The mutation spectrum of the APC gene in FAP patients from southern Italy: detection of known and four novel mutations

Familial adenomatous polyposis (FAP), an autosomal dominantly inherited condition accounting for about 1% of all colorectal cancers, results from mutations in the adenomatous polyposis coli (APC) tumor suppressor gene. The clinical spectrum and severity of FAP varies greatly with the mutation site, and both between and within families. Using the protein truncation test, single strand conformation polymorphism analysis and DNA sequencing, we identified 30 (75%) mutant alleles in 40 unrelated FAP families, for a total of 22 different APC mutations. Of these, 18 are known and 4 are novel: c.1797C>A (C599X), c.893_894delAC, (c.3225T>A; c.3226C>A) and c.4526_4527insT. Of the 30 APC gene mutations, 5 (approximately 17%) are nonsense mutations, 17 (approximately 57%) are small deletions, 5 (approximately 17%) are small insertions and 3 (approximately 10%) are complete deletions. All mutations occurred in single pedigrees, except those at codons 1061 and 1062, each found in two unrelated families, and the mutation at codon 1309 in exon 15, found in five unrelated families. About 40% of mutations, mostly small deletions and insertions, are located at repeated sequences; they promote misalignment-mediated errors in DNA replication and could represent a hot spot mutation region. This study enlarges the spectrum of APC gene mutations and sheds light on the correlation between the site of APC germline mutations and clinical manifestations of FAP.     

Familial infiltrative fibromatosis (desmoid tumours) (MIM135290) caused by a recurrent 3' APC gene mutation

Desmoid tumours are generally very rare but occur about 100 times more frequently in the colorectal cancer predisposition syndrome familial adenomatous polyposis (MIM 175100), being represented in about 10% of patients. In addition to desmoid disease occurring in familial adenomatous polyposis (FAP) there exist familial infiltrative fibromatosis (MIM 135290) kindreds where there is no evidence of FAP. Previously we have described a kindred with familial infiltrative fibromatosis (FIF) in which desmoid tumours were associated with nonpolyposis colorectal cancer. FAP is caused by mutations in the APC gene and various genotype-phenotype relationships have been defined including reports that colorectal polyposis is less severe with mutations 5' to codon 157 and that the risk of desmoid tumours is high in FAP patients with APC gene mutations between codons 1444 and 1598. There is relatively little information on the phenotype of APC gene mutations 3' to codon 1598; however, one large family has been reported with a mutation at codon 1987 which presents with a highly variable phenotype which includes desmoid disease. We screened our original FIF kindred and three further families with a similar phenotype for mutations in the APC gene. A 4 bp frameshift deletion in codon 1962 was identified in the original FIF kindred and two further apparently unrelated families. Haplotype analysis suggests a common origin for the APC mutation in all three families. Affected individuals had no evidence of congenital hypertrophy of the retinal pigment epithelium. Colorectal polyposis was variable, and most affected patients had either none or a few late onset polyps. These findings demonstrate (i) that FAP and FIF are allelic, and (ii) that APC gene mutations which truncate the APC protein distal to the beta-catenin binding domain are associated with desmoid tumours, absent CHRPE and variable but attenuated polyposis expression.      

Founder mutation in familial adenomatous polyposis (FAP) in the Balearic Islands

The incidence of familial adenomatous polyposis (FAP) is approximately 7.4 per 100,000 inhabitants. APC gene mutations have been found in 60-70% of all FAP families, codons 1309 (20%) and 1061 (8%) being known hot-spots. We searched for mutations in the APC gene in a population-based registry of FAP from the Spanish Balearic Islands. Fifty-one members of 12 FAP families registered in the Balearic Islands Cancer Registry were studied; three of them were de novo cases. Mutations in the APC gene were analyzed by polymerase chain reaction-single-strand conformation polymorphism (PCR-SSCP) and sequencing. Haplotype was established by combining intra- and extragenic markers. Mutations in the APC gene were detected in 10 out of 12 (83%) families analyzed. Six families shared the same mutation, a 5-bp deletion at codon 1061 (c.3221_3225delACAAA). Five of the families containing this mutation shared the same haplotype and originated in the same geographic area. The codon 1061 mutation in the APC gene is the most common one in the Balearic Islands. Although this codon is a hot-spot, the haplotype analysis of these families is consistent for the presence of a founder effect of the 5-bp deletion at codon 1061 in FAP families in the Spanish Balearic Islands.     

First genotype characterization of Argentinean FAP patients: identification of 14 novel APC mutations

We examined the adenomatous polyposis coli (APC) gene for disease-causing mutations in 51 unrelated Argentinean probands affected by familial adenomatous polyposis (FAP). Using a combination of the protein truncation test, the single strand conformation polymorphism technique, DNA sequencing and quantitative PCR analysis, we identified the specific mutation in 39 (average age: 28.4 years) of the 51 probands (detection rate: 76.47%); 13 are novel germline mutations and one is a novel sequence variant. There were 27 small deletions, four small duplications, five nonsense mutations in exon 15, three nonsense mutations in exons 6, 11, and 12, and one sequence variant in exon 3 identified in a patient bearing a truncating mutation in exon 15. The most common mutation (found in 10 cases) was at codon 1309. All patients negative for APC mutations were also negative for the MutY homolog (MYH) gene mutation, as expected because of fully penetrant FAP cases. This study enlarges the spectrum of APC gene mutations, and reinforces the concept of mutation heterogeneity. It also sheds light on correlations between the site of APC germline mutations and the clinical manifestations of FAP. Our data indicate that the genotype/phenotype correlations in Argentinean patients are similar to those observed in other populations.     

Submerged gel electrophoresis on Spreadex gels--a new method for APC gene mutation detection

Familial adenomatous polyposis (FAP) is an autosomal dominant inherited disease. Patients with FAP develop hundreds to thousands of adenomatous polyps in the colon and rectum during their 2nd or 3rd decades, and one or more of them progress to cancer if left without surgical treatment. The gene responsible for FAP was identified in 1991 and termed the APC (adenomatous polyposis coli) gene. Following identification of APC, a number of germ-line mutations responsible for the development of the disease were found. The purpose of this study was to determine the usefulness of a new method, submerged gel electrophoresis, in the detection of the most-frequent mutation of the APC gene [5-base pair (bp) deletion in codon 1309], especially in the presymptomatic diagnosis of FAP. Genomic DNAs were isolated from peripheral blood of patients and their relatives. We used two methods, electrophoresis on polyacrylamide gel and submerged gel electrophoresis, for the identification of APC gene codon 1309 mutation. After only 110 min PCR fragments of 91 bp and 86 bp (5-bp deletion) were completely resolved on a Spreadex EL300 gel. Our results showed that electrophoresis using Spreadex gels provides a simple and rapid non-radioactive method for determination of the most-frequent germ-line mutations in the APC gene.     

Three submicroscopic deletions at the APC locus and their rapid detection by quantitative-PCR analysis.

We describe three unrelated kindreds, affected by familial adenomatous polyposis (FAP), with 5q submicroscopic deletions that encompass the entire adenomatous polyposis coli (APC) gene and the adjacent DP1 gene. In one family the deletion encompasses also the MCC (mutated in colon cancer) gene. Affected members of these families had dysplastic adenomatous polyps and congenital hypertrophy of the retinal pigment epithelium (CHRPE); no individual was affected by mental retardation or facial dysmorphism. The deletions were detected by linkage analysis with several intragenic and closely flanking polymorphic markers and confirmed by a quantitative PCR analysis. This procedure could have an impact on the detection of the molecular defect in FAP patients in whom mutational analysis fails to identify the specific mutation.     

Frequency and parental origin of de novo APC mutations in familial adenomatous polyposis

A predominance of de novo mutations in the paternal germ line has been reported for several disorders; however, in familial adenomatous polyposis (FAP), the parental origin of APC mutations has been scarcely analysed so far. Among 563 unrelated FAP families with known family history, we identified 58 patients with a suspected de novo mutation in the APC gene. A germline mutation was detected in 52 of them; in 38 patients, the mutation could be excluded in both parents. The five base pair deletion at codon 1309 (c.3927_3931delAAAGA) was over-represented in the group of patients with suspected de novo mutations (17/58=29%), when compared to the group of familial cases (26/505=5%); thus, the high frequency of this mutation is not due to a founder effect but rather due to de novo mutation events. Parental origin of de novo mutations could be traced in 16 families, including three families with large chromosomal deletions. Four mutations were of maternal and 12 of paternal origin, pointing to a moderate preponderance towards paternal origin. Sex-related differences of mutation types could be observed: large deletions and single-base substitutions were exclusively of paternal origin, whereas the small deletions were equally distributed (maternal/paternal ratio 4:4).     

应用变性高效液相色谱检测31例家族性腺瘤性息肉病家系结肠腺瘤性息肉病基因突变

目的 应用变性高效液相色谱(denaturing high performance liquid chromatography,DHPLC)技术检测我国家族性腺瘤性息肉病(familial adenomatons polyposis,FAP)家系的结肠腺瘤性息肉病(adenoinatous pelyposis coli,APC)基因变异特征,研究其病因机制.方法 采集31个家系的先证者、患者和家系成员的外周血淋巴细胞,抽提DNA并以降落式PCR扩增APC基因各外显子和启动子.基因突变检测先由DHPLC进行筛选,发现异常峰者进行测序鉴定并TA克隆鉴定,结果与网络数据进行比对.结果 31个家系中共有15个家系检出了12种不同的突变类型,FAP家系APC基因的突变检出率为48.39%.发现了4种新的突变及3例不同的内含子突变.4个新的突变分别位于255、677、1192、1403密码子,均为移码突变.证明了DHPLC能检出APC基因的突变.在APC基因的突变中,移码突变占86.67%,无义突变占13.33%,说明移码突变是中国人APC基因突变的主要方式.在突变位点上,第15外显子突变最常见,约占86.67%.结论 FAP家系APC基因的突变检出率为48.39%,发现了4种新的导致蛋白编码改变的突变.证实中国人FAP家系中APC基因突变位点以第15外显子最常见,类型以移码突变为主.     

APC germline mutations identified in Czech patients with familial adenomatous polyposis

Familial adenomatous polyposis (FAP) is an autosomal dominantly inherited predisposition to colorectal cancer, which is caused by germline mutations in the adenomatous polyposis coli (APC) gene. The APC mutations have been investigated in 46 Czech unrelated FAP families and 9 suspected FAP families using DGGE analysis and direct DNA sequencing. We found 25 germline APC mutations and identified 11 which were not previously reported. Of the identified mutations, 10 were 1 to 5 bp deletions, four were 1 bp insertions and six were nonsense, all leading to the formation of premature stop codon. In addition, we detected two mutations in the splice-donor region of APC intron 11, one missense and two samesense mutations. Phenotypes of patients with known and novel types of mutations are presented and discussed.     

Multiplex PCR analysis and genotype–phenotype correlations of frequent APC mutations

Germline mutations of the adenomatous polyposis coli (APC) gene tend to cluster in discrete regions, Some of these mutations occur frequently in familial adenomatous polyposis coli (FAP) patients, and strategies for genetic diagnosis of the disease should include simple methods for their detection. We studied a total of 48 FAP-affected or “at-risk” members from 31 unrelated FAP pedigrees. Unrelated patients were analyzed using heteroduplex analysis on agarose minigels (HAAM) and multiplex allele-specific PCR. This novel strategy readily and reliably detected the three frequently occurring APC deletions at codons 1061, 1068, and 1309, allowing identification of mutant alleles in nine unrelated patients. A targeted mutational analysis, based on HAAM and amplification refractory mutation system (ARMS), allowed the rapid identification of 11 additional subjects with germline deletions, among relatives of the patients in whom mutations had been detected by multiplex PCR and HAAM. The use of two independent PCR-based tests, employing distinct sets of primers, reduces the possibility that artifacts occurring during DNA amplification may interfere with the diagnostic evaluation. The analysis of genotype-phenotype correlations provided evidence for heterogeneity with regard to the extent of colonic and extracolonic manifestations of the disease in subjects bearing identical mutations. However, the consistent association of the deletion at codon 1309 with more severe colonic disease than that observed in patients with mutations at codons 1061 and 1068, supports a correlation between mutation site and penetrance of FAP. © Wiley-Liss, Inc.     

Mutation analysis of the adenomatous polyposis coli (APC) gene in northwest Spanish patients with familial adenomatous polyposis (FAP) and sporadic colorectal cancer

Germline mutations in the tumor‐suppresor APC gene are associated with hereditary familial adenomatous polyposis (FAP) and somatic mutations are common in sporadic colorectal cancer. In this study, we report the identification of three novel germline mutations: 1682‐1683insA, 3252‐3253insAT, 3544A>T and a new somatic mutation 4130‐4131delTT, all giving rise to truncated APC proteins. The majority of the mutations we found originate a truncated APC protein and cause the FAP phenotype. However, special attention must be given to the missense mutations Asp1822Val and Ser2621Cys since their segregation with the FAP phenotype is questionable. In our FAP families we did not find any genetical alterations at codon 1309, being this mutation the most frequent reported in APC. Differences in the recurrence of pathological mutations in APC could exist among populations. However, epidemiological studies must be performed to confirm this hypothesis. Hum Mutat 18:355, 2001. © 2001 Wiley‐Liss, Inc.     

A novel deletion at codon 441 of the APC gene associated with ophthalmic lesions (CHRPE) in a South African family.

A novel mutation at codon 441 in exon 10 of the adenomatous polyposis coli (APC) gene was identified in a South African family of mixed ancestry, using a convenient, non-radioactive, heteroduplex-SSCP screening assay. This single thymidine deletion after nucleotide position 1322 creates a frameshift resulting in a downstream stop codon at amino acid residue 453 of the APC gene. Genotypes of nine family members were subsequently correlated with the presence or absence of congenital hypertrophy of the retinal pigment epithelium (CHRPE), since expression of this common extracolonic manifestation of FAP is largely determined by the length of the truncated protein. CHRPE was absent in the five unaffected family members analysed, while four mutation positive subjects showed these ophthalmic lesions. Correlation between the molecular analysis and ophthalmic examinations, performed without knowledge of clinical and genetic status respectively, provided additional evidence in favour of the view that the range of phenotypic expression in FAP may result from different allelic manifestations of APC mutations.     

Seven novel mutations in the APC gene of Portuguese families with familial adenomatous polyposis: correlation with phenotype.

Germ-line mutations in the adenomatous polyposis coli (APC) gene are responsible for familial adenomatous polyposis (FAP). In the present study, we have used the protein truncation test to screen for mutations in exon 15 and exons 1-14 of the APC gene and denaturing gradient gel electrophoresis to analyze exons 1-14. We have studied nine unrelated FAP kindreds, eight with the classical phenotype and one with an atypical phenotype, with several family members exhibiting fewer than 50 colonic polyps. The combined use of these two methodologies allowed the identification of seven novel mutations, with two unrelated families sharing the same mutation. All mutations were chain terminating: six resulted from small deletions, one from a small insertion, and one was a point mutation, resulting in a premature stop codon. Seven mutations were located in exon 15 of the APC gene, one was in exon 10, and the remaining one, which corresponded to the kindred with an atypical phenotype, was located in exon 4.     

Familial adenomatous polyposis in a 5 year old child: a clinical, pathological, and molecular genetic study.

A girl aged 5 years 8 months presented with rectal bleeding; her father had had familial adenomatous polyposis (FAP) and a colectomy at the age of 23. Endoscopy showed extensive polyposis and she had a colectomy. The proband and her father had the common codon 1309 5 bp deletion APC mutation. This mutation predisposes to early onset of FAP, and consideration needs to be given to having molecular testing of at risk members of these families done in childhood.     

Genotype-phenotype correlations in 19 Dutch cases with APC gene deletions and a literature review

Partial and whole gene deletions represent a large proportion (4-33%) of the APC mutations found in polyposis patients, who previously had negative test results. The genotype-phenotype correlations for these APC deletions have not been studied in detail. We aimed to assess the number of germ line APC deletions in Dutch polyposis patients, to describe the clinical phenotype(s), and to review the current literature. We screened 296 index patients with polyposis, who previously had negative test results for APC or MUTYH mutations, for germ line APC gene deletions using Multiplex Ligation-dependent Probe Amplification. APC deletions were identified in 19 polyposis patients; seven had a whole gene deletion, nine had a deletion involving two or more exons, and three had single exon deletions. Most of the deletion families (83%) displayed a classic familial adenomatous polyposis (FAP) phenotype (100-2000 adenomas). We saw no patients with APC deletions and a severe phenotype (ie >2000 polyps); on the contrary, two families carrying a deletion of exons 7-13 and one family with a deletion of exons 1-5 showed a distinctly attenuated FAP phenotype. APC deletions were found in a considerable proportion of polyposis patients previously tested negative for APC or MUTYH (6%, 19/296) and represent 8% of all APC mutations found at our clinics (19/242). Methods to identify such deletions should therefore be included in routine germ line APC mutation analysis. While most total and partial APC deletions lead to a classic FAP phenotype, specific (in-frame) deletions may lead to an attenuated polyposis phenotype.     

Genotype-phenotype correlations of new causative APC gene mutations in patients with familial adenomatous polyposis.

Nine new causative mutations and seven previously characterised mutations of the APC gene of patients with familial adenomatous polyposis (FAP) were analysed for any genotype-phenotype correlations. The only clear genotype-phenotype correlation found was between the position of the mutation site and the presence or absence of congenital hypertrophy of the retinal pigment epithelium (CHRPE). A more distal mutation site was associated with an earlier age of onset of symptoms and a larger number of colonic polyps, but a notable amount of intrafamilial variation was observed.     

Phenotype variability of two FAP families with an identical APC germline mutation at codon 1465: a potential modifier effect?

We report the cases of two familial adenomatous polyposis (FAP) families who presented with the same 2 base pair deletion (AG) at codon 1465 of the adenomatous polyposis coli (APC) gene, but showed phenotypic variability. The mutation was revealed by a simple nonradioactive method using a heteroduplex analysis and identified by a sequence analysis. This observation suggests the responsibility of modifier genes in FAP patients' phenotype.