carrying t(4;11) and t(9;11) translocations indicate that the majority of breakpoints in infant leukaemias lie within a 5 kb region.

Detection and characterization of "chimeric" yeast artificial chromosome clones by fluorescent in situ suppression hybridization.

"Chimeric" yeast artificial chromosomes (YACs) are clones containing two or more noncontiguous segments of DNA and represent the most common artifact found in total genomic YAC libraries currently used for large-scale genome mapping. These YACs create spurious mapping information that complicates the construction of YAC contigs and leads to erroneous maps during chromosome walks. The presence of these artifactual clones necessitates laborious and time-consuming characterization of each isolated YAC clone, either by comparison of the physical map of the YAC with the corresponding source genomic DNA, or by demonstrating discrepant chromosomal origins for the two ends of the YAC by hybridization or polymerase chain reaction (PCR). Here, we describe a rapid and sensitive method for the assessment of YAC colinearity by fluorescence in situ suppression hybridization (FISSH) by utilizing fluorescein-12-dUTP for labeling YAC clones. We have analyzed 51 YACs and found that 43% (22 out of 51) are chimeric and significantly larger (302 kb) than colinear ones (228 kb). One of the 51 YAC clones (2%) examined contains portions of three chromosomes and 2 (4%) seem to map to a chromosome different than that of the identifying STS. FISSH analysis offers a straightforward visualization of the entire YAC insert on the chromosomes and can be used to examine many YACs simultaneously in few days.

Laser microdissection of the fragile X region: identification of cosmid clones and of conserved sequences in this region.

Laser microdissection has been used to dissect material from the X-chromosome region involved in fragile-X-linked mental retardation. After dissection, single chromosome slices corresponding to this fragile site were subjected to DNA amplification using either a vector ligation method (to provide known anchor sequences) or primer oligonucleotides corresponding to the ubiquitous Alu sequences. Amplified material was then cloned or, alternately, used to screen a gridded cosmid library. Eight cosmid clones identified in this way were regionally mapped using a panel of hybrid cell lines and shown to originate from a narrow interval centered on the fragile X site. Two clones are included in the approximately 6-cM interval defined by probes RNI (DXS369, 5 cM proximal) and VK21 (DXS 296, 1-2 cM distal) and which includes the fragile site, and at least one clone contains sequences conserved across species suggestive of a gene. This method combines the focused approach of microdissection and the convenience of obtaining cosmid (rather than small-insert) clones; it may be useful for studies of other defined chromosomal regions.