Colorectal Adenomatous Polyposis Associated with <Emphasis Type="Italic">MYH</Emphasis> Mutations: Genotype and Phenotype Characteristics

Purpose Recent literature reports that several digestive diseases are associated with mutations in the base excision repair gene MYH. This study was designed to establish the prevalence of germ-line MYH mutations in a series of 56 consecutive patients with no detectable APC mutation and describe the phenotype of those with MYH mutations. Methods MYH mutations were screened by DNA sequencing after polymerase chain reaction amplification of each exon. Clinical, endoscopic, and surgical data were collected for the tested patients. Results MYH mutations were identified only in the group of patients with attenuated adenomatous polyposis with ten or more adenomatous polyps. The prevalence of MYH mutations was 34.4 percent (11 cases) in this subgroup of 30 patients. There were two homozygotes and eight compound heterozygotes. Only one patient had a monoallelic mutation. At least one of two mutational hot spots was identified in ten patients. Three patients presented with a family history of adenomatous polyposis in siblings, without vertical transmission. The median number of colorectal adenomatous polyps was 53 without preferential localization. Colorectal cancer was associated with polyposis in seven patients. Gastric and duodenal adenomas were diagnosed in one case. Ten of 11 patients underwent colectomy. Conclusions MYH mutations have been observed in one-third of patients with attenuated polyposis. The phenotype of the disease is similar to attenuated familial adenomatous polyposis. Upper gastrointestinal endoscopy also should be recommended. However, its transmission shows evidence of a recessive pattern. Presented at Digestive Disease Week, Los Angeles, California, May 20 to 25, 2006, at the Journées Francophones de Pathologie Digestive, Paris, France, March 19 to 22, 2006, and at the United European Gastroenterology Week, Berlin, Germany, October 21 to 25, 2006. Reprints are not available.     

Twelve Years of Endoscopic Surveillance in a Family Carrying Biallelic Y165C MYH Defect: Report of a Case

Purpose We report the case of two siblings, clinically andendoscopically followed for 12 years, who displayed anattenuated adenomatous polyposis coli phenotype. Methods On workup for rectal bleeding with colonoscopy, we found multiple adenomas mainly right-sided in a 21-year-old female and the same colonic phenotype was observed in her 27-year-old brother. We made a clinical diagnosis of attenuated adenomatous polyposis coli and performed APC gene testing. Because they had refused the proposed ileorectal anastomosis surgical option, we planned a periodic, endoscopic follow-up. Results Gene testing did not confirm the clinical suspicion of attenuated adenomatous polyposis coli. Actually, we did not find anypathogenic mutation in APC gene and we recently identified a biallelic Y125C MYH defect. During the endoscopic follow-up, a progressive reduction of adenomas was seen. Conclusions New insight colorectal cancer genetics have allowed definition of a new class of polyposis that applies to some patients with attenuated adenomatous polyposis coli phenotype as in the siblings we have described. To prevent colorectal cancer without recurring to surgery, colonoscopic polypectomy may be a suitable tool in controlling MYH polyposis.     

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     

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.     

Mutation Spectrum of Familial Adenomatous Polyposis Patients in Turkish Population: Identification of 3 Novel APC Mutations

BackgroundFamilial adenomatous polyposis (OMIM #175100) and MUTYH-associated polyposis (OMIM #608456) are rare cancer-prone disorders characterized by hundreds of adenomatous polyps in the colon and rectum, which have a high probability of malignant transformation. Attenuated familial adenomatous polyposis is a variant of familial adenomatous polyposis, which is a term used for the condition in which patients have less than 100 colorectal polyps. Germline heterozygous Adenomatous polyposis coli (APC) and biallelic MUTYH (mutY DNA glycosylase) pathogenic variations are responsible for familial adenomatous polyposis and MUTYH-associated polyposis respectively. The aim of this study is to discuss the clinical manifestations of patients having pathogenic APC and MUTYH variations.MethodsWe included 27 probands who have more than 10 colonic polyps in this study. After evaluation of their clinical and family histories, the probands were screened for APC and MUTYH variations via next generation sequencing. The family members of the probands carrying pathogenic variations were screened via Sanger sequencing. ResultsAmong 27 probands, pathogenic APC and MUTYH variations were detected in 3 and 6 probands respectively. In the APC gene, 3 novel truncating variations (p.Leu360*, p.Leu1489Phefs*23, and p.Leu912*) were detected in 3 unrelated probands. In the MUTYH gene, only 2 distinct pathogenic variations were detected (p.Pro295Leu and p.Glu480del) in the homozygous or compound heterozygous state.ConclusionIn this study, molecular etiology was clarified in 9 familial polyposis patients. The p.Pro295Leu and p.Glu480del variations seem to be common in the Turkish population and may be considered as a first-step genetic test in Turkish familial polyposis patients showing autosomal recessive inheritance. However more studies are needed to reveal the exact frequency of these variations.     

MYH mutations in patients with attenuated and classic polyposis and with young-onset colorectal cancer without polyps

BACKGROUND & AIMS: MYH-associated polyposis is a recently described disease that is characterized by multiple colorectal adenomas and a recessive pattern of inheritance. Individuals with MYH-associated polyposis have biallelic mutations in MYH, a base excision repair gene, and are negative for germline mutations in the APC gene. In this study, the 2 most prevalent MYH mutations in white persons, Y165C and G382D, were analyzed for their presence in 984 subjects selected from 3 groups: 400 undergoing screening colonoscopy and found to have 0-3 polyps, 444 with colorectal cancer (CRC), and 140 referred for APC mutation analysis in which a germline mutation was not identified. METHODS: Genotyping for Y165C and G382D was performed by Pyrosequencing. RESULTS: Biallelic mutations for Y165C and/or G382D were not found in any of those undergoing screening colonoscopy with 0-3 polyps (n = 400), in those APC-negative patients with <20 adenomatous polyps (n = 26), or in those with CRC who were older than 50 years (n = 328). Furthermore, these 2 MYH mutations were not found among patients whose tumors showed the presence of defective DNA mismatch repair (n = 62). However, the presence of biallelic germline MYH mutations correlated with the presence of >or=20 adenomatous polyps. Interestingly, 2 of the 116 individuals with CRC diagnosed at 50 years of age or younger also presented with biallelic germline mutations in MYH. CONCLUSIONS: These data suggest that screening of MYH should be considered not only in patients with multiple polyps but also in patients with early-onset CRC.     

Evidence for genetic predisposition to desmoid tumours in familial adenomatous polyposis independent of the germline APC mutation

Background: Many patients with familial adenomatous polyposis (FAP) die from desmoid tumours which can arise spontaneously but often appear to be surgically induced by prophylactic colectomy. FAP results from germline adenomatous polyposis coli (APC) gene mutations and desmoids arise following biallelic APC mutation, with one change usually occurring distal to the second β-catenin binding/degradation repeat of the gene (3′ to codon 1399). We have suggested that because families with germline mutations in this region already have the requisite change, they are more likely to develop desmoids. However, there are families with 5′ germline mutations where desmoids are common.     

Frequency of the common germline MUTYH mutations p.G396D and p.Y179C in patients diagnosed with colorectal cancer in Southern Brazil

Introduction  

MUTYH-associated polyposis (MAP) is an autosomal recessive cancer predisposition syndrome associated with the development of colorectal tumors and colonic polyps at an early age. MAP syndrome is associated to germline biallelic mutations in the MUTYH gene which lead to deficient DNA repair through the base-excision repair system and accumulation of G:C→T:A transversions. Occurrence of such mutations in oncogenes and tumor suppressor genes drives colorectal carcinogenesis and is associated with the development of colonic polyps. Two common mutations, p.Y179C and p.G396D, are present in approximately 70–80% of MAP in European families with identified MUTYH germline mutations. The aim of this study was to assess the frequency of the germline MUTYH mutations p.Y179C and p.G396D in Brazilian patients with MAP and other hereditary colorectal cancer (CRC) phenotypes, as well as in sporadic CRC cases.     

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.     

Familiäre adenomatöse Polyposis und andere Polyposissyndrome

The number of adenomas allows the clinical differentiation of familial adenomatous polyposis into the classical (FAP), attenuated (AFAP), and atypical (ATFAP) forms. Mutations in the APC gene are found in 80% of FAP patients, with inheritance being autosomal dominant. Mutations in MUTYH (MUTYH-associated polyposis, or MAP) follow a recessive inheritance and clinically dominate AFAP. MAP is associated with adenomas, but hyperplastic polyps and serrated adenomas can also be prevalent. Extraintestinal manifestations are associated with FAP. The recurrence risk for FAP is 50% and is below 1% for MAP. Hyperplastic polyposis syndromes (HPS) can show a familial occurrence; mutation analysis of the polyp tissue allows preliminary subdivision into cases with mutations of either BRAF or KRAS and cases with no mutation in either of these genes. The genetic predisposition of HPS in the germline is thus far unknown. The genetics of juvenile polyposis has been established; hamartomatous polyposis syndromes (Peutz–Jeghers and Cowden syndromes) show a 50% mutation detection rate. Especially in hamartomatous polyposis syndromes, the risk for extraintestinal cancers needs to be considered.     

APC gene mutations in a jejunal adenoma causing intussusception in a patient with familial adenomatous polyposis

Adenomatous polyps of the jejunum/ileum in patients with familial adenomatous polyposis (FAP) are usually small (<5 mm) and are considered to be of little clinical importance. Genetic alterations in these polyps have not previously been analyzed. We herein report an extremely rare case of FAP presenting with intussusception caused by jejunal adenomas. Both somatic and germline mutations of the APC gene were detected in one of the polyps. A 40-year-old man with FAP was admitted for closure of an ileostomy that had been created because of an anastomotic leak after subtotal proctocolectomy with ileo-anal-canal anastomosis. During the follow-up after that surgery, he had occasionally complained of colicky abdominal pain, but it had quickly subsided. At the second laparotomy, for closure of the ileostomy, jejuno-jejunal intussusception was incidentally found, and segmental resection of the jejunum, including the leading point of the intussusception, was performed. There were five polyps clustered in the resected jejunum. Histologically, the polyps, ranging from 5 to 26 mm in diameter, were adenomas with moderate to severe atypia. Genetic examinations of one of the largest polyps, using polymerase chain reaction single-strand conformation polymorphism (PCR-SSCP) and direct sequencing methods, revealed somatic (T insertion at codon 1557) and germline mutations (4 base-pair deletion at codons 181–182) of the APC gene. This is the first evidence that the coexistence of somatic and germline alterations in the APC gene is involved in the development of a jejunal adenoma causing small-bowel intussusception. Received: April 3, 2001 / Accepted: July 20, 2001     

Hepatocellular adenoma associated with familial adenomatous polyposis coli

Hepatocellular adenoma (HCA) is a benign liver tumor that most frequently occurs in young women using oral contraceptives. We report a rare case of HCA in a 29 years old female with familial adenomatous polyposis (FAP). The first proband was her sister, who under-went a total colectomy and was genetically diagnosed as FAP. A tumor, 3.0 cm in diameter, was detected in the right lobe of the liver during a screening study for FAP. A colonoscopy and gastroendoscopy revealed numerous adenomatous polyps without carcinoma. The patient underwent a total colectomy and ileoanal anastomosis and hepatic posterior sectoriectomy. The pathological findings of the liver tumor were compatible with HCA. The resected specimen of the colon revealed multiple colonic adenomatous polyps. Examination of genetic alteration revealed a germ-line mutation of the adenomatous polyposis coli (APC) gene. Inactivation of the second APC allele was not found. Other genetic alterations in the hepatocyte nuclear factor 1 alpha and β-catenin gene, which are reported to be associated with HCA, were not detected. Although FAP is reported to be complicated with various neoplasias in extracolic organs, only six cases of HCA associated with FAP, including the present case, have been reported. Additional reports will establish the precise mechanisms of HCA development in FAP patients.     

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.     

Investigation of APCMutations in a Turkish Familial Adenomatous Polyposis Family by Heterodublex Analysis

PURPOSE Familial adenomatous polyposis is an autosomal dominant disease characterized by the presence of 100 or more colorectal adenomatous polyps. Mutations in the adenomatous polyposis coli gene are primarily responsible for the development of this disease. This study was designed to investigation of adenomatous polyposis coli (APC) gene mutations in members of familial adenomatous polyposis family to identify individuals at risk of the disease.METHODS We examined one patient with familial adenomatous polyposis and 21 family members including one affected person from familial adenomatous polyposis and 20 nonsymptomatic persons. We studied E, D, F, and G segments of exon 15 of the adenomatous polyposis coli gene by heteroduplex analysis.RESULTS We used silver staining method for staining. We found a mutation for five persons at segment F of exon 15 of the adenomatous polyposis coli gene. Two of them were affected by colorectal cancer, one of whom was the proband, and the other three were nonsymptomatic family members. The pathogenetic mutation was a T deletion at codon 1172, causing a frameshift in the adenomatous polyposis coli gene, as a result of the sequencing analysis of these cases.CONCLUSIONS Investigation of adenomatous polyposis coli gene mutations is very important for the identification of genetic susceptibility to colorectal cancer and for the definition of tumor developing at an early stage. Furthermore, the identification of this mutation for the first time in a Turkish family will be useful to foster further studies on familial adenomatous polyposis in Turkey.     

<Emphasis Type="Italic">APC</Emphasis> Genotype Is Not a Prognostic Factor in Familial Adenomatous Polyposis Patients With Colorectal Cancer

PURPOSE Several studies have shown that the clinical phenotype of patients with familial adenomatous polyposis is influenced by the position of the associated germline mutation in the APC gene. The aim of this work was to assess whether the site of the APC mutation may also predict the survival of familial adenomatous polyposis patients with a confirmed diagnosis of colorectal cancer.METHODS A total of 387 familial adenomatous polyposis patients with colorectal cancer were examined. Of these, 287 (74 percent) belonged to families with an identified mutation, whereas 100 (26 percent) were from families in which no detectable APC mutation had been found by standard screening methods. The subjects were subdivided into four groups, according to the presence and localization of the identified mutation: with mutation before (a), at (b), or beyond codon 1309 (c), and without identified mutation (d).RESULTS The cumulative five-year survival estimate of all cases included in the study was 0.56 (95 percent confidence interval, 0.51–0.61). No difference was observed in survival probability among patients from families with mutations before (0.56; 95 percent confidence interval, 0.49–0.63), at (0.58; 95 percent confidence interval, 0.43–0.72), or beyond (0.52; 95 percent confidence interval, 0.31–0.73) codon 1309 or those from families that were mutation negative (0.58; 95 percent confidence interval, 0.48–0.68) (log-rank test, P = 0.9). Survival analysis did not reveal any significant advantage for patients carrying a mutation in a specific region of the APC gene, after adjustment for age, gender, site, and stage.CONCLUSION These data do not support the hypothesis that APC mutation may influence the outcome of familial adenomatous polyposis cases affected by colorectal cancer.Reprints are not available.Supported in part by grants from the Italian Association and Foundation for Cancer Research (AIRC/FIRC) and the Italian Ministry of Health (grant PF1999).Presented at the Third Joint Meeting of the Leeds Castle Polyposis Group and the International Collaborative Group for Hereditary Non-Polyposis Colorectal Cancer, April 26 to 28, 2001, Venice, Italy.     

The molecular genetics of colorectal cancer

Colorectal cancer is a major cause of morbidity and mortality among types of cancer in the United States. Significant progress has been made in understanding the molecular mechanisms that lead to it. Much knowledge was obtained through study of genetic changes that occur in individuals with a familial predisposition to colorectal cancer, including familial adenomatous polyposis (FAP) and hereditary nonpolyposis colorectal cancer (HNPCC) syndromes. The gene with mutations that result in FAP has been identified as adenomatous polyposis coli (APC). Similarly, mutations in several genes that normally function in DNA mismatch repair result in HNPCC. Colorectal cancer is the result of accumulated mutations in several additional oncogenes or tumor suppressor genes, and this information leads to the formulation of a genetic model for the disease. Recent studies have also identified a relatively prevalent polymorphism in the APC gene in Ashkenazi Jews that is associated with an increased risk for colorectal cancer. These studies present a paradigm based on the APC mutation (APC I1307K) for the screening of cancer susceptibility genes in the population at large. Currently available techniques for genetic testing of colorectal cancer are also discussed in this review, along with their ethical implications.     

A Novel Germline Mutation in Exon 15 of the APC Gene in Attenuated Familial Adenomatous Polyposis: A Report of Two Cases

Attenuated familial adenomatous polyposis (AFAP) is a variant of familial adenomatous polyposis with fewer than one hundred colorectal polyps and a later age of onset of the cancer. Here, we report two cases of AFAP within family members. Each patient demonstrated the same novel germ line mutation in exon 15 of the adenomatous polyposis coli (APC) gene and was successfully managed with sulindac after refusal to perform colectomy: a 23-year-old man with incidentally diagnosed gastric adenoma and fundic gland polyps underwent colonoscopy, and fewer than 100 colorectal polyps were found; a 48-year-old woman who happened to be the mother of the 23-year-old man also showed fewer than 100 colorectal polyps on colonoscopy. Genetic analysis revealed a novel frameshift mutation in exon 15 of the APC gene. The deletion of adenine-guanine with the insertion of thymine in c.3833-3834 resulted in the formation of stop codon 1,287 in both patients. The patients were treated with sulindac due to their refusal to undergo colectomy. The annual follow-up upper endoscopy and colonoscopy in the following 2 years revealed significant regression of the colorectal polyps in both patients.     

Immunohistochemical expression of MYH protein can be used to identify patients with MYH-associated polyposis

BACKGROUND & AIMS: MYH-associated polyposis is a recently described, autosomal-recessive disease characterized by multiple colorectal adenomas and cancer. There are only few immunohistochemical studies of the MYH protein. We investigated the expression pattern of the MYH protein to evaluate whether a immunohistochemical approach could be used in clinical practice to screen patients for germline mutations in the MYH gene. METHODS: The expression of MYH, MSH2, MLH1, and MSH6 proteins was studied by immunohistochemistry in 20 samples (colorectal adenomas or cancer) from 18 patients with biallelic MYH mutation, in 11 samples from patients with germline adenomatous polyposis coli (APC) mutations, in 20 samples from patients with sporadic colorectal cancers, and in 10 samples from patients with normal colonic mucosa without malignancies. RESULTS: In all cases the mismatch repair proteins were expressed normally. Nuclear and cytoplasmic immunoreactivity for the MYH protein were observed in normal colorectal mucosa, in sporadic colorectal carcinomas, and in adenomas and carcinomas from patients carrying APC germline mutations. Adenomas and carcinomas from patients with MYH biallelic mutation showed a different pattern of expression: a strong granular cytoplasmic staining was observed without any nuclear expression. The same immunophenotype was observed in the surrounding normal mucosa. CONCLUSIONS: Patients with biallelic MYH mutations showed disappearance of staining from the nucleus, and segregation of immunoreactivity in the cytoplasm, both in neoplastic and surrounding healthy mucosa. Because this pattern of expression seems to be specific for biallelic mutations, it follows that immunohistochemistry might be used in clinical practice to screen patients at risk for MYH-associated polyposis.