Novel germline mutations in the APC gene and their phenotypic spectrum in familial adenomatous polyposis kindreds

Among 23 germline mutations identified in the APC screening of 45 familial adenomatous polyposis (FAP) patients, we have found 10 different novel frameshift mutations in 11 apparently unrelated patients. In two cases, an additional missense mutation was detected. One previously described as a causative germline mutation (S2621C), associated with a 1-bp insertion (4684insA) on the opposite allele, did not segregate with the FAP phenotype in the family and was therefore considered as being non-pathogenic. The other (Z1625H) was located 2 codons before a 1-bp deletion (4897delC). Both mutations were transmitted together from an FAP father to his affected son. The FAP phenotype of these 10 novel truncating mutations was clinically documented within their kindreds. Important variability was observed in the phenotype. Interestingly, we noted that a mutation (487insT) localized at the boundary of the 5' attenuated APC phenotype region in two unrelated families resulted in classical polyposis. A clear-cut genotype-phenotype correlation could be drawn in only two instances. In one family, a 4684insA mutation led to a mild polyposis associated with early inherited osteomas and, in the family bearing the double mutation (Z1625H + 4897delC), the phenotype was obviously a 3' attenuated type. Our data illustrate the wide genetic and phenotypic heterogeneity of this condition between and within the families, making the establishment of correlations complex and any prediction in this disease difficult, although targeting the mutation site may be helpful in some specific cases.     

Model multiple antigenic and homopolymeric peptides from non-repetitive sequences of malaria merozoite proteins elicit biologically irrelevant antibodies

We describe here a new type of mitochondrial mutation (dum24; for dark uniparental minus inheritance) of the unicellular photosynthetic alga Chlamydomonas reinhardtii. The mutant fails to grow under heterotrophic conditions and displays reduced growth under both photoautotrophic and mixotrophic conditions. In reciprocal crosses between mutant and wild-type cells, the meiotic progeny only inherit the phenotype of the mating-type minus parent, indicating that the dum24 mutation exclusively affects the mitochondrial genome. Digestion with various restriction enzymes followed by DNA gel blot hybridizations with specific probes demonstrated that dum24 cells contain four types of altered mitochondrial genomes: deleted monomers lacking cob, nd4, and the 3' end of the nd5 gene; deleted monomers deprived of cob, nd4, nd5, and the 5' end of the cox1 coding sequence; and two types of dimers produced by end-to-end fusions between monomers similarly or differently deleted. Due to these mitochondrial DNA alterations, complex I activity, the cytochrome pathway of respiration, and presumably, the three phosphorylation sites associated with these enzyme activities are lacking in the mutant. The low respiratory rate of the dum24 cells results from the activities of rotenone-resistant NADH dehydrogenase, complex II, and alternative oxidase, with none of these enzymes being coupled to ATP production. To our knowledge, this type of mitochondrial mutation has never been described for photosynthetic organisms or more generally for obligate aerobes.     

Frequent deletion and 5' CpG island methylation of the p16 gene in primary malignant lymphoma of the brain

A total of 10 primary malignant lymphomas of the brain were examined for deletion, mutation, and 5' CpG island methylation of the p16 gene, which is a candidate tumor suppressor gene with CDK-inhibitory function. In Southern blot analysis, p16 gene deletion was suggested in nine cases, homozygously (five cases) or hemizygously (four cases). In the remaining one case, p16 gene deletion was not suggested. Although single-strand conformation polymorphism and nucleotide analyses suggested no mutations of the p16 gene in these cases, methylation analyses revealed 5' CpG island methylation in three cases, of which two were those with presumed hemizygous deletion and one was that without deletion in Southern blot analysis. Thus, p16 gene abnormality was detected in all 10 of the brain lymphomas examined, and in 8 of them, actual p16 gene inactivation was suggested by their homozygous deletion (5 cases) or 5' CpG island methylation (3 cases). These findings suggest that p16 gene abnormality and inactivation are closely related to carcinogenesis in primary malignant lymphoma of the brain. The p15 gene, another candidate tumor suppressor gene located in the vicinity of the p16 gene, to which it shows structural and functional similarity, was also presumed to be deleted similarly in most cases. Its methylation was seen in one case, the case without the methylated p16 gene.     

Characterization of the genetic defects in recessive type 1 and type 3 von Willebrand disease patients of Italian origin

The genetic defects causing recessive type 1 and type 3 von Willebrand disease (VWD) in eight families from the northern part of Italy have been investigated. Mutations were identified in 14 of the 16 disease-associated von Willebrand factor (VWF) genes. Only one mutation, a stop codon in exon 45, was previously reported. Several new mutations were identified: one cytosine insertion in exon 42, one guanine deletion in exon 28, one probably complete VWF gene deletion, one substitution in the 3' splice site of intron 13, one possible gene conversion, and three candidate missense mutations. One missense mutation, the substitution of a cysteine in exon 42, was identified in all type 3 VWD patients that were previously characterized as a subgroup with significant increase of factor VIII procoagulant activity after desmopressin infusion. This paper demonstrates again that the molecular defects of quantitative VWD are diverse and located throughout the entire VWF gene.     

Familial adenomatous polyposis coli in the Czech population. I. Detection of an additional 3 mutations out of a total of 7 in exon 15 of the APC gene

BACKGROUND: Familial adenomatous polyposis (FAP) is an autosomal dominant inherited disease characterized by multiple adenomatous polyps in the colon which progress to carcinoma. FAP is caused by germ-line mutation of the tumor-suppressor adenomatous polyposis coli (APC) gene, the structure and coding sequence of which have been known from 1991. The diagnosis of FAP has classically been based on the detection of multiple colorectal adenomas, often after carcinoma development. Presymptomatic genetic testing for the presence of an allele carrying the FAP mutation is now possible using a variety of techniques. METHODS AND RESULTS: The present paper is the first part of an analysis of 37 different Czech families with 83 members affected by FAP. Our goal is to identify the mutation characteristic for each family for early diagnosis of FAP. We screened clinically manifest representatives of nine families for mutations in exon 15 of the APC gene. First, we searched for the mutation hot spots (codons 1061 and 1309, respectively) and later for the entire exon 15. Denatured gradient gel electrophoresis (DGGE) of amplified regions ov exon 15 has been used to identify DNA sequence variations followed by sequencing verification. In seven patients, seven different mutations in exon 15 of APC gene, four deletion mutants (5-base deletions in codons 1061 and 1309, 1-base deletion in codons 759 and 7-base deletion combined with a 2-base insertion in codon 712), one insertion mutation (1-base/A/insertion in codon 1554) and two point mutations (C to T and C to A substitutions in codons 737 and 935, respectively, in both cases leading to formation of stop codons) have been found. CONCLUSIONS: From seven different mutations found, 4 mutations have been previously described (mutations in codons 935, 1061, 1309 and 1554), 3 mutations in the APC gene are described here for the first time, namely the mutations in codons 712, 759 and 767.     

Global sequence diversity of BRCA2: analysis of 71 breast cancer families and 95 control individuals of worldwide populations

The aim of this study was to evaluate the prevalence of simple sequence variation in the BRCA2 gene. To this end, 71 breast and breast-ovarian cancer (HBC/HBOC) families along with 95 control individuals from a wide range of ethnicities were analyzed by means of denaturing high-performance liquid chromatography (DHPLC) and direct sequence analysis. In the coding (10 257 bp) and non-coding (2799 bp) sequences of BRCA2, 82 sequence variants were identified. Three different, apparently disease-associated BRCA2 mutations were found in six HBC/HBOC families (8%): two splice site mutations in introns 5 and 21, and one frameshift mutation in exon 11. In the coding region, 53 simple sequence variants were found: 35 missense mutations, one 2 bp deletion (CT) resulting in a stop at codon 3364, one nonsense mutation with a stop at codon 3326, one deletion of a complete codon (AAA) resulting in the loss of leucine, and 15 silent mutations. In the non-coding region, 26 polymorphisms were detected. Of the 79 sequence variants that were not obviously disease-associated, eight were detected only in HBC/HBOC families. The remaining 71 variants were identified in both HBC/HBOC families and control individuals. Sixty three sequence variants (80%) were specific for a continent. Forty two percent (33 out of 79) of the sequence variants were detected exclusively in Africa, though only 13% of the 332 chromosomes screened were of African origin. Our data indicate that, in BRCA2, simple sequence variation is frequent [in the coding region 1 in 194 bp (straight theta = 2.2 x 10(-4)), and in the non-coding region 1 in 108 bp (straight theta = 4.4 x 10(-4)), respectively].     

X-linked ocular albinism: prevalence and mutations--a national study

In a national retrospective register study 112 patients with ocular albinism (OA) were identified, including 60 male patients with proven or presumed X-linked ocular albinism (XLOA). Based on the birth year cohorts 1960-1989, an XLOA point prevalence at birth of 1 in 60,000 live-born was calculated. We identified 14 XLOA families in the Danish population, and obtained DNA from affected persons in nine families. Mutation analysis of the OA1 gene demonstrated seven presumed pathogenic mutations in the nine families with XLOA: five single nucleotide substitutions predicting a change of conserved amino acids (G35D, L39R, D78V, W133R and E233K) when compared with the mouse OA1 homologue, one deletion leading to the skipping of exon 2, and one single nucleotide substitution expected to affect the 5' splice site of intron 2 were found. Subsequent genealogical investigations in the three families harbouring the same mutation disclosed that two of the three pedigrees belonged to the same family. All mutations predict crucial changes in the protein structure. Clinical examination failed to identify any phenotype-genotype pattern except a milder phenotype devoid of iris translucency in the patient with the 5'splice site mutation of intron 2.     

Mutations in the genomic deoxyribonucleic acid for SLC3A1 in patients with cystinuria

Cystinuria is an inherited transport disorder characterized by defective renal resorption of cystine and other dibasic amino acids. We have studied the occurrence of mutations in the SLC3A1 gene, which codes for a dibasic amino acid transporter-like protein, in 33 unrelated cystinurics. We found mutations in 34 of the 66 chromosomes studied. There were 14 different mutations in our study population, 8 of which had not been previously described. Of these new mutations, 4 were missense mutations: G1934C, C1259G, T1607G, and G1373A. The other 4 mutations consisted of a single base insertion mutation (2022 ins T), a single base deletion mutation (163 del C), a 23-base deletion mutation (del 782A-804A), and a complex mutation that consisted of a 36-base deletion (del C431-3 to T463) and a duplication insertion of 468 T to 474 A after nucleotide 474.     

High frequency of p16INK4A gene alterations in hepatocellular carcinoma

The tumor suppressor gene p16 (CDKN2/MTS-1/INK4A) is an important component of the cell cycle and inactivation of the gene has been found in a variety of human cancers. In order to investigate the role of p16 gene in the tumorigenesis of hepatocellular carcinoma (HCC), 48 cases of HCC were analysed for p16 alterations by: methylation-specific PCR (MSP) to determine the methylation status of the p16 promoter region; comparative multiplex PCR to detect homozygous deletion; PCR-SSCP and DNA sequencing analysis to identify mutation of the p16 gene. We found high frequency of hypermethylation of the 5' CpG island of the p16 gene in 30 of 48 cases (62.5%) of HCC tumors. Moreover, homozygous deletion at p16 region were present in five of 48 cases (10.4%); and missense mutation were detected in three of 48 cases (6.3%). The overall frequency of p16 alterations, including homozygous deletion, mutation and hypermethylation, in HCC tumors was 70.8% (34 of 48 cases). These findings suggest that: (a) the inactivation of the p16 is a frequent event in HCC; (b) the p16 gene is inactivated by multiple mechanisms including homozygous deletion, promoter hypermethylation and point mutation; (c) the most common somatic alteration of the p16 gene in HCC is de novo hypermethylation of the 5' CpG island; and (d) in contrast to other studies, high frequency of genomic alterations are not uncommon in the 9p21 of the p16 gene. Our results strongly suggest that the p16 gene plays an important role in the pathogenesis of HCC.     

Statistics of malignant neoplasms in children in Russia

Deletion and insertion mutations have been found to be a major component of the in vivo somatic mutation spectrum in the hypoxanthine phosphoribosyltransferase (hprt) gene of T-lymphocytes. In a population of 172 healthy people (average age, 34; mutant frequency, 10.3 x 10(-6)), deletion/insertion mutations constituted 41% (89) of the 217 independent mutations, the remainder being base substitutions. Mutations were identified by multiplex PCR assay of genomic DNA for exon regions, by sequencing cDNA, or sequencing genomic DNA. The deletion and insertion mutations were divided among +/- 1 to 2 basepair (bp) frameshifts (14%, 30), small deletions and insertions of 3-200 bps (13%, 28), large deletions of one or more exons (12%, 27), and complex events (2%, 4). Frameshift mutations were dominated by -1 bp deletions (21 of 30). Exon 3 contained five frameshift mutations in the run of 6 Gs, the only site in the coding region with multiple frameshift mutations, possibly caused by strand dislocation during replication. Both endpoints were sequenced for 23 of the 28 small deletions/insertions including two tandem duplication events in exon 6. More small deletions (8/28), possibly mediated by trinucleotide repeats, occurred in exon 2 than in the other exons. Large deletions included total gene deletions (6), exon 2 + 3 deletions (4), and loss of multiple (9) and single exons (8) in genomic DNA. The diverse mutation spectrum indicates that multiple mechanisms operated at many different sequences and provides a resource for examination of deletion mutation.     

Point mutation and homozygous deletion of PTEN/MMAC1 in primary bladder cancers

A new tumor suppressor gene PTEN/MMAC1 was recently isolated at chromosome 10q23 and found to be inactivated by point mutation or homozygous deletion in glioma, prostate and breast cancer. PTEN/MMAC1 was also identified as the gene predisposing to Cowden disease, an autosomal dominant cancer predisposition syndrome associated with an increased risk of breast, skin and thyroid tumors and occasional cases of other cancers including bladder and renal cell carcinoma. We screened 345 urinary tract cancers by microsatellite analysis and found chromosome 10q to be deleted in 65 of 285 (23%) bladder and 15 of 60 (25%) renal cell cancers. We then screened the entire PTEN/MMAC1 coding region for mutation in 25 bladder and 15 renal cell primary tumors with deletion of chromosome 10q. Two somatic point mutations, a frameshift and a splicing variant, were found in the panel of bladder tumors while no mutation was observed in the renal cell carcinomas. To screen for homozygous deletion, we isolated two polymorphic microsatellite repeats from genomic BAC clones containing the PTEN/MMAC1 gene. Using these new informative markers, we identified apparent retention at the gene locus indicative of homozygous deletion of PTEN/MMAC1 in four of 65 bladder and 0 of 15 renal cell tumors with LOH through chromosome 10q. Identification of the second inactivation event in six bladder tumors with LOH of 10q implies that the PTEN/MMAC1 gene is occasionally involved in bladder tumorigenesis. However, the low frequency of biallelic inactivation suggests that either PTEN/MMAC1 is inactivated by other mechanisms or it is not the only target of chromosome 10q deletion in primary bladder and renal cell cancer.     

Five novel mutations of the protein S active gene (PROS 1) in 8 Norman families

To further elucidate the molecular basis for hereditary thrombophilia, we screened the protein S active gene in 11 families with type I deficiency, using a strategy based on denaturing gradient gel electrophoresis (DGGE) of all the coding sequences. Fragments with an abnormal DGGE pattern were sequenced, and 5 novel mutations were identified in 8 families. The mutations were a 7-nucleotide deletion in exon II, a 4-nucleotide deletion in exon III, a T insertion in exon VII, a C to T transition transforming Leu 259 into Pro and a T to C transition transforming Cys 625 into Arg in 4 families. These mutations were the only sequence variations found in the propositus' gene exons and co-segregated with the plasma phenotype. A total of 28 members of these 8 families were heterozygous for one of the 5 mutations. Twenty-four (58,5%) of the 41 deficient subjects over 18 years of age had clinical thrombophilia, whereas the 13 subjects under 18 were asymptomatic. Of the 28 subjects, 6 (21,5%) were also found to bear the factor V Arg 506 Gln mutation.     

Refined structures of bobwhite quail lysozyme uncomplexed and complexed with the HyHEL-5 Fab fragment

The structure and expression pattern of a human gene located within a homozygously deleted region of a metastatic prostate cancer have been characterized. Multiple cDNA fragments of this gene were isolated by hybrid capture with yeast artificial chromosome clones covering the deletion region. Eleven coding exons spanned 205-220 kb of the 730- to 970-kb deletion. The predicted amino acid sequence was 43% identical to that of an anonymous Caenorhabditis elegans gene and 20% identical to an accessory or regulatory subunit of the oligosaccharyltransferase enzyme complex in Saccharomyces cerevisiae. Hydrophobicity profiles of all three gene products were similar and showed four putative membrane-spanning domains in the molecules' C-terminal halves, suggesting a general conservation of function. The gene was expressed as an approximately 1.5-kb mRNA in most nonlymphoid human cells/tissues including prostate, lung, liver, and colon. Expression was detected in many epithelial tumor cell lines, but was undetectable by Northern blot or RT-PCR in 14 of 15 colorectal, 1 of 8 lung, and 1 of 4 liver cancer cell lines. Lack of expression in tumor cell lines was highly correlated with hypermethylation of a CpG island located at the gene's 5' end. These findings form a basis for further work on this candidate tumor suppressor gene.     

Ankylosing spondylitis

SCP1'-cysB carries a short chromosomal insertion: cysB was the only chromosomal locus identified on this plasmid; the plasmid was seldom lost; and a comparatively low frequency of crossing-over between the exo- and endogenote in a cysB+/cysB+ heterozygote. SCP1'-argA, uraB carries a longer chromosomal insertion: five chromosomal loci have been detected on the plasmid; it was very often lost; and there was frequent crossing-over between exo- and endogenote in heterozygous strains. Both SCP1' plasmids gave rise to plasmids closely resembling, or perhaps identical with, the original SCP1 by deletion of the chromosomal insertion. Markers argA and uraB were always deleted together from SCP1'-argA, uraB, whereas random deletion should more often have removed uraB alone. This suggests that special DNA sequences are involved in SCP1' formation. An analysis of recombination between exo- and endogenote within a double heterozygote for argA and uraB supports the hypothesis that single copies of plasmid and chromosome assort from a pool of interacting molecules at, or immediately before, spore formation. A strain carrying the SCP1'-cysB plasmid gave rise to a 'bidirectional' donor of chromosomal markers in which the plasmid had apparently integrated into the chromosome at or close to the cysB locus.     

Bacteriophage T4 mutants hypersensitive to an antitumor agent that induces topoisomerase-DNA cleavage complexes

Many antitumor agents and antibiotics affect cells by interacting with type II topoisomerases, stabilizing a covalent enzyme-DNA complex. A pathway of recombination can apparently repair this DNA damage. In this study, transposon mutagenesis was used to identify possible components of the repair pathway in bacteriophage T4. Substantial increases in sensitivity to the antitumor agent m-AMSA [4'-(9-acridinylamino)methanesulfon-m-anisidide] were found with transposon insertion mutations that inactivate any of six T4-encoded proteins: UvsY (DNA synaptase accessory protein), UvsW (unknown function), Rnh (RNase H and 5' to 3' DNA exonuclease), alpha-gt (alpha-glucosyl transferase), gp47.1 (uncharacterized), and NrdB (beta subunit of ribonucleotide reductase). The role of the rnh gene in drug sensitivity was further characterized. First, an in-frame rnh deletion mutation was constructed and analyzed, providing evidence that the absence of Rnh protein causes hypersensitivity to m-AMSA. Second, the m-AMSA sensitivity of the rnh-deletion mutant was shown to require a drug-sensitive T4 topoisomerase. Third, analysis of double mutants suggested that uvsW and rnh mutations impair a common step in the recombinational repair pathway for m-AMSA-induced damage. Finally, the rnh-deletion mutant was found to be hypersensitive to UV, implicating Rnh in recombinational repair of UV-induced damage.