38 results on '"van der Klift H"'
Search Results
2. Multiplicity in polyp count and extracolonic manifestations in 40 Dutch patients with MYH associated polyposis coli (MAP)
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Nielsen, M, Franken, P F, Reinards, T H C M, Weiss, M M, Wagner, A, van der Klift, H, Kloosterman, S, Houwing-Duistermaat, J J, Aalfs, C M, Ausems, M G E M, Bröcker-Vriends, A H J T, Garcia, E B Gomez, Hoogerbrugge, N, Menko, F H, Sijmons, R H, Verhoef, S, Kuipers, E J, Morreau, H, Breuning, M H, Tops, C M J, Wijnen, J T, Vasen, H F A, Fodde, R, and Hes, F J
- Published
- 2005
3. A new deletion polymorphism at D5S71 raises the linkage information on adenomatous polyposis coli: implications for presymptomatic diagnosis
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Tops, C. M. J., Breukel, C., van der Klift, H. M., Leeuwen, I. S. J. v., Wijnen, J. T., Griffioen, G., Vasen, H. F. A., den Hartog Jager, F. C. A., Nagengast, F. M., Lamers, C. B. H. W., and Khan, P. Meera
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- 1991
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4. Toxicological Assessment of River Water Quality in Bioassays with Fish
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Van Der Gaag, M. A., Van De Kerkhoff, J. F. J., Van Der Klift, H. W., Poels, C. L. M., Best, E. P. H., editor, and Haeck, J., editor
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- 1983
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5. The MSH2 exon 5 deletion (c.792+8_943-450del) is a founder mutation in Portuguese Lynch syndrome families with a Center-South ancestry
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Francisco, Inês, Claro, I., Lage, P., Ferreira, S., Rosa, I., Rodrigues, P., Theisen, Periera, Pereira-Caetano, Iris, van der Klift, H., Tops, C., Gonçalves, João, Dias Pereira, A., and Albuquerque, Cristina
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Lynch syndrome ,Cancro Coloretal ,Doenças Genéticas ,MSH2 - Abstract
Introduction: Lynch syndrome (LS) is a hereditary colorectal cancer syndrome caused by germline mutations in the DNA mismatch repair (MMR) genes. Worldwide, large genomic deletions, particularly in MSH2 gene, account for ~20% of the mutational spectrum. The aim of this study was to evaluate a possible founder effect of a recurrent exon 5 deletion in MSH2 gene, detected in 10% of the families from the LS family registry of the Portuguese Oncology Institute in Lisbon. This mutation was not reported by other Portuguese Oncology Centers and it was described only once in the literature, in a family with Portuguese ancestry [1]. Methods: We analyzed 15 unrelated LS families (11 from our registry, 3 from INSA and one family from LUMC) with the MSH2 exon 5 deletion, detected by MLPA, including a total of 57 individuals (30 carriers and 27 non-carriers, all samples were anonymized). The genomic breakpoint was identified by direct sequencing and haplotype analysis was performed using 6 microsatellite markers flanking MSH2 (from D2S2174 to D2S123, spanning ~6Mb) and three intragenic SNPs. Results: All families shared the same deletion breakpoints (c.792+8_943-450del) and a common haplotype, extending from D2S391 to D2S2227 microsatellite marker (0.858 Mb). Considering the average of mutation and recombination events in this region, we estimate that this mutation occurred ~400 years ago. Discussion: Our data suggests that the MSH2 exon 5 deletion (c.792+8_943-450del) is a founder mutation in Portugal, which is reinforced by the fact that, for seven families, it has been possible already to establish a common geographical origin. Moreover, the high frequency of the exon 5 deletion in our LS registry indicates that screening of this mutation, using MLPA, should be considered a first and cost-effective approach in the genetic diagnosis of suspected LS families with a Portuguese ancestry, especially in those with a Center-South origin. [1] – Soravia et al., Am J Med Genet A. 2003
- Published
- 2014
6. A founder mutation of the MSH2 gene and hereditary nonpolyposis colorectal cancer in the United States
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Lynch, HT, Coronel, SM, Okimoto, R, Hampel, H, Sweet, K, Lynch, JF, Barrows, A, van Wijnen, J (Juul), van der Klift, H, Franken, Patrick, Wagner, Anja, Fodde, Riccardo, de la Chapelle, A, Neurology, Pathology, and Clinical Genetics
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SDG 3 - Good Health and Well-being - Published
- 2004
7. MSH2 genomic deletions are a frequent cause of HNPCC
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Riccardo Fodde, Pål Møller, van der Klift H, Juul T. Wijnen, Carli M. J. Tops, Fred H. Menko, Dick Lindhout, Hans F. A. Vasen, Meijers Heijboer H, Khan Pm, Neurology, Clinical Genetics, and Other departments
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Genetics ,Base Sequence ,business.industry ,Base Pair Mismatch ,Exons ,Biology ,Colorectal Neoplasms, Hereditary Nonpolyposis ,DNA-Binding Proteins ,Text mining ,MutS Homolog 2 Protein ,MSH2 ,Proto-Oncogene Proteins ,Humans ,Genetic Predisposition to Disease ,business ,Gene Deletion - Published
- 1998
8. Seven new mutations in hMSH2, an HNPCC gene, identified by denaturing gradient-gel electrophoresis
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Wijnen J, Hans Vasen, Pm, Khan, Fh, Menko, van der Klift H, van Leeuwen C, van den Broek M, van Leeuwen-Cornelisse I, Nagengast F, Meijers-Heijboer A, and Other departments
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Electrophoresis ,congenital, hereditary, and neonatal diseases and abnormalities ,Polymorphism, Genetic ,Base Sequence ,Denmark ,Molecular Sequence Data ,nutritional and metabolic diseases ,Pilot Projects ,Exons ,Sequence Analysis, DNA ,Original Articles ,Nucleic Acid Denaturation ,Colorectal Neoplasms, Hereditary Nonpolyposis ,Polymerase Chain Reaction ,digestive system diseases ,DNA-Binding Proteins ,MutS Homolog 2 Protein ,Italy ,Proto-Oncogene Proteins ,Mutation ,Humans ,Netherlands - Abstract
Hereditary nonpolyposis colorectal cancer (HNPCC) is a relatively common autosomal dominant cancer-susceptibility condition. The recent isolation of the DNA mismatch repair genes (hMSH2, hMLH1, hPMS1, and hPMS2) responsible for HNPCC has allowed the search for germ-line mutations in affected individuals. In this study we used denaturing gradient-gel electrophoresis to screen for mutations in the hMSH2 gene. Analysis of all the 16 exons of hMSH2, in 34 unrelated HNPCC kindreds, has revealed seven novel pathogenic germ-line mutations resulting in stop codons either directly or through frameshifts. Additionally, nucleotide substitutions giving rise to one missense, two silent, and one useful polymorphism have been identified. The proportion of families in which hMSH2 mutations were found is 21%. Although the spectrum of mutations spread at the hMSH2 gene among HNPCC patients appears extremely heterogeneous, we were not able to establish any correlation between the site of the individual mutations and the corresponding tumor spectrum. Our results indicate that, given the genomic size and organization of the hMSH2 gene and the heterogeneity of its mutation spectrum, a rapid and efficient mutation detection procedure is necessary for routine molecular diagnosis and presymptomatic detection of the disease in a clinical setup.
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- 1995
9. AT repeat polymorphism at the D5S122 locus tightly linked to adenomatous polyposis coli (APC)
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Breukel, C., primary, Tops, C., additional, van Leeuwen, C., additional, van der Klift, H., additional, Fodde, R., additional, and Khan, P.Meera, additional
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- 1991
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10. CA repeat polymorphism at the D5S82 locus, proximal to adenomatous polyposis coli (APC)
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Breukel, C., primary, Tops, C., additional, van Leeuwen, C., additional, van der Klift, H., additional, Nakamura, Y., additional, Fodde, R., additional, and Khan, P.M., additional
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- 1991
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11. CA repeat polymorphism within the MCC (mutated in colorectal cancer) gene
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van Leeuwen, C., primary, Tops, C., additional, Breukel, C., additional, van der Klift, H., additional, Deaven, L., additional, Fodde, R., additional, and Khan, P.M., additional
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- 1991
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12. CA repeat polymorphism from YAC JW25 at the D5S318 locus, distal to adenomatous polyposis coli (APC)
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Wijnen, J., primary, Tops, C., additional, Breukel, C., additional, van Leeuwen, C., additional, Goverde, A., additional, van der Klift, H., additional, Fodde, R., additional, and Khan, P. Meera, additional
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- 1991
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13. Toxicological assessment of river water quality in bioassays with fish
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Van Der Gaag, M. A., primary, Van De Kerkhoff, J. F. J., additional, Van Der Klift, H. W., additional, and Poels, C. L. M., additional
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- 1983
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14. A procedure for the detection of linkage with high density SNP arrays in a large pedigree with colorectal cancer
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Morreau Hans, Devilee Peter, Vasen Hans FA, Tops Carli MJ, van der Klift Heleen M, Helmer Quinta, Jagmohan-Changur Shantie, Middeldorp Anneke, Houwing-Duistermaat Jeanine J, Wijnen Juul T, and van Wezel Tom
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Neoplasms. Tumors. Oncology. Including cancer and carcinogens ,RC254-282 - Abstract
Abstract Background The apparent dominant model of colorectal cancer (CRC) inheritance in several large families, without mutations in known CRC susceptibility genes, suggests the presence of so far unidentified genes with strong or moderate effect on the development of CRC. Linkage analysis could lead to identification of susceptibility genes in such families. In comparison to classical linkage analysis with multi-allelic markers, single nucleotide polymorphism (SNP) arrays have increased information content and can be processed with higher throughput. Therefore, SNP arrays can be excellent tools for linkage analysis. However, the vast number of SNPs on the SNP arrays, combined with large informative pedigrees (e.g. >35–40 bits), presents us with a computational complexity that is challenging for existing statistical packages or even exceeds their capacity. We therefore setup a procedure for linkage analysis in large pedigrees and validated the method by genotyping using SNP arrays of a colorectal cancer family with a known MLH1 germ line mutation. Methods Quality control of the genotype data was performed in Alohomora, Mega2 and SimWalk2, with removal of uninformative SNPs, Mendelian inconsistencies and Mendelian consistent errors, respectively. Linkage disequilibrium was measured by SNPLINK and Merlin. Parametric linkage analysis using two flanking markers was performed using MENDEL. For multipoint parametric linkage analysis and haplotype analysis, SimWalk2 was used. Results On chromosome 3, in the MLH1-region, a LOD score of 1.9 was found by parametric linkage analysis using two flanking markers. On chromosome 11 a small region with LOD 1.1 was also detected. Upon linkage disequilibrium removal, multipoint linkage analysis yielded a LOD score of 2.1 in the MLH1 region, whereas the LOD score dropped to negative values in the region on chromosome 11. Subsequent haplotype analysis in the MLH1 region perfectly matched the mutation status of the family members. Conclusion We developed a workflow for linkage analysis in large families using high-density SNP arrays and validated this workflow in a family with colorectal cancer. Linkage disequilibrium has to be removed when using SNP arrays, because it can falsely inflate the LOD score. Haplotype analysis is adequate and can predict the carrier status of the family members.
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- 2007
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15. Toxicological Assessment of River Water Quality in Bioassays with Fish
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Poels, C. L. M., Van De Kerkhoff, J. F. J., Van Der Gaag, M. A., and Van Der Klift, H. W.
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BIOLOGICAL assay ,FISHES ,TOXICOLOGY ,WATER quality - Published
- 1983
16. Presymptomatic diagnosis of familial adenomatous polyposis by bridging DNA markers.
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Tops, C M, Wijnen, J T, Griffioen, G, von Leeuwen, I S, Vasen, H F, den Hartog Jager, F C, Breukel, C, Nagengast, F M, van der Klift, H M, and Lamers, C B
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CHROMOSOMES , *COMPARATIVE studies , *GENE mapping , *GENEALOGY , *GENETIC polymorphisms , *GENETICS , *GENETIC techniques , *RESEARCH methodology , *MEDICAL cooperation , *RESEARCH , *GENETIC markers , *EVALUATION research , *ADENOMATOUS polyposis coli - Abstract
Familial adenomatous polyposis (FAP) is a disorder with autosomal dominant inheritance, which predisposes to colorectal adenocarcinoma. The gene causing the disorder has been assigned to chromosome 5 by means of a polymorphic DNA marker called C11p11. An informative Dutch pedigree showed that two other linked polymorphic DNA markers, Pi227 and YN5.48, closely flank the FAP locus, one on either side. This finding will allow prenatal and presymptomatic diagnosis of FAP, with more than 99.9% reliability in the majority of families, by means of already available markers. [ABSTRACT FROM AUTHOR]
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- 1989
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17. Involvement of MBD4 inactivation in mismatch repair-deficient tumorigenesis.
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Tricarico R, Cortellino S, Riccio A, Jagmohan-Changur S, Van der Klift H, Wijnen J, Turner D, Ventura A, Rovella V, Percesepe A, Lucci-Cordisco E, Radice P, Bertario L, Pedroni M, Ponz de Leon M, Mancuso P, Devarajan K, Cai KQ, Klein-Szanto AJ, Neri G, Møller P, Viel A, Genuardi M, Fodde R, and Bellacosa A
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- Animals, DNA Mutational Analysis, Female, Humans, Male, Mice, Mice, Knockout, Mutation, Oligonucleotide Array Sequence Analysis, Phenotype, Polymerase Chain Reaction, Carcinogenesis genetics, Colorectal Neoplasms genetics, DNA Mismatch Repair genetics, Endodeoxyribonucleases genetics
- Abstract
The DNA glycosylase gene MBD4 safeguards genomic stability at CpG sites and is frequently mutated at coding poly-A tracks in mismatch repair (MMR)-defective colorectal tumors (CRC). Mbd4 biallelic inactivation in mice provided conflicting results as to its role in tumorigenesis. Thus, it is unclear whether MBD4 alterations are only secondary to MMR defects without functional consequences or can contribute to the mutator phenotype. We investigated MBD4 variants in a large series of hereditary/familial and sporadic CRC cases. Whereas MBD4 frameshifts were only detected in tumors, missense variants were found in both normal and tumor DNA. In CRC with double-MBD4/MMR and single-MBD4 variants, transition mutation frequency was increased, indicating that MBD4 defects may affect the mutational landscape independently of MMR defect. Mbd4-deficient mice showed reduced survival when combined with Mlh1-/- genotype. Taken together, these data suggest that MBD4 inactivation may contribute to tumorigenesis, acting as a modifier of MMR-deficient cancer phenotype.
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- 2015
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18. Refining the role of PMS2 in Lynch syndrome: germline mutational analysis improved by comprehensive assessment of variants.
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Borràs E, Pineda M, Cadiñanos J, Del Valle J, Brieger A, Hinrichsen I, Cabanillas R, Navarro M, Brunet J, Sanjuan X, Musulen E, van der Klift H, Lázaro C, Plotz G, Blanco I, and Capellá G
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- Cohort Studies, Colorectal Neoplasms, Hereditary Nonpolyposis pathology, DNA Mismatch Repair, Genetic Variation, HEK293 Cells, Humans, Mismatch Repair Endonuclease PMS2, Polymorphism, Genetic, Transfection, Adenosine Triphosphatases genetics, Colorectal Neoplasms, Hereditary Nonpolyposis genetics, DNA Repair Enzymes genetics, DNA-Binding Proteins genetics, Germ-Line Mutation
- Abstract
Background and Aim: The majority of mismatch repair (MMR) gene mutations causing Lynch syndrome (LS) occur either in MLH1 or MSH2. However, the relative contribution of PMS2 is less well defined. The aim of this study was to evaluate the role of PMS2 in LS by assessing the pathogenicity of variants of unknown significance (VUS) detected in the mutational analysis of PMS2 in a series of Spanish patients., Methods: From a cohort of 202 LS suspected patients, 13 patients showing loss of PMS2 expression in tumours were screened for germline mutations in PMS2, using a long range PCR based strategy and multiplex ligation dependent probe amplification (MLPA). Pathogenicity assessment of PMS2 VUS was performed evaluating clinicopathological data, frequency in control population and in silico and in vitro analyses at the RNA and protein level., Results: Overall 25 different PMS2 DNA variants were detected. Fourteen were classified as polymorphisms. Nine variants were classified as pathogenic: seven alterations based on their molecular nature and two after demonstrating a functional defect (c.538-3C>G affected mRNA processing and c.137G>T impaired MMR activity). The c.1569C>G variant was classified as likely neutral while the c.384G>A remained as a VUS. We have also shown that the polymorphic variant c.59G>A is MMR proficient., Conclusions: Pathogenic PMS2 mutations were detected in 69% of patients harbouring LS associated tumours with loss of PMS2 expression. In all, PMS2 mutations account for 6% of the LS cases identified. The comprehensive functional analysis shown here has been useful in the classification of PMS2 VUS and contributes to refining the role of PMS2 in LS.
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- 2013
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19. Novel MLH1 duplication identified in Colombian families with Lynch syndrome.
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Alonso-Espinaco V, Giráldez MD, Trujillo C, van der Klift H, Muñoz J, Balaguer F, Ocaña T, Madrigal I, Jones AM, Echeverry MM, Velez A, Tomlinson I, Milà M, Wijnen J, Carvajal-Carmona L, Castells A, and Castellví-Bel S
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- Adenosine Triphosphatases genetics, Antigens, Neoplasm genetics, Cell Adhesion Molecules genetics, Colombia, DNA Mismatch Repair genetics, DNA Repair Enzymes genetics, DNA-Binding Proteins genetics, Epithelial Cell Adhesion Molecule, Female, Germ-Line Mutation, Humans, Immunohistochemistry, Microsatellite Instability, Mismatch Repair Endonuclease PMS2, MutL Protein Homolog 1, MutS Homolog 2 Protein genetics, Pedigree, Adaptor Proteins, Signal Transducing genetics, Colorectal Neoplasms genetics, Colorectal Neoplasms, Hereditary Nonpolyposis genetics, Gene Duplication, Nuclear Proteins genetics
- Abstract
Purpose: Lynch syndrome accounts for 2-4% of all colorectal cancer, and is mainly caused by germline mutations in the DNA mismatch repair genes. Our aim was to characterize the genetic mutation responsible for Lynch syndrome in an extensive Colombian family and to study its prevalence in Antioquia., Methods: A Lynch syndrome family fulfilling Amsterdam criteria II was studied by immunohistochemistry and by multiplex ligation-dependent probe amplification (MLPA). Results were confirmed by additional independent MLPA, Southern blotting, and sequencing., Results: Index case tumor immunohistochemistry results were MLH1-, MSH2+, MSH6+, and PMS2-. MLPA analysis detected a duplication of exons 12 and 13 of MLH1. This mutation was confirmed and characterized precisely to span 4219 base pairs. Duplication screening in this family led to the identification of six additional carriers and 13 noncarriers. We also screened 123 early-onset independent colorectal cancer cases from the same area and identified an additional unrelated carrier., Conclusion: A novel duplication of exons 12 and 13 of the MLH1 gene was detected in two independent Lynch syndrome families from Colombia. A putative founder effect and prescreening Lynch syndrome Antioquia families for this specific mutation before thorough mismatch repair mutational screening could be suggested.
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- 2011
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20. Molecular characterization of the spectrum of genomic deletions in the mismatch repair genes MSH2, MLH1, MSH6, and PMS2 responsible for hereditary nonpolyposis colorectal cancer (HNPCC).
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van der Klift H, Wijnen J, Wagner A, Verkuilen P, Tops C, Otway R, Kohonen-Corish M, Vasen H, Oliani C, Barana D, Moller P, Delozier-Blanchet C, Hutter P, Foulkes W, Lynch H, Burn J, Möslein G, and Fodde R
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- Adaptor Proteins, Signal Transducing, Blotting, Southern, Carrier Proteins, Gene Rearrangement, Humans, Mismatch Repair Endonuclease PMS2, MutL Protein Homolog 1, MutS Homolog 2 Protein, Adenosine Triphosphatases genetics, Base Pair Mismatch, Colorectal Neoplasms, Hereditary Nonpolyposis genetics, DNA Repair genetics, DNA Repair Enzymes genetics, DNA-Binding Proteins genetics, Gene Deletion, Neoplasm Proteins genetics, Nuclear Proteins genetics, Proto-Oncogene Proteins genetics
- Abstract
A systematic search by Southern blot analysis in a cohort of 439 hereditary nonpolyposis colorectal cancer (HNPCC) families for genomic rearrangements in the main mismatch repair (MMR) genes, namely, MSH2, MLH1, MSH6, and PMS2, identified 48 genomic rearrangements causative of this inherited predisposition to colorectal cancer in 68 unrelated kindreds. Twenty-nine of the 48 rearrangements were found in MSH2, 13 in MLH1, 2 in MSH6, and 4 in PMS2. The vast majority were deletions, although one previously described large inversion, an intronic insertion, and a more complex rearrangement also were found. Twenty-four deletion breakpoints have been identified and sequenced in order to determine the underlying recombination mechanisms. Most fall within repetitive sequences, mainly Alu repeats, in agreement with the differential distribution of deletions between the MSH2 and MLH1 genes: the higher number and density of Alu repeats in MSH2 corresponded with a higher incidence of genomic rearrangement at this disease locus when compared with other MMR genes. Long interspersed nuclear element (LINE) repeats, relatively abundant in, for example, MLH1, did not seem to contribute to the genesis of the deletions, presumably because of their older evolutionary age and divergence among individual repeat units when compared with short interspersed nuclear element (SINE) repeats, including Alu repeats. Moreover, Southern blot analysis of the introns and the genomic regions flanking the MMR genes allowed us to detect 6 novel genomic rearrangements that left the coding region of the disease-causing gene intact. These rearrangements comprised 4 deletions upstream of the coding region of MSH2 (3 cases) and MSH6 (1 case), a 2-kb insertion in intron 7 of PMS2, and a small (459-bp) deletion in intron 13 of MLH1. The characterization of these genomic rearrangements underlines the importance of genomic deletions in the etiology of HNPCC and will facilitate the development of PCR-based tests for their detection in diagnostic laboratories.
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- 2005
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21. Spectrum of genetic alterations in Muir-Torre syndrome is the same as in HNPCC.
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Barana D, van der Klift H, Wijnen J, Longa ED, Radice P, Cetto GL, Fodde R, and Oliani C
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- Adaptor Proteins, Signal Transducing, Adult, Carrier Proteins, Female, Humans, Male, Middle Aged, MutL Protein Homolog 1, MutS Homolog 2 Protein, Neoplasm Proteins genetics, Nuclear Proteins, Pedigree, Colorectal Neoplasms, Hereditary Nonpolyposis genetics, DNA-Binding Proteins genetics, Mutation genetics, Neoplastic Syndromes, Hereditary genetics, Proto-Oncogene Proteins genetics
- Published
- 2004
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22. A founder mutation of the MSH2 gene and hereditary nonpolyposis colorectal cancer in the United States.
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Lynch HT, Coronel SM, Okimoto R, Hampel H, Sweet K, Lynch JF, Barrows A, Wijnen J, van der Klift H, Franken P, Wagner A, Fodde R, and de la Chapelle A
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- DNA Mutational Analysis, Female, Genetic Testing, Haplotypes, Humans, Male, MutS Homolog 2 Protein, Mutation, Pedigree, United States epidemiology, White People genetics, Colorectal Neoplasms, Hereditary Nonpolyposis epidemiology, Colorectal Neoplasms, Hereditary Nonpolyposis genetics, DNA-Binding Proteins, Founder Effect, Gene Deletion, Proto-Oncogene Proteins genetics
- Abstract
Context: Hereditary nonpolyposis colorectal cancer (HNPCC), also known as Lynch syndrome, is caused by mutations in the mismatch repair genes and confers an extraordinarily high risk of colorectal, endometrial, and other cancers. However, while carriers of these mutations should be identified, counseled, and offered clinical surveillance, at present the mutations are not tested for in mutation analyses., Objective: To describe the prevalence of a large genomic deletion encompassing exons 1 to 6 of the MSH2 gene that is widespread in the US population as a result of a founder effect., Design, Setting, and Patients: Ongoing genealogical and historical study conducted to assess the origin and spread of an MSH2 mutation previously identified in 9 apparently unrelated families with putative HNPCC and living in widely different geographic locations in the United States., Main Outcome Measures: Classification of family members as carriers or noncarriers of the MSH2 mutation; spread of the mutation across the continental United States., Results: To date, 566 family members of the 9 probands have been identified to be at risk and counseled; 137 of these have been tested, and 61 carry the founder mutation. Three families have been genealogically shown to descend from a German immigrant family that arrived and first settled in Pennsylvania in the early 1700s. Movements of branches of the family from Pennsylvania through North Carolina, Alabama, Kentucky, Missouri, Iowa, Nebraska, Utah, Texas, and California have been documented, and carriers of the mutation have already been diagnosed in 14 states. In contrast, the deletion was not found among 407 European and Australian families with HNPCC., Conclusion: The postulated high frequency and continent-wide geographic distribution of a cancer-predisposing founder mutation of the MSH2 gene in a large, outbred (as opposed to genetically isolated) population, and the ease with which the mutation can be detected, suggest that the routine testing of individuals at risk for HNPCC in the United States should include an assay for this mutation until more is learned about its occurrence.
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- 2004
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23. Prostate cancer is part of the hereditary non-polyposis colorectal cancer (HNPCC) tumor spectrum.
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Soravia C, van der Klift H, Bründler MA, Blouin JL, Wijnen J, Hutter P, Fodde R, and Delozier-Blanchet C
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- Base Pair Mismatch, DNA Mutational Analysis, Germ-Line Mutation, Humans, Immunohistochemistry, Male, Microsatellite Repeats, Middle Aged, Pedigree, Prostatic Neoplasms diagnosis, Proteins genetics, Colorectal Neoplasms, Hereditary Nonpolyposis diagnosis, Prostatic Neoplasms complications
- Abstract
The recognized urologic tumor spectrum in hereditary non-polyposis colon cancer includes ureteral and renal pelvis malignancies. Here, we report a family in which the proband, who had three metachronous adenocarcinomas of the colon and rectum (at ages 54, 57, and 60), presented with an adenocarcinoma of the prostate at age 61. Immunohistochemical (IHC) staining of colonic, rectal, and prostatic tumor tissues demonstrated lack of expression of both MSH2 and MSH6. Accordingly, microsatellite instability (MSI) was found in the rectal, colonic, and prostatic tumors. The kindred complies with the Amsterdam criteria for HNPCC, as five members over three generations had colorectal cancer. Molecular investigations were initiated when the proband's son presented with an adenocarcinoma of the colon at age 35. Southern blotting analysis of genomic DNA led to identification of a novel genomic deletion encompassing exon 5 of the MSH2 gene. Although prostate cancer has occasionally been described in HNPCC families, to the best of our knowledge, this is the first report where the MSI and IHC analysis of the prostatic adenomcarcinoma clearly link its aetiology to the germline mismatch repair mutation. Hence, prostate cancer should be included in the HNPCC tumor spectrum., (Copyright 2003 Wiley-Liss, Inc.)
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- 2003
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24. Molecular analysis of hereditary nonpolyposis colorectal cancer in the United States: high mutation detection rate among clinically selected families and characterization of an American founder genomic deletion of the MSH2 gene.
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Wagner A, Barrows A, Wijnen JT, van der Klift H, Franken PF, Verkuijlen P, Nakagawa H, Geugien M, Jaghmohan-Changur S, Breukel C, Meijers-Heijboer H, Morreau H, van Puijenbroek M, Burn J, Coronel S, Kinarski Y, Okimoto R, Watson P, Lynch JF, de la Chapelle A, Lynch HT, and Fodde R
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- Adaptor Proteins, Signal Transducing, Adult, Aged, Aged, 80 and over, Base Sequence, Carrier Proteins, Cohort Studies, Colorectal Neoplasms, Hereditary Nonpolyposis epidemiology, DNA Mutational Analysis, DNA-Binding Proteins genetics, Exons genetics, Female, Genetic Testing, Haplotypes, Humans, Male, Microsatellite Repeats genetics, Middle Aged, Molecular Sequence Data, MutL Protein Homolog 1, MutS Homolog 2 Protein, Neoplasm Proteins genetics, Nuclear Proteins, United States epidemiology, Colorectal Neoplasms, Hereditary Nonpolyposis genetics, Founder Effect, Gene Deletion, Point Mutation, Proto-Oncogene Proteins genetics
- Abstract
The identification of germline mutations in families with HNPCC is hampered by genetic heterogeneity and clinical variability. In previous studies, MSH2 and MLH1 mutations were found in approximately two-thirds of the Amsterdam-criteria-positive families and in much lower percentages of the Amsterdam-criteria-negative families. Therefore, a considerable proportion of HNPCC seems not to be accounted for by the major mismatch repair (MMR) genes. Does the latter result from a lack of sensitivity of mutation detection techniques, or do additional genes underlie the remaining cases? In this study we address these questions by thoroughly investigating a cohort of clinically selected North American families with HNPCC. We analyzed 59 clinically well-defined U.S. families with HNPCC for MSH2, MLH1, and MSH6 mutations. To maximize mutation detection, different techniques were employed, including denaturing gradient gel electrophoresis, Southern analysis, microsatellite instability, immunohistochemistry, and monoallelic expression analysis. In 45 (92%) of the 49 Amsterdam-criteria-positive families and in 7 (70%) of the 10 Amsterdam-criteria-negative families, a mutation was detected in one of the three analyzed MMR genes. Forty-nine mutations were in MSH2 or MLH1, and only three were in MSH6. A considerable proportion (27%) of the mutations were genomic rearrangements (12 in MSH2 and 2 in MLH1). Notably, a deletion encompassing exons 1-6 of MSH2 was detected in seven apparently unrelated families (12% of the total cohort) and was subsequently proven to be a founder. Screening of a second U.S. cohort with HNPCC from Ohio allowed the identification of two additional kindreds with the identical founder deletion. In the present study, we show that optimal mutation detection in HNPCC is achieved by combining accurate and expert clinical selection with an extensive mutation detection strategy. Notably, we identified a common North American deletion in MSH2, accounting for approximately 10% of our cohort. Genealogical, molecular, and haplotype studies showed that this deletion represents a North American founder mutation that could be traced back to the 19th century.
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- 2003
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25. Serrated adenomas and mixed polyposis caused by a splice acceptor deletion in the mouse Smad4 gene.
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Hohenstein P, Molenaar L, Elsinga J, Morreau H, van der Klift H, Struijk A, Jagmohan-Changur S, Smits R, van Kranen H, van Ommen GJ, Cornelisse C, Devilee P, and Fodde R
- Subjects
- Adenomatous Polyps pathology, Animals, Cell Line, Colonic Polyps pathology, Colorectal Neoplasms pathology, Disease Models, Animal, Female, Fetal Death genetics, Gene Expression Profiling, Genes, Lethal, Homozygote, Hyperplasia, Loss of Heterozygosity genetics, Male, Mice, Mice, Inbred C57BL, Mice, Inbred Strains, Signal Transduction genetics, Smad4 Protein, Transforming Growth Factor beta genetics, Adenomatous Polyps genetics, Colonic Polyps genetics, Colorectal Neoplasms genetics, DNA-Binding Proteins genetics, RNA Splice Sites genetics, Sequence Deletion genetics, Trans-Activators genetics
- Abstract
Serrated adenomas, hyperplastic polyps, and admixed hyperplastic/adenomatous polyps form a distinct group of colorectal tumors, the molecular genetic basis of which is still poorly understood. We describe a novel mouse model for serrated adenomas and mixed polyposis, here referred to as Sad (serrated adenomas), caused by a spontaneously risen splice site mutation in the murine Smad4 gene. The Sad chromosomal region was identified by genetic linkage and loss of heterozygosity (LOH) analysis. Subsequently, several candidate genes were investigated by expression and mutation analysis. By use of genetic linkage and LOH analysis, we mapped the Sad candidate to mouse chromosome 18, 44-48 cM, syntenic to human chromosome band 18q21. Within this chromosomal interval, the Smad2, Smad4, and Smad7 genes were analyzed for the presence of a disease-causing mutation in affected animals. A single nucleotide (nt) deletion was identified in the intron 5/exon 6 splice acceptor site of the Smad4 gene. The single base deletion results in a frameshift and an early termination codon through activation of a cryptic splice site 4 nt downstream in exon 6. The resulting mRNA is unstable, and the Sad mutation is thus likely to represent a null allele. Identification of a Smad4 mutation in the Sad mouse model provides further support for the involvement of the Smad genes, and thus the TGFB pathway, in the serrated/hyperplastic route to colorectal cancer., (Copyright 2003 Wiley-Liss, Inc.)
- Published
- 2003
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26. A 10-Mb paracentric inversion of chromosome arm 2p inactivates MSH2 and is responsible for hereditary nonpolyposis colorectal cancer in a North-American kindred.
- Author
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Wagner A, van der Klift H, Franken P, Wijnen J, Breukel C, Bezrookove V, Smits R, Kinarsky Y, Barrows A, Franklin B, Lynch J, Lynch H, and Fodde R
- Subjects
- Adenosine Triphosphatases antagonists & inhibitors, Adenosine Triphosphatases genetics, Adult, Aged, Animals, Blotting, Southern, Colorectal Neoplasms, Hereditary Nonpolyposis enzymology, Cytogenetic Analysis, Female, Gene Expression Profiling, Humans, Hybrid Cells, In Situ Hybridization, Fluorescence, Male, Mice, Middle Aged, MutS Homolog 2 Protein, Pedigree, Polymerase Chain Reaction, Proto-Oncogene Proteins antagonists & inhibitors, Proto-Oncogene Proteins deficiency, Chromosome Inversion, Chromosomes, Human, Pair 2 genetics, Colorectal Neoplasms, Hereditary Nonpolyposis genetics, DNA-Binding Proteins, Gene Silencing, Proto-Oncogene Proteins genetics
- Abstract
Genomic deletions of the MSH2 gene are a frequent cause of hereditary nonpolyposis colorectal cancer (HNPCC), a common hereditary predisposition to the development of tumors in several organs including the gastrointestinal and urinary tracts and endometrium. The mutation spectrum at the MSH2 gene is extremely heterogeneous because it includes nonsense and missense point mutations, small insertions and deletions leading to frameshifts, and larger genomic deletions, the latter representing approximately 25% of the total mutation burden. Here, we report the identification and molecular characterization of the first paracentric inversion of the MSH2 locus known to cause HNPCC. Southern blot analysis and inverse PCR showed that the centromeric and telomeric breakpoints of the paracentric inversion map within intron 7 and to a contig 10 Mb 3' of MSH2, respectively. Pathogenicity of the paracentric inversion was demonstrated by conversion analysis. The patient's lymphocytes were employed to generate somatic cell hybrids to analyze the expression of the inverted MSH2 allele in an Msh2-deficient rodent cellular background. The inversion was shown to abolish MSH2 expression by both northern and western analysis. This study confirms that Southern blot analysis still represents a useful and informative tool to screen for and identify complex genomic rearrangements in HNPCC. Moreover, monoallelic expression analysis represents an attractive approach to demonstrate pathogenicity of unusual mutations in autosomal dominant hereditary conditions., (Copyright 2002 Wiley-Liss, Inc.)
- Published
- 2002
- Full Text
- View/download PDF
27. Familial endometrial cancer in female carriers of MSH6 germline mutations.
- Author
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Wijnen J, de Leeuw W, Vasen H, van der Klift H, Møller P, Stormorken A, Meijers-Heijboer H, Lindhout D, Menko F, Vossen S, Möslein G, Tops C, Bröcker-Vriends A, Wu Y, Hofstra R, Sijmons R, Cornelisse C, Morreau H, and Fodde R
- Subjects
- Colorectal Neoplasms, Hereditary Nonpolyposis genetics, Family Health, Female, Humans, Ovarian Neoplasms genetics, Urinary Bladder Neoplasms genetics, DNA-Binding Proteins genetics, Endometrial Neoplasms genetics, Germ-Line Mutation, Heterozygote
- Published
- 1999
- Full Text
- View/download PDF
28. Marfan-like habitus and familial adenomatous polyposis in two unrelated males: a significant association?
- Author
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Calin G, Wijnen J, van der Klift H, Ionita A, Mulder A, Breukel C, Smits R, Dauwerse H, Hansson K, Calin S, Stefanescu D, Oproiu A, and Fodde R
- Subjects
- Adenomatous Polyposis Coli complications, Adult, Amino Acid Sequence, Female, Fibrillin-2, Fibrillins, Genes, APC, Humans, In Situ Hybridization, Fluorescence, Male, Marfan Syndrome complications, Microfilament Proteins genetics, Molecular Sequence Data, Mutation, Pedigree, Adenomatous Polyposis Coli genetics, Marfan Syndrome genetics
- Abstract
Familial adenomatous polyposis (FAP) can be considered as a condition of the whole body as extracolonic features derived from all the three embryonic lineages are recorded with varying frequency in addition to the presence of multiple adenomas in the large intestine. Here, we describe two unrelated cases of FAP with unusual extracolonic phenotypes, namely several abnormalities of mesodermal origin strongly resembling Marfan syndrome (MFS) or a Marfan-like habitus. Conventional cytogenetic and FISH analysis did not reveal any gross chromosomal rearrangement on the long arm of chromosome 5 where the APC and FBN2 genes were located. However, in case 2 the FAP-causing mutation in the APC gene was found in the donor splice site of exon 4 and was shown to result in a frameshift and a premature termination codon. We propose that such connective tissue abnormalities may result from germline APC mutations in combination with specific genetic and/or environmental modifying factors.
- Published
- 1999
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29. MSH2 genomic deletions are a frequent cause of HNPCC.
- Author
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Wijnen J, van der Klift H, Vasen H, Khan PM, Menko F, Tops C, Meijers Heijboer H, Lindhout D, Møller P, and Fodde R
- Subjects
- Base Pair Mismatch, Base Sequence, Exons, Genetic Predisposition to Disease, Humans, MutS Homolog 2 Protein, Colorectal Neoplasms, Hereditary Nonpolyposis genetics, DNA-Binding Proteins genetics, Gene Deletion, Proto-Oncogene Proteins genetics
- Published
- 1998
- Full Text
- View/download PDF
30. Clinical findings with implications for genetic testing in families with clustering of colorectal cancer.
- Author
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Wijnen JT, Vasen HF, Khan PM, Zwinderman AH, van der Klift H, Mulder A, Tops C, Møller P, and Fodde R
- Subjects
- Adaptor Proteins, Signal Transducing, Adult, Age Factors, Aged, Carrier Proteins, Cluster Analysis, Colorectal Neoplasms epidemiology, Colorectal Neoplasms genetics, DNA Mutational Analysis, Electrophoresis, Gel, Pulsed-Field, Endometrial Neoplasms epidemiology, Endometrial Neoplasms genetics, Female, Genetic Testing, Humans, Logistic Models, Male, Middle Aged, Multivariate Analysis, MutL Protein Homolog 1, MutS Homolog 2 Protein, Neoplasms, Multiple Primary epidemiology, Neoplasms, Multiple Primary genetics, Nuclear Proteins, Colorectal Neoplasms, Hereditary Nonpolyposis genetics, DNA Repair genetics, DNA-Binding Proteins, Mutation, Neoplasm Proteins genetics, Proto-Oncogene Proteins genetics
- Abstract
Background: Germ-line mutations in DNA mismatch-repair genes (MSH2, MLH1, PMS1, PMS2, and MSH6) cause susceptibility to hereditary nonpolyposis colorectal cancer. We assessed the prevalence of MSH2 and MLH1 mutations in families suspected of having hereditary nonpolyposis colorectal cancer and evaluated whether clinical findings can predict the outcome of genetic testing., Methods: We used denaturing gradient gel electrophoresis to identify MSH2 and MLH1 mutations in 184 kindreds with familial clustering of colorectal cancer or other cancers associated with hereditary nonpolyposis colorectal cancer. Information on the site of cancer, the age at diagnosis, and the number of affected family members was obtained from all families., Results: Mutations of MSH2 or MLH1 were found in 47 of the 184 kindreds (26 percent). Clinical factors associated with these mutations were early age at diagnosis of colorectal cancer, the occurrence in the kindred of endometrial cancer or tumors of the small intestine, a higher number of family members with colorectal or endometrial cancer, the presence of multiple colorectal cancers or both colorectal and endometrial cancers in a single family member, and fulfillment of the Amsterdam criteria for the diagnosis of hereditary nonpolyposis colorectal cancer (at least three family members in two or more successive generations must have colorectal cancer, one of whom is a first-degree relative of the other two; cancer must be diagnosed before the age of 50 in at least one family member; and familial adenomatous polyposis must be ruled out). Multivariate analysis showed that a younger age at diagnosis of colorectal cancer, fulfillment of the Amsterdam criteria, and the presence of endometrial cancer in the kindred were independent predictors of germ-line mutations of MSH2 or MLH1. These results were used to devise a logistic model for estimating the likelihood of a mutation in MSH2 and MLH1., Conclusions: Assessment of clinical findings can improve the rate of detection of mutations of DNA mismatch-repair genes in families suspected of having hereditary nonpolyposis colorectal cancer.
- Published
- 1998
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31. Hereditary nonpolyposis colorectal cancer families not complying with the Amsterdam criteria show extremely low frequency of mismatch-repair-gene mutations.
- Author
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Wijnen J, Khan PM, Vasen H, van der Klift H, Mulder A, van Leeuwen-Cornelisse I, Bakker B, Losekoot M, Møller P, and Fodde R
- Subjects
- Adaptor Proteins, Signal Transducing, Carrier Proteins, Case-Control Studies, Colorectal Neoplasms, Hereditary Nonpolyposis enzymology, Colorectal Neoplasms, Hereditary Nonpolyposis ethnology, Czech Republic, Denmark, Electrophoresis, Polyacrylamide Gel methods, Humans, Italy, Microsatellite Repeats, MutL Protein Homolog 1, MutS Homolog 2 Protein, Netherlands, Nuclear Proteins, Nucleic Acid Heteroduplexes, Protein Denaturation, Reference Standards, Colorectal Neoplasms, Hereditary Nonpolyposis genetics, DNA Repair genetics, DNA-Binding Proteins, Germ-Line Mutation, Neoplasm Proteins genetics, Proto-Oncogene Proteins genetics
- Abstract
Hereditary nonpolyposis colorectal cancer (HNPCC) is a common autosomal dominant cancer-susceptibility condition characterized by early onset colorectal cancer. Germ-line mutations in one of four DNA mismatch repair (MMR) genes, hMSH2, hMLH1, hPMS1, or hPMS2, are known to cause HNPCC. Although many mutations in these genes have been found in HNPCC kindreds complying with the so-called Amsterdam criteria, little is known about the involvement of these genes in families not satisfying these criteria but showing clear-cut familial clustering of colorectal cancer and other cancers. Here, we applied denaturing gradient-gel electrophoresis to screen for hMSH2 and hMLH1 mutations in two sets of HNPCC families, one set comprising families strictly complying with the Amsterdam criteria and another set in which at least one of the criteria was not satisfied. Interestingly, hMSH2 and hMLH1 mutations were found in 49% of the kindreds fully complying with the Amsterdam criteria, whereas a disease-causing mutation could be identified in only 8% of the families in which the criteria were not satisfied fully. In correspondence with these findings, 4 of 6 colorectal tumors from patients belonging to kindreds meeting the criteria showed microsatellite instability, whereas only 3 of 11 tumors from the other set of families demonstrated this instability. Although the number of tumors included in the study admittedly is small, the frequencies of mutations in the MMR genes show obvious differences between the two clinical sets of families. These results also emphasize the practical importance of the Amsterdam criteria, which provide a valid clinical subdivision between families, on the basis of their chance of carrying an hMSH2 or an hMLH1 mutation, and which bear important consequences for genetic testing and counseling and for the management of colorectal cancer families.
- Published
- 1997
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32. Molecular analysis of the APC gene in 105 Dutch kindreds with familial adenomatous polyposis: 67 germline mutations identified by DGGE, PTT, and southern analysis.
- Author
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van der Luijt RB, Khan PM, Vasen HF, Tops CM, van Leeuwen-Cornelisse IS, Wijnen JT, van der Klift HM, Plug RJ, Griffioen G, and Fodde R
- Subjects
- Blotting, Southern, Electrophoresis, Polyacrylamide Gel, Exons, Female, Gene Rearrangement, Humans, Male, Netherlands, Pedigree, Adenomatous Polyposis Coli genetics, Genes, APC, Germ-Line Mutation
- Abstract
Germline mutations of the adenomatous polyposis coli (APC) gene are responsible for familial adenomatous polyposis (FAP), an autosomal dominant predisposition to colorectal cancer. We screened the entire coding region of the APC gene for mutations in an unselected series of 105 Dutch FAP kindreds. For the analysis of exons 1-14, we employed the GC-clamped denaturing gradient gel electrophoresis (DGGE), while the large exon 15 was examined using the protein truncation test. Using this approach, we identified 65 pathogenic mutations in the above 105 apparently unrelated FAP families. The mutations were predominantly either frameshifts (39/65) or single base substitutions (18/65), resulting in premature stop codons. Mutations that would predict abnormal RNA splicing were identified in seven cases. In one of the families, a nonconservative amino acid change was found to segregate with the disease. In spite of the large number of APC mutations reported to date, we identified 27 novel germline mutations in our patients, which reiterates the great heterogeneity of the mutation spectrum in FAP. In addition to the point mutations identified in our patients, structural rearrangements of APC were found in two pedigrees, by Southern blot analysis. The present study indicates that the combined use of DGGE, protein truncation test, and Southern blot analysis offers an efficient strategy for the presymptomatic diagnosis of FAP by direct mutation detection. We found that the combined use of the currently available molecular approaches still fails to identify the underlying genetic defect in a significant subset of the FAP families. The possible causes for this limitation are discussed.
- Published
- 1997
- Full Text
- View/download PDF
33. Majority of hMLH1 mutations responsible for hereditary nonpolyposis colorectal cancer cluster at the exonic region 15-16.
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Wijnen J, Khan PM, Vasen H, Menko F, van der Klift H, van den Broek M, van Leeuwen-Cornelisse I, Nagengast F, Meijers-Heijboer EJ, Lindhout D, Griffioen G, Cats A, Kleibeuker J, Varesco L, Bertario L, Bisgaard ML, Mohr J, Kolodner R, and Fodde R
- Subjects
- Adaptor Proteins, Signal Transducing, Base Sequence, Carrier Proteins, DNA Primers chemistry, DNA Repair genetics, Electrophoresis, Polyacrylamide Gel, Europe, Exons genetics, Female, Genes, Dominant, Germ-Line Mutation, Humans, Male, Molecular Sequence Data, MutL Protein Homolog 1, MutS Homolog 2 Protein, Mutation, Nuclear Proteins, Pedigree, Polymerase Chain Reaction, Proto-Oncogene Proteins genetics, Colorectal Neoplasms, Hereditary Nonpolyposis genetics, DNA-Binding Proteins, Neoplasm Proteins genetics
- Abstract
Hereditary nonpolyposis colorectal cancer (HNPCC) is a common autosomal dominant cancer susceptibility condition. Inherited mutations in at least four DNA mismatch repair genes, hMSH2, hMLH1, hPMS1, and hPMS2, are known to cause HNPCC. In this study we used denaturing gradient gel electrophoresis (DGGE) to screen for hMLH1 mutations in 34 unrelated HNPCC families (30 Dutch, 3 Italian, and 1 Danish). Ten novel pathogenic germ-line mutations (seven affecting splice sites, two frameshifts, and one in-frame deletion of a single amino acid) have been identified in 12 (35%) of these families. In a previous study, hMSH2 mutations were found in 21% of the same families. While the spectrum of mutations at the hMSH2 gene among HNPCC patients appears heterogeneous, a cluster of hMLH1 mutations has been found in the region encompassing exons 15 and 16, which accounts for 50% of all the independent hMLH1 mutations described to date and for > 20% of the unrelated HNPCC kindreds here analyzed. This unexpected finding has a great practical value in the clinical scenario of genetic services.
- Published
- 1996
34. Molecular, cytogenetic, and phenotypic studies of a constitutional reciprocal translocation t(5;10)(q22;q25) responsible for familial adenomatous polyposis in a Dutch pedigree.
- Author
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van der Luijt RB, Tops CM, Khan PM, van der Klift HM, Breukel C, van Leeuwen-Cornelisse IS, Dauwerse HG, Beverstock GC, van Noort E, and Snel P
- Subjects
- Adenomatous Polyposis Coli Protein, Adult, Base Sequence, Chromosome Mapping, Cytoskeletal Proteins genetics, Female, Gene Rearrangement genetics, Genetic Linkage, Humans, In Situ Hybridization, Fluorescence, Middle Aged, Molecular Sequence Data, Pedigree, Phenotype, Adenomatous Polyposis Coli genetics, Chromosomes, Human, Pair 10, Chromosomes, Human, Pair 5, Translocation, Genetic
- Abstract
Familial adenomatous polyposis (FAP) is an inherited predisposition to colorectal cancer caused by germline mutations in the adenomatous polyposis coli (APC) gene located on chromosome segment 5q21-q22. We detected a germline rearrangement of the APC gene in a Dutch FAP family by screening genomic DNA samples with APC cDNA probes. Subsequent molecular and cytogenetic studies revealed a constitutional reciprocal translocation t(5;10)(q22;q25) that resulted in the disruption of the APC gene. Southern blot and polymorphic marker analysis indicated that part of the APC gene had been deleted. Analysis of the APC protein product indicated that the translocation breakpoint did not lead to the formation of a detectable truncated APC protein but apparently resulted in a null allele. Evaluation of the clinical phenotypes in the patients suggested that they exhibited features of an unusual form of FAP characterized by a slightly delayed age of onset of colorectal cancer and a reduced number of colorectal polyps. The latter were mainly sessile and were located predominantly in the proximal colon. To our knowledge, this is the first description of FAP caused by a reciprocal translocation disrupting the APC gene.
- Published
- 1995
- Full Text
- View/download PDF
35. Non-allelic heterogeneity of familial adenomatous polyposis.
- Author
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Tops CM, van der Klift HM, van der Luijt RB, Griffioen G, Taal BG, Vasen HF, and Khan PM
- Subjects
- Adenomatous Polyposis Coli diagnostic imaging, Female, Genetic Linkage, Humans, Male, Pedigree, Radiography, Adenomatous Polyposis Coli genetics, Alleles
- Abstract
Linkage studies on familial adenomatous polyposis (FAP) reported so far suggest that FAP is a genetically homogeneous disease. Recently, we found that the putative gene for Turcot syndrome, an apparently autosomal recessive clinical variant of FAP, is not allelic to FAP. Here we describe another family, segregating for an autosomal dominant disease clinically indistinguishable from FAP but genetically not linked to the APC locus, adding further evidence for the occurrence of non-allelic heterogeneity of FAP. These observations have implications to the linkage-based genetic counselling of persons at risk for FAP especially when they are drawn from small families giving insufficient information.
- Published
- 1993
- Full Text
- View/download PDF
36. Eight novel inactivating germ line mutations at the APC gene identified by denaturing gradient gel electrophoresis.
- Author
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Fodde R, van der Luijt R, Wijnen J, Tops C, van der Klift H, van Leeuwen-Cornelisse I, Griffioen G, Vasen H, and Khan PM
- Subjects
- Adenomatous Polyposis Coli diagnosis, Base Sequence, DNA, Electrophoresis, Polyacrylamide Gel, Exons, Female, Genetic Linkage, Humans, Male, Molecular Sequence Data, Nucleic Acid Heteroduplexes, Pedigree, Polymorphism, Genetic, Adenomatous Polyposis Coli genetics, Mutation
- Abstract
Familial adenomatous polyposis (FAP) is a dominantly inherited condition predisposing to colorectal cancer. The recent isolation of the responsible gene (adenomatous polyposis coli or APC) has facilitated the search for germ line mutations in affected individuals. Previous authors have used the RNase protection assay and the single-strand conformation polymorphisms procedure to screen for mutations. In this study we used denaturing gradient gel electrophoresis (DGGE). DGGE analysis of 10 APC exons (4, 5, 7, 8, 9, 10, 12, 13, 14, and part of 15) in 33 unrelated Dutch FAP patients has led to the identification of eight novel germ line mutations resulting in stop codons or frameshifts. The results reported here indicate that (1) familial adenomatous polyposis is caused by an extremely heterogeneous spectrum of point mutations; (2) all the mutations found in this study are chain terminating; and (3) DGGE represents a rapid and sensitive technique for the detection of mutations in the unusually large APC gene. An extension of the DGGE analysis to the entire coding region in a sufficient number of clinically well-characterized, unrelated patients will facilitate the establishment of genotype-phenotype correlations. On the other hand, the occurrence of an extremely heterogeneous spectrum of mutations spread throughout the entire length of the large APC gene among the FAP patients indicates that this approach may not be useful as a rapid presymptomatic diagnostic procedure in a routine laboratory. Nevertheless, the above DGGE approach has incidentally led to the identification of a common polymorphism in exon 13. Such intragenic polymorphisms offer a practical approach to a more rapid procedure for presymptomatic diagnosis of FAP by linkage analysis in informative families.
- Published
- 1992
- Full Text
- View/download PDF
37. CA repeat polymorphism at the D5S299 locus linked to adenomatous polyposis coli (APC).
- Author
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van Leeuwen C, Tops C, Breukel C, van der Klift H, Fodde R, and Khan PM
- Subjects
- Base Composition, Base Sequence, Gene Frequency, Humans, Molecular Sequence Data, Oligodeoxyribonucleotides, Polymerase Chain Reaction, Adenomatous Polyposis Coli genetics, Chromosomes, Human, Pair 5, Genetic Linkage, Polymorphism, Genetic, Repetitive Sequences, Nucleic Acid
- Published
- 1991
- Full Text
- View/download PDF
38. Facioscapulohumeral muscular dystrophy gene in Dutch families is not linked to markers for familial adenomatous polyposis on the long arm of chromosome 5.
- Author
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Wijmenga C, Frants RR, Brouwer OF, van der Klift HM, Meera Khan P, and Padberg GW
- Subjects
- Female, Humans, Male, Netherlands, Adenomatous Polyposis Coli genetics, Chromosomes, Human, Pair 5, Facial Muscles physiopathology, Genetic Linkage, Muscular Dystrophies genetics
- Abstract
Cosegregation of facioscapulohumeral muscular dystrophy (FSHD) and familial adenomatous polyposis (FAP) has been described in two small families. The gene for FAP is located on the long arm of chromosome 5. We studied two large Dutch families with FSHD and found no evidence for linkage with gene markers closely linked to FAP. These results strongly suggest that the FSHD gene segregating in the Dutch families is not localized close to the FAP locus on chromosome 5.
- Published
- 1990
- Full Text
- View/download PDF
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