Showing papers on "Exon published in 1991"

Identification of FAP locus genes from chromosome 5q21

Abstract: Recent studies suggest that one or more genes on chromosome 5q21 are important for the development of colorectal cancers, particularly those associated with familial adenomatous polyposis (FAP). To facilitate the identification of genes from this locus, a portion of the region that is tightly linked to FAP was cloned. Six contiguous stretches of sequence (contigs) containing approximately 5.5 Mb of DNA were isolated. Subclones from these contigs were used to identify and position six genes, all of which were expressed in normal colonic mucosa. Two of these genes (APC and MCC) are likely to contribute to colorectal tumorigenesis. The MCC gene had previously been identified by virtue of its mutation in human colorectal tumors. The APC gene was identified in a contig initiated from the MCC gene and was found to encode an unusually large protein. These two closely spaced genes encode proteins predicted to contain coiled-coil regions. Both genes were also expressed in a wide variety of tissues. Further studies of MCC and APC and their potential interaction should prove useful for understanding colorectal neoplasia.

A B cell-deficient mouse by targeted disruption of the membrane exon of the immunoglobulin μ chain gene

Abstract: OF the various classes of antibodies that B lymphocytes can produce, class M (IgM) is the first to be expressed on the membrane of the developing cells. Pre-B cells, the precursors of B-lymphocytes, produce the heavy chain of IgM (μ chain), but not light chains1. Recent data suggest that pre-B cells express μ chains on the membrane together with the 'surrogate' light chains λ5 and VpreB (refs 2–7). This complex could control pre-B-cell differentiation, in particular the rearrangement of the light-chain genes8. We have now assessed the importance of the membrane form of the μ chain in B-cell development by generating mice lacking this chain. We disrupted one of the membrane exons of the gene encoding the μ-chain constant region by gene targeting9 in mouse embryonic stem cells10. From these cells we derived mice heterozygous or homozygous for the mutation. B-cell development in the heterozygous mice seemed to be normal, but in homozygous animals B cells were absent, their development already being arrested at the stage of pre-B-cell maturation.

The Vascular Endothelial Growth Factor Family: Identification of a Fourth Molecular Species and Characterization of Alternative Splicing of RNA

Abstract: Vascular endothelial growth factor (VEGF) was recently identified as a secreted, direct-acting mitogen specific for vascular endothelial cells and capable of stimulating angiogenesis in vivo. Molecular cloning revealed multiple forms of VEGF, apparently arising from alternative splicing of its RNA transcript. We have examined various human cDNA libraries by the polymerase chain reaction technique and discovered a fourth molecular form, VEGF206. This form contains a 41-amino acid insertion relative to the most abundant form, VEGF165, and includes the highly basic 24-amino acid insertion found in VEGF189. Southern blot analysis revealed that a single gene encoded these various forms, and nucleic acid sequence analysis of a portion of the VEGF gene revealed an intron/exon structure compatible with alternative splicing of RNA as a mechanism for their generation. Transient transfection of human embryonic kidney 293 cells showed that, like VEGF189, VEGF206 was predominately cell-associated and only very poorly secreted despite the presence of the signal peptide identical to that found in VEGF121 and VEGF165, both of which are efficiently exported from the cell. Vascular permeability activity was detected in the medium of 293 cells transfected with all four forms of VEGF; however, endothelial cell mitogenic activity was apparent only with VEGF121 and VEGF165. Thus, alternative splicing of VEGF RNA can produce four polypeptides with strikingly different secretion patterns, which suggests multiple physiological roles for this family of proteins.

Mutational hotspot in the p53 gene in human hepatocellular carcinomas.

Abstract: Human hepatocellular carcinomas (HCC) from patients in Qidong, an area of high incidence in China, in which both hepatitis B virus and aflatoxin B1 are risk factors, were analysed for mutations in p53, a putative tumour-suppressor gene. Eight of the 16 HCC had a point mutation at the third base position of codon 249. The G----T transversion in seven HCC DNA samples and the G----C transversion in the other HCC are consistent with mutations caused by aflatoxin B1 in mutagenesis experiments. No mutations were found in exons 5,6,8 or the remainder of exon 7. These results contrast with p53 mutations previously reported in carcinomas and sarcomas of human lung, colon, oesophagus and breast; these are primarily scattered over four of the five evolutionarily conserved domains, which include codon 249 (refs 4-9). We suggest that the mutant p53 protein may be responsible for a selective clonal expansion of hepatocytes during carcinogenesis.

Early-onset Alzheimer's disease caused by mutations at codon 717 of the β-amyloid precursor protein gene

Abstract: A MUTATION at codon 717 of the β-amyloid precursor protein gene has been found to cosegregate with familial Alzheimer's disease in a single family1. This mutation has been reported in a further five out of ∼ 100 families multiply affected by Alzheimer's disease1–4. We have identified another family, F19, in which we have detected linkage between the β-amyloid precursor protein gene and Alzheimer's disease. Direct sequencing of exon 17 (ref. 5) in affected individuals from this family has revealed a base change producing a Val → Gly substitution, also at codon 717. The occurrence of a second allelic variant at codon 717 linked to the Alzheimer's phenotype supports the hypothesis that they are pathogenic mutations.

Control of c-myc regulation in normal and neoplastic cells.

Abstract: Publisher Summary This chapter discusses normal c-myc gene regulation and abnormal c-myc regulation in cancer cells. All normal c-myc transcription units are composed of three exons: the second two encoding the major c-myc proteins. These two exons have from 70% to over 90% sequence identity between species. All c-myc genes contain a long untranslated exon 1, suggesting an important function for this feature. Other members of the myc oncogene family, N-myc and L-myc, share the three-exon gene organization with exons 2 and 3 providing the major coding regions that exhibit highly conserved stretches of amino acids. A long untranslated exon 1 is present in both N-myc and L-myc genes. These exons have little homology to each other or to exon 1 of c-myc, lending further support to the notion of an important structural or regulatory role for c-myc leader regions via a sequence-independent mechanism. Ample direct and circumstantial evidence exists to implicate c-myc in neoplastic transformation. Indirect evidence is provided by the presence of the c-myc gene at various DNA rearrangements that characteristically accompany tumors, such as leukemias, lymphomas, and small-cell lung carcinomas. These rearrangements may lead to one or more of increased levels, constitutive synthesis, or alterations in ratios between the c-myc products. Mutations in c-myc protein coding regions occur, but are not characteristic of rearranged c-myc in tumor cells.

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

Abstract: 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. Splice II arises from the use of an alternative 5' splice junction and results in the insertion of 3 amino acids between zinc fingers 3 and 4. RNase protection analysis demonstrates that the most prevalent splice variant in both human and mouse is that which contains both alternative splices, whereas the least common is the transcript missing both splices. The relative distribution of splice variants is highly conserved between normal fetal kidney tissue and Wilms tumors that have intact WT1 transcripts. The ratio of these different WT1 mRNA species is also maintained as a function of development in the mouse kidney and in various mouse tissues expressing WT1. The conservation in structure and relative levels of each of the four WT1 mRNA species suggests that each encoded polypeptide makes a significant contribution to normal gene function. The control of cellular proliferation and differentiation exerted by the WT1 gene products may involve interactions between four polypeptides with distinct targets and functions.

Identification of a nonsense mutation in the rod photoreceptor cGMP phosphodiesterase beta-subunit gene of the rd mouse.

Abstract: Retinal degeneration in the mouse mutant, rd, was previously shown to be a disorder of cyclic nucleotide metabolism involving a deficiency in the activity of the rod photoreceptor cGMP phosphodiesterase (PDE). We have characterized the normal and rd PDE beta-subunit gene, and their respective transcripts, by PCR and direct sequence analysis. We show that the gene consists of at least 22 exons ranging in size from 48 base pairs to several hundred base pairs, covering greater than 25 kilobases. Within a 67-base-pair exon of the rd PDE beta-subunit gene, we identified a nonsense ochre mutation (a C----A transversion in codon 347) that truncates the normal gene product, eliminating more than one-half of the peptide chain, including the putative catalytic domain. The consequences of the truncation are consistent with the observed phenotypes in rd mice heterozygous and homozygous for the disorder. The nonsense mutation was also found in another related and in six unrelated strains displaying the rd phenotype, indicating that the rd allele arose from a single genetic event. The results strongly argue for the nonsense mutation being responsible for retinal degeneration in the rd mouse.

Allele-specific hypermethylation of the retinoblastoma tumor-suppressor gene.

Abstract: Inactivation of the retinoblastoma gene appears to have a fundamental role in the genesis of retinoblastoma, osteosarcoma, and other malignant tumors. The gene is generally inactivated because of loss-of-function mutations, although epigenetic phenomena, such as hypermethylation of the promoter region, could possibly have the same effect. We investigated the methylation pattern at the 5' end of the retinoblastoma gene, including its promoter region and exon 1, in DNA purified from 56 primary retinoblastomas. We found five tumors with evidence for hypermethylation, all from unilateral, simplex patients. No methylation abnormalities were detected in DNA purified from the leukocytes from these patients. It is interesting that in one of these tumors the hypermethylation was confined to one allele. There were no mutations in a 1,306-bp sequence including the hypermethylated region that might account for the allele-specific hypermethylation. We believe that the hypermethylation of the retinoblastoma gene that we found in these tumors corresponds to the allelic inactivation of the gene, and we speculate that erroneous hypermethylation without alteration of nucleotide sequence occasionally plays a role in the genesis of this cancer. If this is true, then retinoblastomas with hypermethylation might be treatable with chemotherapeutic agents that interfere with methylation of DNA.

CTLA-4 and CD28 activated lymphocyte molecules are closely related in both mouse and human as to sequence, message expression, gene structure, and chromosomal location.

Abstract: CD28, initially detected on human T lymphocytes with the help of antibodies, and CTLA-4, obtained by reverse genetics through its preferential expression in mouse activated T cells, are both single-V domain members of the Ig superfamily. Early work showed a relationship between these two molecules, which we wished to further document, in particular because of the growing realization of the functional importance of CD28 in some T cell activation pathways. Isolation and analysis of the mouse CTLA-4 gene and further analysis of the human CTLA-4 gene showed that both of these and the human CD28 gene share the same overall intron/exon organization. The nucleic acid sequence homology of the exons was found to extend across both molecules and species, whereas the 5' and 3' flanking regions exhibited homology across species but not between molecules. Message expression of human CTLA-4 was only detected in activated T cells and, thus, shares with that of mouse CTLA-4 and of mouse and human CD28 a lymphoid tissue distribution, although apparently broader for the latter. Two main human CTLA-4 transcripts of about 1.8 and 0.8 kb were detected, the smaller of which may derive, as reported for human CD28, from the use of an alternate degenerated polyadenylation signal sequence. The nucleic acid sequence data allowed a direct comparison of the four putative complete protein sequences of CD28 and CTLA-4 in the mouse and the human, showing striking homologies, especially in some stretches (such as a MYPPPY hexamer in the hinge region) conserved across molecules and across species. The mouse CD28 gene was localized to chromosome 1 band C by in situ hybridization with three different radioactive probes, indicating, together with previous data, that the CD28 and CTLA-4 genes map to the same chromosomal region in both the mouse and the human. Thus, CD28 and CTLA-4 were found to be strikingly similar in most respects, in terms of structure, sequence, expression, and gene location, furthermore in two species, strongly suggesting that their genes are the direct products of a duplication event and raising the possibility of functional homologies between the corresponding proteins.

p53 alteration is a common event in the spontaneous immortalization of primary BALB/c murine embryo fibroblasts.

Abstract: It has been shown previously that mutant p53 can act as an immortalizing gene when cotransfected into primary rat embryo fibroblasts along with a selectable marker. To determine whether a mutation at the p53 locus is a common event in the pathways leading to spontaneous cellular immortalization, 11 clonally derived BALB/c murine embryo fibroblast lines were established by passage on a 3T3 schedule and examined for p53 alterations. By the following criteria, all 11 independently established lines contain at least one mutant allele of p53. Seven of these lines have a PAb240-reactive p53 species and exhibit an extended p53 half-life as determined by pulse-chase analysis. The p53 protein species in a subset of these lines is also capable of complex formation with the constitutive heat shock protein hsc70. p53 cytoplasmic DNAs (cDNAs) from several of these lines have been cloned by reverse transcription of cytoplasmic RNA followed by PCR amplification, and the mutations have been mapped by DNA sequence analysis. Point mutation in conserved domains of p53 appears to be a common alteration in these lines, although one established line carries a 24-bp in-frame deletion of p53. The remaining four cell lines do not express detectable p53 protein. For each line there is a different molecular event underlying the lack of p53 expression: (1) deletion of at least the first 6 exons of both p53 alleles; (2) expression of a single p53 mRNA encoding a stop codon at amino acid position 173; (3) no detectable p53 mRNA; and (4) greatly diminished expression of p53 mRNA. These findings indicate that p53 alteration commonly occurs in spontaneously immortalized BALB/c mouse embryo fibroblasts passaged on a 3T3 schedule and, therefore, may be an important event for the immortalization process.

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

Abstract: 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. COS-7 cells are transfected with these constructs, and the resulting RNA transcripts are processed in vivo. Splice sites of exons contained within the inserted genomic fragment are paired with splice sites of the flanking tat intron. The resulting mature RNA contains the previously unidentified exons, which can then be amplified via RNA-based PCR and cloned. Using this method, we have isolated exon sequences from cloned genomic fragments of the murine Na,K-ATPase alpha 1-subunit gene. We have also screened randomly selected genomic clones known to be derived from a segment of human chromosome 19 and have isolated exon sequences of the DNA repair gene ERCC1. The sensitivity and ease of the exon amplification method permit screening of 20-40 kilobase pairs of genomic DNA in a single transfection. This approach will be extremely useful for rapid identification of mammalian exons and the genes from which they are derived as well as for the generation of chromosomal transcription maps.

The human fibroblast growth factor receptor genes: a common structural arrangement underlies the mechanisms for generating receptor forms that differ in their third immunoglobulin domain.

Abstract: To determine the mechanisms by which multiple forms of fibroblast growth factor (FGF) receptors are generated, we have mapped the arrangement of exons and introns in the human FGF receptor 1 (FGFR 1) gene (flg). We found three alternative exons encoding a portion of the third immunoglobulin (Ig)-like domain of the receptor. One of these alternatives encodes a sequence that is part of a secreted form of FGFR 1. The other two encode sequences that are likely part of transmembrane forms of FGFR 1. One of these forms has not been previously reported in published cDNAs. Also, we have determined the structural organization of a portion of the human FGFR 2 gene (bek) and found a similar arrangement of alternative exons for the third Ig-like domain. The arrangement of these genes suggests that there are conserved mechanisms governing the expression of secreted FGF receptors as well as the expression of at least two distinct membrane-spanning forms of the FGF receptors. The diverse forms appear to be generated by alternative splicing of mRNA and selective use of polyadenylation signals.

A de novo Alu insertion results in neurofibromatosis type 1.

Abstract: NEUROFIBROMATOSIS type 1 (NF1) is a common autosomal dominant disorder with a high mutation rate and variable expression, characterized by neurofibromas, cafe-au-lait spots, Lisch nodules of the iris, and less frequent features including bone deformities and learning disabilities1. The recently cloned NF1 gene encodes a transcript of 13 kilobases from a ubiquitously expressed locus on chromosome 17 (refs. 2–4). Most NF1 patients are expected to have unique mutations, but only a few have so far been characterized, restricting genetic and functional information and the design of DNA diagnostics. We report an unusual NF1 mutation, that of a de novo Alu repetitive element insertion into an intron, which results in deletion of the downstream exon during splicing and consequently shifts the reading frame. This previously undescribed mechanism of mutation indicates that Alu retrotrans-position is an ongoing process in the human germ line.

Multiple isoforms of the mouse retinoic acid receptor alpha are generated by alternative splicing and differential induction by retinoic acid.

Abstract: Together with the previously described mouse retinoic acid receptor alpha-1 (mRAR-alpha 1, formerly mRAR-alpha 0), we have isolated and characterized here a total of seven mRAR-alpha cDNA isoforms (mRAR-alpha 1 to alpha 7). These isoforms are generated from mRAR-alpha primary transcript(s) of a single gene by alternative splicing of at least eight different exons with the exon which encodes the amino acid sequence of their common B region. All of these isoforms differ in their 5'-untranslated regions (5'-UTRs) and, in the case of mRAR-alpha 1 and alpha 2, also in the sequences encoding the N-terminal A region which is known to be important for differential trans-activation by other members of the nuclear receptor superfamily. In addition, the sequences encoding the open reading frames (ORFs) of mRAR-alpha 3 and alpha 4 cDNA isoforms remain open to their very 5' ends, which suggests that these two isoforms may also encode RAR-alpha s with unique A region amino acid sequences. The two predominant isoforms, mRAR-alpha 1 and alpha 2, were found to be differentially expressed in mouse adult and fetal tissues, as well as in P19 and F9 embryonal carcinoma (EC) cell lines. Interestingly, the expression of mRAR-alpha 2, in contrast to that of the mRAR-alpha 1 isoform, was induced by retinoic acid (RA) in EC cells, thus suggesting the presence of two promoters in the 5' region of the mRAR-alpha gene, which differ in their response to RA. The conservation between mouse and human RAR-alpha 1 and alpha 2 cDNA isoform sequences, as seen by cross-hybridization in Southern blots or by DNA sequence analysis, together with their differential patterns of expression, strongly suggests that they perform specific functions during embryogenesis and in the adult.

Differentially expressed isoforms of the mouse retinoic acid receptor beta generated by usage of two promoters and alternative splicing.

Abstract: Using anchored PCR, three different cDNA isoforms of the mouse retinoic acid receptor beta [mRAR-beta 1, mRAR-beta 2 (formerly mRAR-beta 0) and mRAR-beta 3], generated from the same gene by differential promoter usage and alternative splicing, were isolated. These three isoforms encode RAR proteins with different N-terminal A regions and identical B - F regions. The sequence encoding the first 59 amino acids of the mRAR-beta 3 A region is identical with the entire A region of mRAR-beta 1. However, the sequence of mRAR-beta 3 region A differs from that of mRAR-beta 1 by an additional 27 C-terminal amino acids encoded in an 81 nucleotide-long putative exon which is spliced in between the exons encoding the A and B regions of mRAR-beta 1. Both mRAR-beta 1 and beta 3 cDNAs differ entirely from mRAR-beta 2 in their 5'-untranslated (5'-UTR) and A region coding sequences. This N-terminal variability, in a region which was shown to be important for cell-type specific differential target gene trans-activation by other nuclear receptors, suggests that the three mRAR-beta isoforms may be functionally distinct. The conservation of RAR-beta isoform sequences from mouse to human, as seen by cross-hybridization on Southern blots or DNA sequence analysis, as well as their differential patterns of expression in various mouse tissues, corroborates this view. Additionally, the mRNA analysis data suggest that mRAR-beta 2, whose expression predominates in RA-treated embryonal carcinoma (EC) and embryonic stem (ES) cells, may be important during early stages of development. mRAR-beta 1 and beta 3, on the other hand, which are predominantly expressed in fetal and adult brain, may play some specific role in the development of the central nervous system.

Mutation spectrum of the rhodopsin gene among patients with autosomal dominant retinitis pigmentosa.

Abstract: We searched for point mutations in every exon of the rhodopsin gene in 150 patients from separate families with autosomal dominant retinitis pigmentosa. Including the 4 mutations we reported previously, we found a total of 17 different mutations that correlate with the disease. Each of these mutations is a single-base substitution corresponding to a single amino acid substitution. Based on current models for the structure of rhodopsin, 3 of the 17 mutant amino acids are normally located on the cytoplasmic side of the protein, 6 in transmembrane domains, and 8 on the intradiscal side. Forty-three of the 150 patients (29%) carry 1 of these mutations, and no patient has more than 1 mutation. In every family with a mutation so far analyzed, the mutation cosegregates with the disease. We found one instance of a mutation in an affected patient that was absent in both unaffected parents (i.e., a new germ-line mutation), indicating that some "isolate" cases of retinitis pigmentosa carry a mutation of the rhodopsin gene.

Complete Structure of the Human Gene for 92-kDa Type IV Collagenase

Abstract: The complete structure of the human gene for 92kDa type IV collagenase was determined. Two overlapping genomic clones spanning 26 kilobases (kb) of genomic DNA were shown to contain the entire 7.7-kb structural gene together with 15 and 3.5 kb of 5’-end and 3’-end flanking regions, respectively. The 92-kDa type IV collagenase gene contains 13 exons as does the 72-kDa type IV collagenase gene. All intron locations of the 92-kDa enzyme gene coincided with intron locations in the 72-kDa enzyme gene. Exons 5,6, and 7 which were 174, 174, and 177 base pairs long, respectively, each encoded one complete internal repeat which resembles the collagen-binding domains of fibronectin. The sequence coding for a unique 48-residue segment in the 92-kDa type IV collagenase that has no counterpart in other metalloproteinases was not present in a separate exon, but was contained in exon 9 which also codes for sequences with homology to the

Characterization and molecular cloning of polypyrimidine tract-binding protein: a component of a complex necessary for pre-mRNA splicing.

Abstract: alpha-Tropomyosin exons 2 and 3 are spliced in a mutually exclusive manner. Exon 3 is included as the default exon in the mRNA of most cell types, whereas exon 2 is only included in the mRNA of smooth muscle cells. The primary determinant for the default selection of exon 3 is the branchpoint/polypyrimidine tract. This element upstream of exon 3 clearly and effectively outcompetes the corresponding element upstream of exon 2. To identify trans-acting factors that bind to this important cis element, we used UV cross-linking to identify a 57-kD protein whose binding characteristics directly correlate with 3'-splice-site selection in cis-competition splicing assays. This protein appears to be identical to polypyrimidine tract-binding protein. In this report we have used oligonucleotides derived from peptide sequences to isolate and sequence cDNA clones encoding this 57.2-kD protein. The primary sequence reveals a novel protein with significant homology to other RNA-binding proteins. Expression of the mRNA is detected in all tissues and cells examined, although its levels exhibit tissue-specific and developmental regulation. Using a biochemical complementation assay, we have found that this protein, along with a 100-kD protein, exists as part of a large complex that is required to rescue splicing from depleted nuclear extracts.

Control of doublesex alternative splicing by transformer and transformer-2 in Drosophila

Abstract: Sex-specific alternative processing of doublesex (dsx) precursor messenger RNA (pre-mRNA) regulates somatic sexual differentiation in Drosophila melanogaster. Cotransfection analyses in which the dsx gene and the female-specific transformer (tra) and transformer-2 (tra-2) complementary DNAs were expressed in Drosophila Kc cells revealed that female-specific splicing of the dsx transcript was positively regulated by the products of the tra and tra-2 genes. Furthermore, analyses of mutant constructs of dsx showed that a portion of the female-specific exon sequence was required for regulation of dsx pre-messenger RNA splicing.