Fundic gland polyps in familial adenomatous polyposis: neoplasms with frequent somatic adenomatous polyposis coli gene alterations

Fundic gland polyps (FGPs) are the most common gastric polyps in patients with familial adenomatous polyposis (FAP). FGPs have traditionally been regarded as nonneoplastic, possibly hamartomatous lesions, but the pathogenesis of FGPs in both FAP and sporadic patients remains unclear. FGPs in FAP can show foveolar dysplasia, and rarely invasive gastric adenocarcinoma has been reported in patients with FAP and fundic gland polyposis. Using direct gene sequencing and allelic loss assays at 5q, we analyzed somatic adenomatous polyposis coli (APC) gene alterations in 41 FAP-associated FGPs (20 with foveolar dysplasia, six indefinite for dysplasia, and 15 nondysplastic) and 13 sporadic FGPs. The foveolar epithelium and dilated fundic glands of the polyps were separately microdissected and analyzed in 25 of 41 FAP-associated FGPs and 13 of 13 sporadic FGPs. Somatic APC gene alterations were identified frequently (21 of 41 cases, 51%) in FAP-associated FGPs. Both the foveolar epithelium and the dilated fundic gland epithelium comprising the FGPs were shown to carry the same somatic APC gene alteration in 24 (96%) of 25 cases. Furthermore, there was no difference in the frequency of somatic APC gene alterations between FGPs with foveolar dysplasia (10 of 20, 50%), indefinite for dysplasia (four of six, 67%), and nondysplastic (seven of 15, 47%) in FAP patients (P: = 0.697). In contrast, FGPs from non-FAP patients showed infrequent (one of 13, 8%) APC gene alterations (P: = 0.008). These results show that FGPs in FAP patients are pathogenetically distinct from sporadic FGPs. Somatic, second-hit APC gene alterations, which precede morphological dysplasia in many FAP-associated FGPs, indicate that FGPs arising in the setting of FAP are neoplastic lesions.     

Sporadic fundic gland polyposis: a clinical, histological, and molecular analysis.

Sporadic fundic gland polyposis (SFGP) is defined as multiple fundic gland polyps in patients without familial adenomatous polyposis syndrome (FAP). Although little is known about the genetic changes in SFGP, mutations in the Wnt signaling pathway have been recently linked to fundic gland polyps in other settings: sporadic polyps are linked to activating beta-catenin mutations, whereas FAP-associated fundic gland polyps are caused by second somatic hits in the adenomatous polyposis coli gene. The relationship between SFGP, single sporadic fundic gland polyps, and FAP-associated polyps remains unclear, and SFGP remain poorly characterized at the clinical, histological, and molecular levels. A retrospective study was undertaken of eight patients with SFGP who had >/=10 polyps with at least five endoscopic biopsy specimens available for study. One additional patient with attenuated FAP who underwent partial gastrectomy was included as a control. The medical records and biopsy specimens were reviewed. Mutations of the beta-catenin gene were evaluated in each fundic gland as well as in control nonpolypoid tissue by direct sequencing of a mutational hot spot in exon 3 of the beta-catenin gene, which encodes the GSK-3beta phosphorylation sites, and a HinfI endonuclease digestion assay. The four men and four women in the study were an average of 57 years of age at biopsy. All patients were on acid-suppression therapy, 5/8 with proton-pump inhibitors (PPI) and 3/8 with Zantac. Sixty-two polyps were studied, and all were <10 mm, with most between 2 and 7 mm. The polyps were histologically identical to single sporadic fundic gland polyps. No dysplasia was seen. Forty-seven of 62 polyps (76%) had detectable beta-catenin mutations. Mutations were found in all eight of the patients. All were point mutations in codons 32, 33, 34, and 37 and are either phosphorylation sites or immediately adjacent to phosphorylation sites, findings identical to that seen in single sporadic fundic gland polyps. Each polyp had a single mutation, and each patient had more than one unique mutation (median = 4), indicating a multifocal origin for the polyps. No mutations were found in nonpolypoid control tissue and in polyps from the attenuated FAP patient. The patients with SFGP in this series were all between 40 and 70 years of age and had histories of acid-suppressive therapy. The fundic gland polyps were histologically and genetically identical to single sporadic fundic gland polyps and demonstrated frequent somatic activating mutations in exon 3 of the beta-catenin gene.     

Intraductal papillary mucinous neoplasm of the pancreas in a patient with attenuated familial adenomatous polyposis

A 67 year old man with a clinical diagnosis of attenuated familial adenomatous polyposis (AFAP) and a past history of synchronous colon cancers in the transverse colon was also found to have an intraductal papillary mucinous neoplasm (IPMN) of the pancreas. In addition, several foci of heterotopic gastric oxyntic mucosa were noted in the duodenum, interspersed with flat and polypoid adenomas. The duodenal adenomas showed low grade dysplasia, loss of adenomatous polyposis coli (APC) protein expression, but retention of beta catenin staining, localised to the nucleus and cytoplasm. The IPMN in the pancreas showed an identical immunohistochemical profile to the duodenal adenomas. The heterotopic gastric foci in the duodenum were negative for the APC protein, and beta catenin staining was membranous in location. Although the patient did not show germline truncating APC mutations or mutations in the MYH gene, the past history, clinical features, and immunohistochemical profile of the various lesions suggest strongly that the IPMN is part of the spectrum of lesions encountered in AFAP. Whether the heterotopic oxyntic gastric mucosa in the duodenum is also related is unclear, but it may represent a forme fruste of fundic gland polyps.     

Sporadic fundic gland polyps with epithelial dysplasia : evidence for preferential targeting for mutations in the adenomatous polyposis coli gene

Gastric fundic gland polyps (FGPs) occur in two distinct clinicopathological scenarios: sporadic and familial adenomatous polyposis (FAP) associated. FAP-associated FGPs arise through somatic second hit alterations of the adenomatous polyposis coli (APC) gene and frequently demonstrate epithelial dysplasia (Am J Pathol 2000, 157:747-754). Sporadic FGPs, in contrast, tend to contain beta-catenin gene mutations and only infrequently show dysplasia (Am J Pathol 2001, 158:1005-1010). However, sporadic FGPs with dysplasia have not been previously investigated. We studied 13 sporadic FGPs with surface/foveolar low-grade dysplasia or changes indefinite for dysplasia for alterations in the APC/beta-catenin pathway, using chromosome 5q allelic loss assays and direct DNA sequencing of the mutation cluster region in exon 15 of APC and the phosphorylation region in exon 3 of beta-catenin. In addition, to evaluate for possible additional genetic alterations in FGPs, all cases were evaluated for microsatellite instability using fluorescent-based amplification of a standard panel of five microsatellite markers. Alterations in APC were present in seven (53.8%) FGPs, including two cases with bi-allelic APC inactivation (truncating intragenic mutation plus 5q allelic loss), two cases with APC mutation only, and three cases with 5q allelic loss only. In contrast, only two (15.4%) FGPs contained stabilizing beta-catenin mutations. All 13 FGPs were microsatellite stable. These results indicate that sporadic FGPs with dysplasia/indefinite for dysplasia are molecularly similar to FAP-associated FGPs, and are dissimilar to the more common sporadic nondysplastic FGPs. Mutations in APC and beta-catenin, despite occurring in the same genetic pathway, show differing biological properties, a phenomenon that has previously been demonstrated in colorectal neoplasms. The lack of microsatellite instability in FGPs in this study and of K-ras mutations in a previous study suggests that secondary genetic alterations are rare in both dysplastic and nondysplastic FGPs.     

Deletion mutation of BRAF in a serrated adenoma from a patient with familial adenomatous polyposis

BRAF gene mutations in the colorectum have been associated with serrated adenomas and less frequently with hyperplastic polyps, villous adenomas, tubular adenomas, and carcinomas. Most BRAF mutations in the colon have been reported as a V600E substitution. We report a case with a very rare deletion mutation of BRAF (c.1799-1801delTGA, p.Val600_Lys601delinsGlu) in a serrated adenoma; the patient has familial adenomatous polyposis with a germline mutation of the APC gene (c.3578delA, p.Gln1193ArgfsX1264). Genetic studies on fundic gland polyps and tubular adenomas from the same patient failed to demonstrate BRAF mutation. This case is the first reported with a deletion mutation of BRAF found in the colon.     

Sporadic fundic gland polyps: common gastric polyps arising through activating mutations in the beta-catenin gene

Fundic gland polyps (FGPs) are the most common gastric polyps. FGPs traditionally have been regarded as nondysplastic hamartomatous or hyperplastic lesions, but their pathogenesis remains unclear. We have recently shown that somatic adenomatous polyposis coli (APC) gene alterations are frequently present in FGPs associated with familial adenomatous polyposis (FAP), raising the possibility that mutations of the beta-catenin gene affecting the APC/beta-catenin pathway might be involved in the pathogenesis of sporadic FGPs. We analyzed somatic beta-catenin gene mutations in 57 sporadic FGPs from 40 patients without FAP and in 19 FGPs from 13 FAP patients. Direct DNA sequencing of exon 3 encompassing the glycogen synthase kinase-3beta phosphorylation region for beta-catenin was used with confirmation by HIN:fI restriction endonuclease digestion. The foveolar epithelium and dilated fundic glands of the polyps were separately microdissected and analyzed in 22 of 57 sporadic FGPs. Activating beta-catenin gene mutations were present in 91% (52 of 57) of sporadic FGPs. Both the foveolar epithelium and the dilated fundic gland epithelium comprising the polyps were shown to have the same somatic beta-catenin mutation in 21 of 22 (95%) sporadic FGPs. In contrast, beta-catenin gene mutations were not present in any of the 19 FAP-associated FGPs (P: < 0.000001). The high frequency of beta-catenin mutations in sporadic FGPs indicates that these lesions arise through activating mutations of the beta-catenin gene. Beta-catenin mutations in gastrointestinal tract polyps have previously only been demonstrated in a subset of adenomatous (dysplastic) or neoplastic polyps. Sporadic FGPs are therefore the only lesions of the gastrointestinal tract to demonstrate beta-catenin mutations while lacking dysplastic morphology.     

High-grade pancreatic intraepithelial neoplasia in a patient with familial adenomatous polyposis

Familial adenomatous polyposis (FAP) is caused by mutation of the adenomatous polyposis coli (APC) gene and is characterized by multiple colorectal adenomas and tumors of other organs and sites. A 58-year-old woman with FAP syndrome and previous total colectomy presented for routine follow-up examination. Abdominal ultrasound and subsequent endoscopic evaluation revealed ampullary and duodenal polyps, as well as inhomogeneity of the pancreatic head. A pancreaticoduodenectomy confirmed multiple duodenal adenomas. In addition, high-grade pancreatic intraepithelial neoplasia (PanIN-3) was found in the smaller pancreatic ducts. Pancreatic precancerous lesions have only rarely been described in FAP, including 2 pancreatic duct adenomas and 2 intraductal papillary mucinous neoplasms. A review of the world English literature revealed no reports of PanIN-3 in association with FAP. Further studies are required to determine if patients with FAP are at increased risk for pancreatic premalignant lesions.     

Familial adenomatous polyposis associated with multiple adrenal adenomas in a patient with a rare 3' APC mutation

Familial adenomatous polyposis (FAP) is characterised by hundreds of colorectal adenomas. Endocrine neoplasms have occasionally been reported, as have gastric polyps, which are usually hamartomatous in the fundus of the stomach and adenomatous in the antrum. A 57 year old man with colorectal, gastric, and periampullary adenomatous polyposis, in association with three bilateral adrenocortical adenomas, is presented. Mutation screening showed a 5960delA germline mutation in the adenomatous polyposis coli (APC) gene predicted to lead to a premature stop codon. This mutation was found in three of the four children of the patient. Western blot analysis of a lymphoblastoid cell line derived from the patient failed to detect any truncated APC polypeptide. This rare 3' mutation is responsible for an unusually complex and late onset phenotype of FAP.


Keywords: familial adenomatous polyposis; APC mutation; adrenal adenoma     

Three familial cases of fundic gland polyposis without polyposis coli

We report three cases of fundic gland polyposis in the stomach identified in three patients who were related. Grossly the numerous polyps covered an area limited to the body and fundus of the stomach, no polyps were found in the antrum, duodenum, colon, or rectum, and histologically, the gastric lesions consisted of numerous hamartomatous polyps, characterized by proliferation of the fundic and cystic glands. The gastric lesions were identified in families without polyposis coli. This type of fundic gland polyposis has never been documented before in the literature.     

Attenuated familial adenomatous polyposis: a case report with mixed features and review of genotype-phenotype correlation

Familial adenomatous polyposis represents approximately 1% of all colorectal cancers and is caused by germline mutations in the adenomatous polyposis coli (APC) gene. Most mutations are located within the first 2000 codons, and several mutational hot spots have been identified. The relative location of the mutation may be associated with the number of polyps and partially predicts specific phenotypic expression. Mutations associated with the attenuated phenotype are found predominantly in the 5' region of the gene or in the last third. We describe a patient with a mutation in codon 161 of the APC gene, which displays a phenotype most closely resembling the attenuated form of familial adenomatous polyposis, and review the literature, the implications of this mutation, and the importance of the molecular testing in the proper and more complete characterization of these patients. Differences in the APC mutation sites alone cannot completely account for intrafamilial and interfamilial variation in the polyposis phenotypes.     

Upper gastrointestinal pathology in familial adenomatous polyposis: results from a prospective study of 102 patients.

Multiple gastric and duodenal biopsy specimens from 102 asymptomatic patients with familial adenomatous polyposis, taken during a prospective endoscopic screening programme were examined. One hundred patients had microscopic gastroduodenal pathology, often in the absence of macroscopic lesions. Adenomas were found in 94 patients in the duodenum, in the second and third parts. Hyperplasia of villous and crypt epithelium was also seen, sometimes in the absence of adenomas: this may be a precursor of neoplastic change. In the stomach fundic gland polyps were the commonest abnormality, seen microscopically in 44 patients. Chronic antral gastritis was common in patients without fundic polyps. Gastric adenomas were present in six patients, all of whom also had duodenal adenomas. If duodenal adenomas in familial adenomatous polyposis have a similar malignant potential to those in the colorectum sequential endoscopy and biopsy are necessary to detect cancer in these patients.     

Mutation cluster region,association between germline and somatic mutations and genotype-phenotype correlation in upper gastrointestinal familial adenomatous polyposis

Studies of adenomatous polyposis coli (APC) mutations in familial adenomatous polyposis (FAP) have focused on large bowel disease. It has been found that: 1) germline APC mutations around codon 1300 are associated with severe colorectal polyposis; 2) somatic APC mutations in colorectal tumors tend to cluster approximately between codons 1250 and 1450; and 3) patients with germline mutations close to codon 1300 tend to acquire somatic mutations (second hits) in their colorectal polyps by allelic loss, whereas the tumors of other FAP patients have truncating second hits. Using new and published data, we have investigated how germline and somatic APC mutations influence the pathogenesis of upper gastrointestinal polyps in FAP. We have compared the results with those from colorectal disease. We found that somatic mutations in upper gastrointestinal polyps cluster approximately between codons 1400 and 1580. Patients with germline APC mutations after codon 1400 tend to show allelic loss in their upper gastrointestinal polyps; the tumors of other patients have truncating somatic mutations after codon 1400. Finally, patients with germline mutations after codon 1400 tend to have more severe duodenal polyposis (odds ratio, 5.72; 95% confidence interval, 1.13 to 28.89; P = 0.035). Thus, in both upper gastrointestinal and colorectal tumors, a specific region of the APC gene is associated with severe disease, clustering of somatic mutations, and loss of the wild-type allele. However, the region concerned is different in upper gastrointestinal and colorectal disease. The data suggest that loss of all APC SAMP repeats is probably necessary for duodenal and gastric tumorigenesis in FAP, as it is in colonic tumors. Compared with colonic tumors, however, retention of a greater number of beta-catenin binding/degradation repeats is optimal for tumorigenesis in upper gastrointestinal FAP.     

Screening for mutations of the APC gene in 66 Italian familial adenomatous polyposis patients: evidence for phenotypic differences in cases with and without identified mutation

Germline mutations in the APC gene are responsible for familial adenomatous polyposis (FAP), a dominantly inherited syndrome characterized by the development of hundreds to thousands of polyps in the colon and in the rectum of affected individuals and by variable extracolonic manifestations (gastric and duodenal polyps, osteomas, retinal lesions, and desmoid tumors). Through the combined use of single-strand conformation polymorphism (SSCP) analysis and the protein truncation test (PTT), we have screened 66 Italian FAP patients and found 29 different APC mutations in a total of 34 cases. Of the identified mutations, 15 were nonsense, 12 were 1- to 5-bp deletions or insertions and two were complex rearrangements, all leading to the formation of premature stop codons. Only 10 mutations had been already previously described at the germline level, confirming the high heterogeneity of the APC mutational spectrum. The mean age of diagnosis in mutation positive cases and their affected relatives was significantly lower than in cases without identified mutation (30.6 vs 39.1 years, respectively; p = 0.003). In addition, among patients without a family history of polyposis, all mutation-positive cases displayed at least one of the extracolonic manifestations usually associated with FAP, whereas in one-half of the cases without identified mutation, none of these phenotypes was observed. Although a fraction of apparently mutation-negative cases were likely to be due to limitations of the mutation screening strategy, our results suggest, in agreement with previous reports, that allelic and/or genetic heterogeneity might be responsible for the phenotypic variability observed in FAP patients.     

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.     

Somatic mutations in familial adenomatous polyps. Nuclear translocation of beta-catenin requires more than biallelic APC inactivation

Germline mutations of the APC gene cause familial adenomatous polyposis coli (FAP). APC inactivation results in dysregulation of wnt/wingless signaling and contributes to chromosomal instability in vitro. To investigate somatic alterations that follow a known germline mutation and contribute to the transition from normal to neoplastic mucosa, we studied 10 adenomatous polyps from a 27-year-old patient with an APC germline mutation at codon 554. Chromosomal imbalances were analyzed by comparative genomic hybridization; APC and K-ras were screened for somatic mutations. Before DNA analysis, the polyps were bisected to compare the genetic alterations with the corresponding immunohistologic phenotype of beta-catenin, a proto-oncogene product degraded by the APC tumor suppressor. Gains at chromosome 20 were the most frequent chromosomal alterations (6 polyps). Losses were found predominantly at chromosome 4q (3 polyps). A K-ras mutation was seen in 1 polyp, while all polyps displayed somatic intragenic APC mutations. Comparative immunohistologic analysis revealed strong membranous staining for beta-catenin in all adenomatous polyps, but only 1 adenoma showed nuclear accumulation. Our results suggest chromosomal aberrations contribute early to the progression of adenomatous polyps after biallelic APC inactivation. APC inactivation itself is insufficient for immunohistochemically detectable nuclear translocation of beta-catenin.     

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.     

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.