Phenotypic differences in familial adenomatous polyposis based on APC gene mutation status

Background—Familial adenomatous polyposis(FAP) is a clinically well defined hereditary disease caused bygermline mutations within the adenomatous polyposis coli (APC) gene.Although several techniques are applied in the mutation analysis of FAPkindreds about 20-50% of cases remain unclear, with no APC mutationidentified (APC negative).
Aims—To delineate phenotypic differences betweenAPC positive and APC negative patients with respect to colonic andextracolonic disease in order to determine whether additionalmechanisms are involved in the pathogenesis of FAP.
Methods—The entire coding region of the APC genewas analysed using single stranded conformation polymorphism andprotein truncation tests in 50 Swiss FAP families with a total of 161affected individuals. Differences in phenotypic manifestation werestatistically evaluated by Student's t test, Fisher'sexact test, and χ² test.
Results—Thirty six families (72%) were APCpositive. Statistically significant differences between APC positiveand APC negative groups were found for the mean age at diagnosis ofcolonic polyposis (35.2 versus 45.3 years, respectively) and for theoccurrence of stomach polyps (14 patients, all APC positive).Additionally, APC negative patients displayed lower polyp numbers atdiagnosis and less extracolonic manifestations.
Conclusions—FAP kindreds without detected APCgene mutations present with a notably milder disease phenotype comparedwith APC positive families, suggesting that different genetic factors might be involved.

Keywords:familial adenomatous polyposis; adenomatouspolyposis coli gene; mutation; colorectal cancer; extracolonicmanifestations

     

Nine-year follow-up of a patient with attenuated familial adenomatous polyposis treated with cyclo-oxygenase-2 inhibitors

Familial adenomatous polyposis (FAP) is caused by germline mutations in the adenomatous polyposis coli (APC) gene with onset of florid polyposis in childhood and development of colorectal cancer by age 30. Colectomy is advised because of the high risk of developing colorectal cancer. Attenuated FAP (AFAP) is a variant of this condition with a later age of onset and milder clinical phenotype; however, colectomy is advised once polyposis develops and polyps cannot be managed endoscopically. We report a case of a patient with AFAP and previously resected colonic carcinoma that was treated with chemoprophylaxis with long-term cyclooxygenase-2 (COX-2) inhibitors after declining colectomy. Colonoscopic examination demonstrated regression of polyps by 18 months. After 9 years of follow-up, there was no evidence of colorectal cancer development or progression of polyposis. This is the first case report on long-term treatment with COX-2 inhibition in a patient with AFAP and previous colonic carcinoma.     

Can APC mutation analysis contribute to therapeutic decisions in familial adenomatous polyposis? Experience from 680 FAP families

BACKGROUND AND AIMS: In familial adenomatous polyposis (FAP), correlations between site of mutation in the adenomatous polyposis coli (APC) gene and severity of colonic polyposis or extracolonic manifestations are well known. While mutation analysis is important for predictive diagnosis in persons at risk, its relevance for clinical management of individual patients is open to question. METHODS: We examined 680 unrelated FAP families for germline mutations in the APC gene. Clinical information was obtained from 1256 patients. RESULTS: APC mutations were detected in 48% (327/680) of families. Age at diagnosis of FAP based on bowel symptoms and age at diagnosis of colorectal cancer in untreated patients were used as indicators of the severity of the natural course of the disease. A germline mutation was detected in 230 of 404 patients who were diagnosed after onset of bowel symptoms (rectal bleeding, abdominal pain, diarrhoea). When these patients were grouped according to the different sites of mutations, mean values for age at onset of disease differed significantly: patients carrying APC mutations at codon 1309 showed a disease onset 10 years earlier (mean age 20 years) compared with patients with mutations between codons 168 and 1580 (except codon 1309) (mean age 30 years), whereas patients with mutations at the 5' end of codon 168 or the 3' end of codon 1580 were diagnosed at a mean age of 52 years. Within each group of patients however large phenotypic variation was observed, even among patients with identical germline mutations. A higher incidence of desmoids was found in patients with mutations between codons 1445 and 1580 compared with mutations at other sites, while no correlation between site of mutation and presence of duodenal adenomas was observed. CONCLUSIONS: As age at manifestation and course of the disease may be rather variable, even in carriers of identical germline mutations, therapeutic decisions should be based on colonoscopic findings in individual patients rather than on the site of mutation. However, in patients with mutations within codons 1445-1580, it may be advisable to postpone elective colectomy because desmoids may arise through surgical intervention.     

High frequency of MYH gene mutations in a subset of patients with familial adenomatous polyposis

BACKGROUND & AIMS: Inherited colorectal polyposis has been linked to constitutive mutations of the APC tumor suppressor gene. Recently, germline mutations in the base excision repair gene MYH have been associated with a recessively inherited form of the disease. The aim of this study was to evaluate germline mutation frequencies of both MYH and APC susceptibility genes in Italian patients with attenuated familial adenomatous polyposis. METHODS: The analysis was performed in 14 unrelated patients by using the protein truncation test for APC and genomic DNA sequencing for MYH. RESULTS: Overall, we identified 7 of 14 (50%) mutation carriers. Two patients were heterozygotes for an APC truncating mutation (2 of 14 [14%]), whereas 5 proved to be homozygotes or compound heterozygotes for MYH gene alterations (5 of 14 [36%]). Two MYH missense mutations, Y165C and G382D, already found to be frequent among patients from northern Europe, were also preponderant in our survey. Individuals with APC-associated syndrome showed a dominant family history of polyposis, whereas patients with MYH-associated disease were either apparently sporadic cases or had a family history consistent with recessive inheritance. MYH biallelic mutation carriers were up to 60% (5 of 8) among patients showing at least 30 adenomas and a family history with no vertical transmission of polyposis. CONCLUSIONS: On the basis of our data, patients with attenuated familial adenomatous polyposis with >30 adenomas and no obvious vertical transmission of the disease should be considered for MYH gene testing.     

Notable intrafamilial phenotypic variability in a kindred with familial adenomatous polyposis and an APC mutation in exon 9

BACKGROUND: The phenotypic spectrum of familial adenomatous polyposis (FAP) varies from the classic appearance of hundreds of adenomatous colonic polyps in the young adult and early onset colorectal cancer, to the occurrence of sparse adenomas in the older adult, "attenuated" FAP, due to mutations at the 5' or 3' ends of the APC gene. AIMS: To investigate marked intrafamilial phenotypic variation occurring in a family with an APC gene mutation in exon 9. PATIENTS: An extended kindred of 22 people of whom 16 had colorectal neoplasia and/or were APC mutation carriers. RESULTS: Phenotypic manifestation varied from classic FAP to a complete lack of clinical or endoscopic, or bioptic disease in five people in three different generations. This occurred in four of them over two generations, in spite of having a confirmed 11 bp insertion causing a frame shift and stop codon (363) in exon 9 of the APC gene. CONCLUSIONS: At present, it is assumed that in this family there is alternative splicing of the APC gene, and/or unidentified modifying genetic factors. The family illustrates the importance of genetic testing in evaluating carrier status and not just clinical examination. This clinical observation also high- lights the dilemma in recognising the possible contribution of low penetrance germline APC mutations to what has been considered "sporadic" colorectal neoplasia.     

Novel Germline APC Mutations in Swedish Patients with Familial Adenomatous Polyposis and Gardner Syndrome

Background: Familial adenomatous polyposis (FAP) is a familial cancer syndrome in which affected individuals develop multiple adenomatous polyps and are thereby at greatly increased risk of developing colorectal cancer. Gardner syndrome is a variant of FAP, in which the patients also develop extraintestinal tumors, in particular osteomas and desmoid tumors. An attenuated form of the disease (AFAP) is associated with fewer polyps, but still a high risk for colorectal cancer. Germline mutations in the adenomatosis polyposis coli (APC) gene cause FAP and Gardner syndrome and have recently been associated also with the development of AFAP. Methods: We have analysed the entire APC gene for germline mutations in 7 patients with FAP and in 6 patients with suspected AFAP. Mutation screening was performed by direct sequencing of exons 1-14 and using the protein truncation test for analysis of exon 15. Results: Novel disease-causing germline mutations, all of which resulted in truncation of the APC protein, were identified in 6 of the 7 patients with FAP or Gardner syndrome. No APC mutation was detected in any of the 6 patients with suspected AFAP. Conclusions: This study reports novel FAP- and Gardner syndrome-causing mutations in the APC gene. The lack of APC mutations in patients with multiple polyps at young age indicates that other genetic defects may cause this phenotype.     

Novel germline APC mutations in Swedish patients with familial adenomatous polyposis and Gardner syndrome

BACKGROUND: Familial adenomatous polyposis (FAP) is a familial cancer syndrome in which affected individuals develop multiple adenomatous polyps and are thereby at greatly increased risk of developing colorectal cancer. Gardner syndrome is a variant of FAP, in which the patients also develop extraintestinal tumors, in particular osteomas and desmoid tumors. An attenuated form of the disease (AFAP) is associated with fewer polyps, but still a high risk for colorectal cancer. Germline mutations in the adenomatosis polyposis coli (APC) gene cause FAP and Gardner syndrome and have recently been associated also with the development of AFAP. METHODS: We have analysed the entire APC gene for germline mutations in 7 patients with FAP and in 6 patients with suspected AFAP. Mutation screening was performed by direct sequencing of exons 1-14 and using the protein truncation test for analysis of exon 15. RESULTS: Novel disease-causing germline mutations, all of which resulted in truncation of the APC protein, were identified in 6 of the 7 patients with FAP or Gardner syndrome. No APC mutation was detected in any of the 6 patients with suspected AFAP. CONCLUSIONS: This study reports novel FAP- and Gardner syndrome-causing mutations in the APC gene. The lack of APC mutations in patients with multiple polyps at young age indicates that other genetic defects may cause this phenotype.     

Synchronous primary carcinomas of the ampulla of Vater and ascending colon in a patient with multiple flat adenomas

Multiple primary cancers occurring in the same patients have been reported to represent 1.8–3.9% of all cancers. The majority of all patients reported to have had a combination of simultaneous neoplastic changes in the ampulla of Vater and the colon showed familial adenomatous polyposis (FAP) syndrome. Variants of familial adenomatous polyposis coli are: attenuated adenomatous polyposis coli (AAPC, previously also known as flat adenoma syndrome) and multiple adenoma coli. AAPC is characterized clinically by many, but usually fewer than 100, colonic lesions that are characteristically slightly elevated and plaque-like, with a reddish surface and sometimes central depression. Genetically it represents an extremely rare variant of FAP. Another group of individuals, so-called multiple adenoma patients, have a phenotype similar to AAPC, but most have no demonstrable germ-line adenomatous polyposis coli mutation, as do patients with FAP or AAPC. However, there have been only a few reports that discussed concurrent neoplastic changes in the ampulla of Vater and colon in patients with multiple colonic flat adenomas, but without the florid phenotype of classical FAP. We present rare clinical course of a patient with multiple (more than 60) flat adenomas in the proximal colon and two primary cancers: of the ampulla of Vater and of the ascending colon. This patient and his family history did not show polyposis compatible with FAP or hereditary nonpolyposis colorectal cancer (HNPCC) syndrome.     

Genetic testing and phenotype in a large kindred with attenuated familial adenomatous polyposis

BACKGROUND & AIMS: An attenuated form of familial adenomatous polyposis has been described, but the phenotype remains poorly understood. METHODS: We performed genetic testing on 810 individuals from 2 attenuated familial adenomatous polyposis kindreds harboring an identical germline adenomatous polyposis coli gene mutation. Colonoscopy was performed on mutation-positive persons. RESULTS: The disease-causing mutation was present in 184 individuals. Adenomatous polyps were present in 111 of 120 gene carriers who had colonoscopy at an average age of 41 years. The median number of adenomas was 25 (range, 0-470), with striking variability of polyp numbers and a proximal colonic predominance of polyps. Colorectal cancer occurred in 27 mutation carriers (average age, 58 years; range, 29-81 years), with 75% in the proximal colon. The cumulative risk of colorectal cancer by age 80 was estimated to be 69%. An average of 3.4 recurrent polyps (range, 0-29) were found in the postcolectomy rectal remnant over a mean of 7.8 years (range, 1-34 years), with 1 rectal cancer. CONCLUSIONS: This investigation shows that attenuated familial adenomatous polyposis in the kindreds examined shows a much smaller median number of polyps than typical familial adenomatous polyposis, a wide variability in polyp number even at older ages, and a more proximal colonic location of polyps and cancer, yet it is associated with an extremely high risk of colon cancer. The phenotype of attenuated familial adenomatous polyposis mimics typical familial adenomatous polyposis in some cases but in others is difficult to distinguish from sporadic adenomas and colorectal cancer, thus making genetic testing particularly important.     

APC gene mutations in Chinese familial adenomatous polyposis patients

AIM:To study the characteristics of APC(adenomatous polyposis coli)gene germline mutation in Chinese patients with familial adenomatous polyposis(FAP).METHODS:APC gene from 14 FAP families was amplified by polymerase chain reaction(PCR)and underwent direct sequencing to determine the micromutation type.For the samples without micromutation,the large fragment deletion of APC gene was examined by multiplex ligation-dependent probe amplification(MLPA).RESULTS:There were gene micromutations in 9 families with a...     

Germline mutations of the MYH gene in Korean patients with multiple colorectal adenomas

Background Most investigations on MutY human homolog (MYH)-associated polyposis (MAP) have been conducted in Western countries. Limited data on MAP in Asia are currently available. The present study investigated germline mutations of the MYH gene among patients with 10 to 99 adenomatous colorectal polyps and familial adenomatous polyposis (FAP) without adenomatous polyposis coli (APC) germline mutations in Korea. Materials and methods The study population included 46 patients with 10 to 99 adenomatous polyps in the colorectum and 16 FAP patients with no identified APC germline mutations. Subjects were screened for MYH germline mutations, and we additionally screened for MYH mutations in 96 normal control individuals. Results Two of 46 (4.3%) patients with multiple polyps displayed heterozygous biallelic germline mutations of the MYH gene. A 39-year-old male patient with biallelic MYH mutations (p.G272E and p.A359V) received total proctocolectomy for rectal cancer and 36 colorectal polyps. A 58-year-old female patient with biallelic MYH mutations (p.Q253X and p.Q440P) received right hemicolectomy for ascending colon cancer and 16 colonic polyps. The frequency of biallelic MYH mutation in 14 of 46 multiple-polyp patients, who had 15 to 99 polyps, was 14.3% (2 of 14). No biallelic MYH mutations were detected in the 32 patients with 10 to 14 colorectal polyps, 16 FAP patients, or 96 normal controls. Conclusion We identified biallelic MYH germline mutations in 2 of 14 (14.3%) Korean patients with 15 to 99 colorectal polyps. In this study, there was no Y165C or G382D hot-spot mutation, which had been reported most frequently in previous studies.     

Gastric fundic gland polyps in south-east Scotland: absence of adenomatous polyposis coli gene mutations and a strikingly low prevalence of Helicobacter pylori infection

BACKGROUND AND AIM: Fundic gland polyps (FGP) were originally described in association with familial polyposis syndromes, but it is now accepted that the majority of FGP are picked up incidentally in up to 1.9% of routine endoscopies in dyspeptic patients. The familial adenomatous polyposis phenotype arises from germline mutations of the adenomatous polyposis coli (APC) gene. We aimed to see if there was any association between the presence of FGP, Helicobacter pylori, and two common APC gene mutations. METHODS: From a search of histopathology records in our unit, 85 consecutive patients were identified with a definite histological diagnosis of FGP between 1989 and 1997. Case notes could be retrieved in 48 cases to show the indication for endoscopy and endoscopic findings. Twenty-six patients (mean age 61 years, range 40-83 years) were tested for H. pylori status, and for the 1306 and 1061 bp deletions of the APC gene by the use of an enzyme-linked immunoassay and polymerase chain reaction techniques, respectively. RESULTS: Eighty-nine percent of patients underwent an endoscopy because of dyspepsia; 4.2% were anaemic, 4.2% had hematemesis and 1.2% had dysphagia. Only one patient was seropositive for H. pylori and no patient carried either APC gene deletion. CONCLUSIONS: This genetic information on those with FGP confirms previous phenotypic studies in that the majority of FGP are not associated with familial polyposis syndromes. The significance of such a strikingly low incidence of H. pylori infection in a dyspeptic population remains unclear.     

The multiple colorectal adenoma phenotype and MYH, a base excision repair gene.

We summarize the genetic and clinical features of the colorectal adenomas and cancers that occur in MYH-associated polyposis (MAP). MAP results from biallelic germline mutations in the base excision repair gene, mutY homologue (MYH). MAP has a phenotype that is often indistinguishable from classical or attenuated familial adenomatous polyposis (FAP), but the former is inherited as a recessive condition, whereas the latter is a dominantly inherited disease caused by germline mutations of the APC gene. MYH mutations seem to act by increasing the frequency of somatic APC mutations. MAP tumors may then progress to cancer along a distinct genetic pathway. MAP occurs in several different ethnic groups, the mutation spectrum appearing to differ among groups. It remains unknown, however, as to why carriers of MYH mutations specifically develop tumors of the gastrointestinal tract. In general, carriers of biallelic MYH mutations should be treated and followed up as for FAP patients with a similar phenotype. Relatives of MAP patients should be counseled as for any other recessive condition, although it remains possible that carriers of single mutations are at a modestly increased risk of colorectal cancer.     

Serrated adenoma in familial adenomatous polyposis: relation to germline APC gene mutation

BACKGROUND: Serrated adenoma is a precursor of colorectal cancer. AIM: To clarify possible genotype-phenotype correlations of serrated adenomas in familial adenomatous polyposis (FAP). Patients: Eleven patients from eight families with FAP. METHODS: We performed total colonoscopy with multiple biopsies in patients. Neoplasia with a serrated glandular structure was regarded as a serrated adenoma. In each patient, germline mutations of the APC gene were determined. Colonic phenotype was compared with germline mutations of the APC gene. RESULTS: Serrated adenomas were found in three patients. These patients had macroscopic polyps <100 in number. Pedigrees with serrated adenomas had the truncating germline APC mutation at codon 161, 332, or 1556 while in the other pedigrees mutations were found between codons 554 and 1324. CONCLUSIONS: In FAP, serrated adenoma may be a phenotype characteristic of the attenuated form.     

Capsule endoscopy is useful and safe for small-bowel surveillance in familial adenomatous polyposis

BACKGROUND: Duodenal cancer and ampullary cancer are major causes of death after a prophylactic colectomy in patients with familial adenomatous polyposis (FAP). Forward-viewing endoscopy and side-viewing endoscopy are recommended in patients with FAP for surveillance of periampullary and duodenal polyposis. The study of polyps distal to the duodenum in FAP is limited. A capsule endoscopy (CE) allows visualization of the mucosa of the entire small bowel. OBJECTIVE: The objective was to detect whether CE has clinical value or any utility for the surveillance of small-bowel polyps in patients with FAP and to evaluate whether there are genotypic factors that predict which patients are at a lower risk of small-bowel polyps. SETTING: Two Italian tertiary-referral centers. PATIENTS: Twenty-three patients with FAP who presented for a CE. MAIN OUTCOME MEASUREMENTS: Patients with FAP were examined by CE to assess the location, size, and number of small-bowel polyps. Patient age at CE, sex, years of observation after surgery, type of surgery, duodenal adenomas, and colorectal cancer at surgery were analyzed. All patients were selected for mutation analysis, and the germline adenomatous polyposis coli (APC) gene mutation was detected. RESULTS: Eleven of 23 patients with FAP had duodenal polyps. During CE, jejunal-ileal polyps were detected in 7 of 23 FAPs, with a total number of 15 polyps in the ileum. The presence of duodenal adenomas was the only clinical feature predictive of small-bowel polyps. Identification of the ampulla of Vater was not achieved with CE; duodenal polyps were only seen in 4 of 11 patients identified endoscopically, with an underestimation of polyp numbers. APC mutations between codons 499 and 805 were associated with the absence of small-bowel polyps. CONCLUSIONS: CE is useful and safe for the surveillance of jejunal-ileal polyps in selected patients with FAP. CE is not useful in the surveillance of the duodenum where the majority of small-bowel cancers occur.     

APC mutation spectrum of Norwegian familial adenomatous polyposis families: high ratio of novel mutations

Introduction  Familial adenomatous polyposis (FAP) is an autosomal dominantly inherited disease caused by mutations in the adenomatous polyposis coli (APC) gene. Massive formation of colorectal adenomas, of which some will inevitably develop into adenocarcinomas, is the hallmark of the disease. Characterization of causative APC mutations allows presymptomatic diagnosis, close follow-up and prophylactic intervention in families. To date more than 900 different germline mutations have been characterized worldwide demonstrating allelic heterogeneity. Purpose  The germline mutation spectrum of APC identified in 69 apparently unrelated Norwegian FAP families are presented and discussed with reference to clinical phenotype and novel mutation rate. Methods  Different methods have been used over the years. However, all mutations were confirmed detectable by an implemented denaturing high-performance liquid chromatography screening approach. Multiplex ligation-dependent probe amplification analysis was employed for potential gross rearrangements. Results  Fifty-three distinctive mutations were detected, of which 22 have been detected in Norway exclusively. Except for two major deletion mutations encompassing the entire APC, all mutations resulted in premature truncation of translation caused by non-sense (31%) or change in reading frame (69%). Conclusion  A high ratio of novel APC mutations continues to contribute to APC mutation heterogeneity causing FAP. This is the first comprehensive report of APC germline mutation spectrum in Norway. This paper is dedicated to late Professor Tobias Gedde-Dahl (deceased in March 2006). An erratum to this article can be found at     

Germline and somatic mutations in exon 15 of the APC gene and K-ras mutations in duodenal adenomas in patients with familial adenomatous polyposis.

BACKGROUND: In sporadic colorectal adenomas mutations in the adenomatous polyposis gene (APC) are among the first gene aberrations to appear. In familial adenomatous polyposis (FAP) the patients already have a germline mutation in the APC gene. To investigate the natural history of duodenal adenomas in FAP patients, we examined germline and somatic mutations of the APC gene and K-ras mutations in these lesions. METHODS: Frozen sections from 54 duodenal polyps from 31 FAP patients were used to histologically verify the presence of adenomatous growth in the mucosa; the rest of each biopsy specimen was processed for DNA extraction. APC exon 15 was investigated with the protein truncation test (PTT), using four overlapping polymerase chain reaction (PCR) fragments, and samples showing an APC mutation were thereafter sequenced. The adenomas were examined for K-ras mutations by use of a combination of the 'enriched PCR method' and temporal temperature gradient electrophoresis. RESULTS: APC germline mutations in exon 15 were found in 19 of 31 (61%) patients, whereas somatic mutations were localized to 12 of 54 (22%) duodenal adenomas. In seven adenomas both the germline and the somatic mutations were found, whereas five small adenomas showed somatic mutations only. There was no tendency for more mutations to be detected in large and severely dysplastic adenomas compared with small and mildly dysplastic ones. K-ras mutations were found in four (7%) duodenal adenomas. CONCLUSIONS: The low rate of somatic APC and K-ras mutations in duodenal adenomas may indicate another neoplastic pathway than in FAP adenomas of the large bowel, or that a modifier gene is cosegregating with the disease.     

Nine-year follow-up of a patient with attenuated familial adenomatous polyposis treated with cyclo-oxygenase-2 inhibitors

Familial adenomatous polyposis (FAP) is caused by germline mutations in the adenomatous polyposis coli (APC) gene with onset of florid polyposis in childhood and development of colorectal cancer by age 30. Colectomy is advised because of the high risk of developing colorectal cancer. Attenuated FAP (AFAP) is a variant of this condition with a later age of onset and milder clinical phenotype; however, colectomy is advised once polyposis develops and polyps cannot be managed endoscopically. We report a case of a patient with AFAP and previously resected colonic carcinoma that was treated with chemoprophylaxis with long-term cyclooxygenase-2 (COX-2) inhibitors after declining colectomy. Colonoscopic examination demonstrated regression of polyps by 18 months. After 9 years of follow-up, there was no evidence of colorectal cancer development or progression of polyposis. This is the first case report on long-term treatment with COX-2 inhibition in a patient with AFAP and previous colonic carcinoma.     

An unexpected Cowden syndrome case found among members of a large familial adenomatous polyposis kindred

Genetic testing is now considered the standard of care in the management of familial adenomatous polyposis (FAP). Non-carriers of mutations are excluded from endoscopic surveillance. During the systematic screening of the relatives of an affected member with FAP, one non-carrier of APC mutations was unexpectedly found with the typical Cowden syndrome phenotype. One large Algerian family with FAP was screened for an APC germline mutation. Moreover, we also performed a mutation search in the Cowden syndrome member for PTEN, BMPR1A or MADH4 (SMAD4) germline mutations. We identified a mutation in the APC gene that results in a truncated protein (Y935X) in the FAP proband, and subsequently in 12 FAP-affected members. Among the 12 APC mutation-negative members of this family, we found one member with the Cowden disease phenotype. However, the mutation analysis in the PTEN gene and the two other genes involved in juvenile polyposis, namely BMPR1A and MADH4 (SMAD4), in the Cowden syndrome patient failed to show any pathogenic mutation. Genetic testing is a powerful tool that can provide a definitive diagnosis for FAP. However, not all polyposes in the FAP family are adenomatous polyposes.