Jeremy R. Jass

Mutations of a mutS homolog in hereditary nonpolyposis colorectal cancer

Recent studies have shown that a locus responsible for hereditary nonpolyposis colorectal cancer (HNPCC) is on chromosome 2p and that tumors developing in these patients contain alterations in microsatellite sequences (RER+ phenotype). We have used chromosome microdissection to obtain highly polymorphic markers from chromosome 2p16. These and other markers were ordered in a panel of somatic cell hybrids and used to define a 0.8 Mb interval containing the HNPCC locus. Candidate genes were then mapped, and one was found to lie within the 0.8 Mb interval. We identified this candidate by virtue of its homology to mutS mismatch repair genes. cDNA clones were obtained and the sequence used to detect germline mutations, including those producing termination codons, in HNPCC kindreds. Somatic as well as germline mutations of the gene were identified in RER+ tumor cells. This mutS homolog is therefore likely to be responsible for HNPCC.

Clinicopathological staging for colorectal cancer: An International Documentation System (IDS) and an International Comprehensive Anatomical Terminology (ICAT)

The purpose of tumour staging for colorectal cancer (CRC) is to help define clinical management, facilitate communication between physicians, provide a basis for stratification and analysis of treatment results in prospective studies, and provide some prognostic information for patients and their families. The World Congresses of Gastroenterology, Digestive Endoscopy, and Coloproctology, Working Party on staging for CRC studied six commonly used systems to review their strengths and weaknesses. Although it was concluded that defining a new staging system was unnecessary, it was recognized that there is a need to define a terminology to describe the full anatomic extent of spread of CRC. Furthermore, we note that there are several additional features, derived from both clinical and pathology information, which have had prognostic significance shown by appropriately constructed multivariate analyses and which can be used to formulate a more accurate prognostic index than that provided by a description of anatomical tumour spread.

Accumulated clonal genetic alterations in familial and sporadic colorectal carcinomas with widespread instability in microsatellite sequences.

A subset of hereditary and sporadic colorectal carcinomas is defined by microsatellite instability (MSI), but the spectra of gene mutations have not been characterized extensively. Thirty-nine hereditary nonpolyposis colorectal cancer syndrome carcinomas (HNPCCa) and 57 sporadic right-sided colonic carcinomas (SRSCCa) were evaluated. Of HNPCCa, 95% (37/39) were MSI-positive as contrasted with 31% (18/57) of SRSCCa (P < 0.000001), but instability tended to be more widespread in SRSCCa (P = 0.08). Absence of nuclear hMSH2 mismatch repair gene product by immunohistochemistry was associated with germline hMSH2 mutation (P = 0.0007). The prevalence of K-ras proto-oncogene mutations was similar in HNPCCa and SRSCCa (30% (11/37) and 30% (16/54)), but no HNPCCa from patients with germline hMSH2 mutation had codon 13 mutation (P = 0.02), and two other HNPCCa had multiple K-ras mutations attributable to subclones. 18q allelic deletion and p53 gene product overexpression were inversely related to MSI (P = 0.0004 and P = 0.0001, respectively). Frameshift mutation of the transforming growth factor beta type II receptor gene was frequent in all MSI-positive cancers (85%, 46/54), but mutation of the E2F-4 transcription factor gene was more common in HNPCCa of patients with germline hMSH2 mutation than in those with germline bMLH1 mutation (100% (8/8) versus 40% (2/5), P = 0.04), and mutation of the Bax proapoptotic gene was more frequent in HNPCCa than in MSI-positive SRSCCa (55% (17/31) versus 13% (2/15), P = 0.01). The most common combination of mutations occurred in only 23% (8/35) of evaluable MSI-positive cancers. Our findings suggest that the accumulation of specific genetic alterations in MSI-positive colorectal cancers is markedly heterogeneous, because the occurrence of some mutations (eg, ras, E2F-4, and Bax genes), but not others (eg, transforming growth factor beta type II receptor gene), depends on the underlying basis of the mismatch repair deficiency. This genetic heterogeneity may contribute to the heterogeneous clinical and pathological features of MSI-positive cancers.

Rectal cancer risk in hereditary nonpolyposis colorectal cancer after abdominal colectomy

OBJECTIVE The authors analyzed the incidence of rectal cancer in patients with hereditary nonpolyposis colorectal cancer (HNPCC) after an abdominal colectomy. SUMMARY BACKGROUND DATA The treatment of choice for a newly diagnosed patient with HNPCC with colon cancer is an abdominal colectomy. The incidence of rectal cancer after abdominal colectomy in HNPCC is not known. MATERIALS AND METHODS A questionnaire was mailed to all International Collaborative Group on HNPCC members to identify patients in whom rectal cancer developed after total, subtotal or completion colectomy. Statistics were performed using the log-rank test, Kaplan-Meier method, and Coxs proportional hazards model. RESULTS Rectal cancer developed in 8 (11%) of 71 patients a median of 158 months (range, 38-282 months) from their primary procedure. Of these eight patients, adenomas in the rectal mucosa developed in five at risk either before (4) or synchronous (1) with the diagnosis of rectal cancer. At the time of diagnosis of rectal cancer, six of eight patients were being observed. Age at first procedure and whether the patient was under surveillance were the only significant variables (p < 0.05) in the multivariate analysis in terms of rectal cancer risk. The risk of developing rectal cancer was estimated to be 3% every 3 years after abdominal colectomy for the first 12 years. CONCLUSIONS The risk of rectal cancer in patients with HNPCC after an abdominal colectomy is approximately 12% at 12 years. Age at first surgical procedure and surveillance correlated with rectal cancer risk. Aggressive endoscopic surveillance of the rectum should be performed after abdominal colectomy.

Hereditary non-polyposis colorectal cancer - morphologies, genes and mutations

Mutations in a human homologue of the yeast DNA mismatch repair gene MSH2 (equivalent to bacterial MutS) cause the condition hereditary non-polyposis colorectal cancer (HNPCC). Cancers in HNPCC originate within benign neoplastic polyps termed adenomas. Adenomas are clonal and each may serve as a marker of a single initiating mutation. The progression of adenomas is marked by increasing size, dysplasia and villosity. These characteristics can be taken as the morphological counterparts of the stepwise accumulation of mutations implicating oncogenes and tumour suppressor genes. The aim of this study was to link the morphogenesis of hereditary colorectal cancer with recent insights into the role of DNA mismatch repair genes. The frequency and anatomical distribution of adenomas in at-risk members of HNPCC families was the same as in an autopsy population. This suggests that the HNPCC gene does not initiate the process of neoplastic transformation. On the other hand, adenomas in at-risk members of HNPCC families were more likely to show villosity (p < 0.001), high grade dysplasia (p = 0.002) and probably increased size (p = 0.15). These findings are consistent with the observation that the HNPCC gene causes DNA replication errors to develop and accumulate within neoplastic but not normal tissues. The effect of the HNPCC gene is to accelerate the progression of adenoma to carcinoma, but not to initiate adenoma development.

Occult lymph node metastases detected by cytokeratin immunohistochemistry predict recurrence in “node-negative” colorectal cancer

There is controversy about the prognostic significance of occult lymph node metastases detected by immunohistochemistry with the anti-cytokeratin antibody CAM 5.2. The aim of this study was to characterize occult lymph node metastases in colorectal carcinomas that might be associated with a higher risk of recurrence. Three hundred fifty-eight lymph nodes from 10 recurrent and 9 nonrecurrent cases of colorectal carcinoma were examined. All these patients had been reported originally as having no lympho node metastases by routine hematoxylin and eosin staining. Three 10-μm sections or ten 3-μm sections (30-μm total thickness) from each lymph node were stained with CAM 5.2 and examined for the presence of occult lymph node metastases. Occult metastases were detected in 67 of 175 lymph nodes from the recurrent cases, and in 23 of 183 lymph nodes from the nonrecurrent cases. The frequency of positive nodes was significantly higher in the recurrent cases. The recurrent cases had metastases in nodes more distant from the main tumor than did the nonrecurrent cases. Detection of occult lymph node metastases with cytokeratin immunohistochemistry may make it possible to identify patients with a higher risk of recurrence after the removal of a primary colorectal tumor.

Sialic acid and epithelial differentiation in colorectal polyps and cancer — A morphological, mucin and lectin histochemical study

Summary Loss of O‐acetyl substituents from sialic acid expressed in mucin secreted by hyperplastic polyps (21), adenomas (9), a mixed polyp (1) and adenocarcinomas (41) of the colorectum was investigated by mucin histochemistry (diastase PAS and mild PAS) and by lectin histochemistry (Arachis hypogaea or peanut agglutinin) with (nPNA) and without (PNA) prior neuraminidase digestion. Mild PAS and nPNA reactivity were closely correlated, indicating that loss of O‐acetyl substituents at C7, C8 and C9 (hence mild PAS positive) and at C4 (hence neuraminidase labile) occur pari passu. These sialic acid alterations were characteristic of mucin secreted by both adenocarcinoma and hyperplastic polyp. The same changes occurred patchily or focally in adenoma. Five “serrated” adenocarcinomas resembled the hyperplastic polyp both morphologically and histochemically. Luminal secretions within cancers were classified as mucin‐like (type I) and non‐mucin‐like (type II). Mild PAS was the most specific technique for mucin‐like intraluminal material. However, accumulated luminal secretions (type I or II) and intracytoplasmic lumina were quite specific features of colorectal cancer and could be effectively highlighted by means of dPAS. PNA reactivity without prior neuraminidase digestion showed a distribution unlike nPNA. Whilst PNA expression was more cancer specific than either mPAS or nPNA, it was observed mainly in cancers secreting little or no mucus, thus limiting its value as a tumor marker.

SUBSITE DISTRIBUTION AND INCIDENCE OF COLORECTAL CANCER IN NEW ZEALAND, 1974-1983

The purpose of this study was to examine changes in subsite distribution and incidence of colorectal cancer within different age groups. Registration of colorectal cancer by the National Cancer Registry of New Zealand approached 100 percent by 1974. The present study was based on 15,395 individuals aged 25 years and over and registered for colorectal cancer between 1974 and 1983. Subsite distribution (right colon, left colon, rectum) for different age groups (25–49, 50–69, 70+ years) was significantly skewed, with an excess of right colonic cancer in individuals aged 25–49 years and 70+ years. This right colonic excess was accompanied by a relative reduction in left colonic cancer. Age adjusted incidence rates for the periods 1974–78 and 1979–83 were compared and stratified by age group and subsite. Incidence rates increased in all subsites in individuals aged 50+ years. This was particularly evident for right sided cancer in the elderly of both sexes. There was a marked reduction in the incidence of left colonic cancer and rectal cancer in individuals under 50 years. In contrast, the incidence of right colonic cancer remained relatively stable in young individuals. Time trend studies indicate that the skewed subsite distribution of large bowel cancer in different age groups may increase with time and is probably due to varying etiological factors acting on different cohorts.

A morphologic and histochemical study of metaplastic polyps of the colorectum

A combined morphologic and histochemical study of metaplastic polyps of the colorectum was undertaken. With increasing size, these lesions showed alterations in architecture and differentiation, increased secretion of carcinoembryonic antigen and a reduced secretion of O‐acylated sialomucin. These functional changes are also observed in colorectal cancers, but not in tubular adenomas showing low‐grade dysplasia. Since there is little clinical evidence for a metaplastic polyp‐carcinoma sequence, it is suggested that the sets of factors which lead to adenoma and metaplastic polyp formation in the colorectum are both required to induce malignant transformation.

Colorectal Adenoma Progression and Genetic Change: Is There a Link?

Focal neoplastic change occurs frequently within the colorectum. Yet, of the several hundreds of microadenomas that are likely to be present within an individual colorectum, only one or two will develop into a clinically diagnosable adenoma. In turn, only a fraction of adenomas will progress to malignancy. The risk that a particular microadenoma will end its natural history as a carcinoma varies according to clinical context. The risk is very low in familial adenomatous polyposis (FAP), but relatively high in hereditary non-polyposis colorectal cancer (HNPCC). This variation is governed by the timing and ordering of the underlying mutational events. In FAP, inactivation of the wild-type APC gene occurs early, whereas K-ras mutations are late events. The converse appears to apply in the case of sporadic adenomas. In flat adenomas, which are known to be relatively aggressive, K-ras mutations may not occur at all. In HNPCC, mutational events are accelerated as a result of defective DNA mismatch repair. The evolution of colorectal adenoma occurs through a variety of quite distinct genetic pathways.