Role of the WT1 gene in Wilms' tumour.

Wilms' tumour is a paediatric kidney cancer which, in a substantial number of cases, has been associated with a genetic predisposition. Susceptibility to Wilms' tumour can be manifested by the presence of bilateral tumours, and in rare cases by a family history of this tumour or by associated congenital malformations. Like retinoblastoma, Wilms' tumour has been postulated to result from the inactivation of a tumour suppressor gene, although genetic studies implicate more than a single genetic locus.

Site-specific cleavage of human chromosome 4 mediated by triple-helix formation.

Direct physical isolation of specific DNA segments from the human genome is a necessary goal in human genetics. For testing whether triple-helix mediated enzymatic cleavage can liberate a specific segment of a human chromosome, the tip of human chromosome 4, which contains the entire candidate region for the Huntington's disease gene, was chosen as a target. A 16-base pyrimidine oligodeoxyribonucleotide was able to locate a 16-base pair purine target site within more than 10 gigabase pairs of genomic DNA and mediate the exact enzymatic cleavage at that site in more than 80 percent yield.

A gene encoding a fibroblast growth factor receptor isolated from the Huntington disease gene region of human chromosome 4.

The gene responsible for Huntington disease (HD), an autosomal dominant neurodegenerative disorder, is located near the terminus of the short arm of chromosome 4. Detailed genetic linkage and physical mapping studies have defined a region of approximately 2.5 million basepairs where the disease gene is likely to be located.

Targeted integration of adeno-associated virus (AAV) into human chromosome 19.

A key feature in adeno-associated virus (AAV) replication is efficient integration of the viral genome into host cell DNA to establish latency when helper virus is absent. The steps involved in this process remain largely uncharacterized, even though AAV integration was first documented 20 years ago. Using a protein--DNA binding method we isolated AAV--cellular junction DNA sequences.

Alternative splicing and genomic structure of the Wilms tumor gene WT1.

The chromosome 11p13 Wilms tumor susceptibility gene WT1 appears to play a crucial role in regulating the proliferation and differentiation of nephroblasts and gonadal tissue. The WT1 gene consists of 10 exons, encoding a complex pattern of mRNA species: four distinct transcripts are expressed, reflecting the presence or absence of two alternative splices. Splice I consists of a separate exon, encoding 17 amino acids, which is inserted between the proline-rich amino terminus and the zinc finger domains.

WT1 mutations contribute to abnormal genital system development and hereditary Wilms' tumour.

Wilms' tumour (WT), aniridia, genitourinary abnormalities and mental retardation form a symptom group (WAGR syndrome) associated with hemizygous deletions of DNA in chromosome band 11p13 (refs 1,2). However, it has not been clear whether hemizygosity at a single locus contributes to more than one phenotype. The tumour suppressor gene for Wilms' tumour, WT1, has been characterized: it is expressed at high levels in the glomeruli of the kidney, as well as the gonadal ridge of the developing gonad, the Sertoli cells of the testis and the epithelial and granulosa cells of the ovary, suggesting a developmental role in the genital system in addition to the kidney.

Generation and characterization of irradiation hybrids of human chromosome 4.

In recent years investigators have attempted to develop more rapid and precise methods to isolate specific chromosomal DNA regions. In this paper we demonstrate a modification of the method first developed by Goss and Harris for generation of irradiation hybrids. The gene encoding the dominant selectable marker for resistance to neomycin was introduced into human chromosome 4 using retroviral insertion into human fibroblasts.

Assignment of two of the translation initiation factor-4E (EIF4EL1 and EIF4EL2) genes to human chromosomes 4 and 20.

The eukaryotic translation initiation factor (eIF-4E) has recently been cloned from human, mouse, and yeast. This polypeptide is the rate-limiting component of the eukaryotic translation apparatus and is involved in the mRNA-ribosome binding step of eukaryotic protein synthesis. We have designed oligonucleotide primers to the 3' untranslated region of the gene encoding eIF-4E and specifically amplified the human gene in human/rodent somatic cell hybrids using the polymerase chain reaction.

Familial predisposition to Wilms tumor does not segregate with the WT1 gene.

Wilms tumor (WT) is one of the more common childhood cancers. A small fraction of WT occurs in association with aniridia, genitourinary abnormalities and mental retardation, the WAGR syndrome, and these cases often are accompanied by a constitutional deletion of all or part of band 11p13. Recently a WT susceptibility gene (WT1), localized to 11p13, has been isolated and shown to be inactivated in some sporadic WTs.

Expression of the Wilms' tumor gene WT1 in the murine urogenital system.

The Wilms' tumor gene WT1 is a recessive oncogene that encodes a putative transcription factor implicated in nephrogenesis during kidney development. In this report we analyze expression of WT1 in the murine urogenital system. WT1 is expressed in non-germ-cell components of the testis and ovaries in both young and adult mice.

Ordering three DNA polymorphisms on human chromosome 3 by sperm typing.

Three loci on the short arm of human chromosome 3 were ordered by sperm typing to expand the limited genetic map of this region. Almost 300 individual sperm from a donor triply heterozygous at D3S2, D3S11, and D3S12 were amplified by PCR using primers flanking the polymorphic site at each locus. Primary PCR product was reamplified using allele-specific primers of different lengths, allowing the allelic state at each locus to be determined by gel electrophoresis.

A tumor chromosome rearrangement further defines the 11p13 Wilms tumor locus.

A sporadic Wilms tumor, WT-21, with an (11;14)-(p13;q23) reciprocal translocation has been identified. The translocation is found in tumor cells, but not in the patients' circulating lymphocytes. Molecular analysis of somatic cell hybrids segregating the derivative translocation chromosomes reveals a submicroscopic interstitial deletion at the translocation breakpoint, as well as a cytologically undetectable interstitial deletion in the nontranslocation chromosome 11, resulting in a homozygous deletion in 11p13.

Exon amplification: a strategy to isolate mammalian genes based on RNA splicing.

We have developed a method, exon amplification, for fast and efficient isolation of coding sequences from complex mammalian genomic DNA. This method is based on the selection of RNA sequences, exons, which are flanked by functional 5' and 3' splice sites. Fragments of cloned genomic DNA are inserted into an intron, which is flanked by 5' and 3' splice sites of the human immunodeficiency virus 1 tat gene contained within the plasmid pSPL1.

Evidence for WT1 as a Wilms tumor (WT) gene: intragenic germinal deletion in bilateral WT.

The inactivation of two alleles at a locus on the short arm of chromosome 11 (band 11p13) has been suggested to be critical steps in the development of Wilms tumor (WT), a childhood kidney tumor. Two similar candidate WT cDNA clones (WT33 and LK15) have recently been identified on the basis of both their expression in fetal kidney and their location within the smallest region of overlap of somatic 11p13 deletions in some tumors. These homozygous deletions, however, are large and potentially affect more than one gene.

Smallest region of overlap in Wilms tumor deletions uniquely implicates an 11p13 zinc finger gene as the disease locus.

The development of Wilms tumor (WT) has been associated with the inactivation of a "tumor suppressor" locus in human chromosome 11 band p13. Several WTs that exhibit homozygous deletions of an 11p13 candidate WT gene in its entirety have been reported. We report here a partial deletion of the candidate gene which, upon comparison with other documented homozygous deletions, permitted a precise definition of the critical genomic target in Wilms tumor.

Structural rearrangements of the WT1 gene in Wilms' tumour cells.

We have analysed 55 Wilms' tumour DNAs using the cDNA from the candidate Wilms' predisposition gene, WT1. One tumour, GOS 129, shows a partial homozygous deletion involving only the 3'-most exon of the gene. An adjacent 3' DNA sequence, J7-18, which lies on the same NotI fragment as WT1, is present in GOS 129.

Calcium ionophore, A23187, induces commitment to differentiation but inhibits the subsequent expression of erythroid genes in murine erythroleukemia cells.

Murine erythroleukemia (MEL) cells are a useful model for studying the processes that regulate erythroid differentiation because exposure of these cells to a variety of chemical inducing agents results in expression of erythroid-specific genes and the resultant loss of cellular immortality. Previously it has been suggested that the calcium ionophore, A23187, has effects on the early cellular events that lead to the commitment of these cells to differentiation, but was not in itself sufficient to induce differentiation. We demonstrate here that A23187, as well as another calcium ionophore, ionomycin, are capable of inducing commitment to differentiation.

Isolation and characterization of irradiation fusion hybrids from mouse chromosome 1 for mapping Rmc-1, a gene encoding a cellular receptor for MCF class murine retroviruses.

An irradiation-reduced somatic cell hybrid mapping panel was constructed of BALB/c mouse Chromosome 1. Nineteen hybrids were selected from a pool of 292 clones to generate a fine structure physical map of the distal 40 cM of the chromosome. The hybrids contain mouse DNA fragments only from Chromosome 1, ranging from approximately 5 cM to approximately 20 cM.

Stem cell factor (SCF), a novel hematopoietic growth factor and ligand for c-kit tyrosine kinase receptor, maps on human chromosome 12 between 12q14.3 and 12qter.

Recently a novel hematopoietic growth factor, stem cell factor (SCF), was cloned and demonstrated to be the ligand for the c-kit tyrosine kinase receptor. In the mouse, SCF is encoded by Sl (steel), a gene critical to the development of several distinct cell lineages during embryonic life and which has important effects on hematopoiesis in the adult animal. The Sl/SCF locus maps to the distal region of mouse chromosome 10, in the vicinity of genes that have been mapped to human chromosome 12.

Isolation, characterization, and expression of the murine Wilms' tumor gene (WT1) during kidney development.

The human Wilms' tumor predisposition gene, WT1, is a Cys-His zinc finger polypeptide which appears to be a transcription factor controlling gene expression during embryonic kidney development. In order to analyze the role of the WT1 gene in nephroblast differentiation, we have isolated the murine homolog of human WT1. An extremely high level of amino acid sequence conservation (greater than 95%) extends throughout all regions of the predicted mouse and human WT1 polypeptides.

Direct pulsed field gel electrophoresis of Wilms' tumors shows that DNA deletions in 11p13 are rare.

In order to search for small tumor-specific deletions in 11p13 we analysed DNA isolated from 30 fresh Wilms' tumor (WT) samples with pulsed field gel electrophoresis. For these studies we have isolated new probes from the ends of several Notl fragments. Using these and previously described probes from 11p13 we first completed and extended the existing map of the 11p13 region.