Gastric adenocarcinoma and proximal polyposis of the stomach (GAPPS): a new autosomal dominant syndrome

Genetics and Molecular Pathogenesis of Gastric Adenocarcinoma

Gastric cancer (GC) is globally the fifth most common cancer and third leading cause of cancer death. A complex disease arising from the interaction of environmental and host-associated factors, key contributors to GC's high mortality include its silent nature, late clinical presentation, and underlying biological and genetic heterogeneity. Achieving a detailed molecular understanding of the various genomic aberrations associated with GC will be critical to improving patient outcomes. The recent years has seen considerable progress in deciphering the genomic landscape of GC, identifying new molecular components such as ARID1A and RHOA, cellular pathways, and tissue populations associated with gastric malignancy and progression. The Cancer Genome Atlas (TCGA) project is a landmark in the molecular characterization of GC. Key challenges for the future will involve the translation of these molecular findings to clinical utility, by enabling novel strategies for early GC detection, and precision therapies for individual GC patients.

Recognition of and recent issues in hereditary diffuse gastric cancer

In East Asian countries, gastric cancer incidence is high, but detection rates for germline CDH1 mutations that cause hereditary diffuse gastric cancers (HDGCs) are low. Consequently, screens and genetic testing for HDGC are often considered unimportant. Since the first germline truncating CDH1 mutations in Japanese patients were reported, some HDGC cases have been reported, and some of these involve large germline rearrangements and de novo mutation of CDH1. New methods for mutation detection--such as multiplex ligation-dependent probe amplification, array comparative genomic hybridization, and exome sequencing--have become available, as have new experimental models, including novel gene-knockout mice and gastric organoids. Because of these advances, searches for candidate genes (e.g., CTNNA1, MAP3K6) and our understanding of HDGC pathogenesis have improved in recent years; moreover, there have been substantial changes in the field since the current HDGC consensus guidelines were released. This review focuses on recent issues and advances in the study of HDGC. For example, lobular breast cancer cases and de novo occurrences of DGC are unlikely to meet the existing criteria for genetic testing, but current evidence indicates that some such cases may be good candidates for genetic testing. It is important to recognize that HDGC is a syndrome and that lobular breast cancer can be the first manifestation of this syndrome. CDH1 testing, including analyses of large genomic rearrangements, should be recommended even in countries where few HDGC cases have been reported.

Hereditary Gastric Cancer Syndromes

Hereditary gastric cancer syndromes are a rare but distinct cause of gastric cancers. The genetic mutations underlying most affected families are unknown. Mutations of CDH1 occur in some patients affected by hereditary diffuse gastric cancer, and is the only practical marker for guiding management. Carriers of CDH1 mutations are at risk for a highly penetrant, aggressive and early-onset diffuse-type gastric cancer, and these individuals are usually offered prophylactic total gastrectomy. Further research is required to identify other genetic mutations responsible for these syndromes to improve our understanding of the underlying disease mechanisms and optimize the clinical management of affected individuals.

Current status of management of malignant disease: current management of gastric cancer

Despite a continually decreasing incidence trend, gastric cancer remains a high-risk malignancy. Symptoms are often unspecific, and upper gastrointestinal endoscopy is the key modality for diagnosing early and intermediate-stage disease. Surgeons play a critical role in guiding and managing multiple aspects of gastric cancer diagnosis and care. Potentially curable gastric adenocarcinoma has to be free of distant metastasis and should be staged through endoscopic ultrasound and computed tomography. Early (T1N0) gastric cancer can be considered for endosopic mucosal resection or submucosal dissection. All other M0 stage groups should be evaluated for preoperative chemotherapy or chemoradiation followed by resection through a multidisciplinary approach. Laparoscopic staging, complete (R0) resection, and extended lymphadenectomy (D2 dissection) are critical operative components that optimize curability during gastrectomy. The morbidity potential after gastrectomy remains high; splenectomy and distal pancreatectomy should be avoided if possible to minimize postoperative complications. Laparoscopic gastric cancer resections are increasingly pursued and have not shown disadvantages to open gastrectomy as long as oncologic principles are followed. For the palliation of specific symptoms in patients with incurable gastric cancer, operative interventions should be applied selectively if less invasive modalities are insufficient and only if a meaningful benefit can be expected from a resection or bypass procedure. Prophylactic total gastrectomy should be considered for individuals at risk for hereditary diffuse-type gastric cancer through germline E-cadherin gene mutations. Surgeons engaging in gastric cancer care are expected to provide specialty expertise in order to plan and deliver appropriate care, minimize postoperative morbidity, and optimize resulting survival.

Familial gastric cancer: genetic susceptibility, pathology, and implications for management

Familial gastric cancer comprises at least three major syndromes: hereditary diffuse gastric cancer, gastric adenocarcinoma and proximal polyposis of the stomach, and familial intestinal gastric cancer. The risk of development of gastric cancer is high in families affected b-y these syndromes, but only hereditary diffuse gastric cancer is genetically explained (caused by germline alterations of CDH1, which encodes E-cadherin). Gastric cancer is also associated with a range of several cancer-associated syndromes with known genetic causes, such as Lynch, Li-Fraumeni, Peutz-Jeghers, hereditary breast-ovarian cancer syndromes, familial adenomatous polyposis, and juvenile polyposis. We present contemporary knowledge on the genetics, pathogenesis, and clinical features of familial gastric cancer, and discuss research and technological developments, which together are expected to open avenues for new genetic testing approaches and novel therapeutic strategies.

Prophylactic total gastrectomy in hereditary diffuse gastric cancer: identification of two novel CDH1 gene mutations-a clinical observational study

Inactivating mutations in the CDH1 (E-cadherin) gene are the predisposing cause of gastric cancer in most families with hereditary diffuse gastric cancer (HDGC). The lifetime risk of cancer in mutation positive members is more than 80 % and prophylactic total gastrectomy is recommended. Not all mutations in the CDH1 gene are however pathogenic and it is important to classify mutations before this major operation is performed. Probands from two Danish families with gastric cancer and a history suggesting HDGC were screened for CDH1 gene mutations. Two novel CDH1 gene mutations were identified and found pathogenic. In silico and mini-gene assay were used to predict the functional consequence in one of them. Mutation carriers were offered endoscopy and total gastrectomy. The gastric specimens were completely sectioned and examined histologically. Seven asymptomatic mutation carriers were operated. Hospital stay was 6-8 days and there were no complications. Small foci of diffuse gastric cancer were found in all patients-intramucosal in six and advanced in one. Preoperative endoscopic biopsies had revealed a microscopic cancer focus in two of the patients. Our data confirmed the pathogenic nature of both mutations and strongly support the recommendation of total gastrectomy in asymptomatic CDH1 gene mutation carriers. The functional consequences of novel CDH1 gene mutations with uncertain effects should be tested before correct advice and treatment can be given.

The morphological and immunohistochemical spectrum of gastric biopsies of patients with absorptive hypercalciuria

OBJECTIVE

Idiopathic hypercalciuria is characterised by renal stone formation and vertebral osteoporosis. The syndrome displays high clinical variability with patients almost equally distributed between fasting or renal type (prevalent calcium loss) and absorptive type (prevalent increase of intestinal absorption). Absorptive hypercalciuria (AH) is characterised by hypersensitivity of calcium-sensing receptors of antral G cells with normal fasting gastrinaemia and meal hypergastrinaemia. To the best of our knowledge, no study has been published about the morphological aspects of gastric biopsies of patients with AH and the immunohistochemical findings of gastrin-producing G cells. So we studied morphologically and immunohistochemically a group of 38 patients with AH, describing their gastric findings and associated lesion.

DESIGN

All 38 patients had a clinical-laboratory diagnosis of AH with normal fasting hypergastrinaemia and an abnormal rise of gastrinaemia after a standardised meal test. Their 38 antral and 27 body-fundus biopsies, and 5 normal antral and body controls, were stained with H&E, Giemsa stain, polyclonal antiserum anti-Gastrin and a monoclonal antibody anti-Chromogranin A.

RESULTS

Antral biopsies of all 38 patients showed a simple (15) or linear (23) hyperplasia of G cells, whereas only 2 of 27 body biopsies showed a nodular hyperplasia of endocrine cells. In five patients with AH, we found an association with fundic gland polyps (FGPs).

CONCLUSIONS

We found in all of the patients with AH a correlation between meal hypergastrinaemia and morphological antral G-cell hyperplasia. Moreover, in five patients, AH was associated with FGPs. We know from literature data that FGPs' development in Zollinger-Ellison syndrome is statistically associated with hypergastrinaemia. From our present data, we suggest that even in AH the stimulated hypergastrinaemia may have a role in polyp development.

Hereditary diffuse gastric cancer - pathophysiology and clinical management

Hereditary Diffuse Gastric Cancer is an autosomal dominant inherited gastric cancer syndrome caused by germline alterations in CDH1 (E-cadherin) and CTNNA1 (alpha-E-catenin) genes. Germline CDH1 alterations encompass small frameshifts, splice-site, nonsense, and missense mutations, as well as large rearrangements. Most CDH1 truncating mutations are pathogenic, and several missense CDH1 mutations have a deleterious effect on E-cadherin function. CDH1 testing should be performed in probands. Screening of at-risk individuals is indicated from the age of consent following counselling with a multidisciplinary team. In mutation-positive individuals prophylactic gastrectomy is recommended. Endoscopic surveillance is an option for those refusing/postponing gastrectomy, those with mutations of undetermined significance, and in CDH1-negative families. Ongoing research focus on the search of genetic causes other than CDH1 or CTNNA1 germline defects; assessment of the pathogenicity and penetrance of CDH1 missense mutations and identification of somatic mechanisms behind the progression from early (indolent) lesions to invasive (lethal) carcinomas.

HDAC6 sustains growth stimulation by prolonging the activation of EGF receptor through the inhibition of rabaptin-5-mediated early endosome fusion in gastric cancer

The aberrant regulation of histone deacetylase 6 (HDAC6) contributes to malignant progression in various types of cancer, but the mechanism underlying gastric carcinogenesis remains unknown. Aberrant HDAC6 overexpression was observed in a subset of human gastric cancer cells. HDAC6 knockdown caused the significant inhibition of gastric cancer cell growth without affecting the transition of cell cycles or the processing of cell death. We demonstrate that an increase in epidermal growth factor receptor (EGFR) signaling through decreased EGFR degradation was mediated by HDAC6 in gastric carcinogenesis. These results establish a molecular mechanism responsible for oncogenic HDAC6, explaining how EGFR signaling induced by the growth factor is sustained during the malignant progression of gastric cancer.

Genetics of gastric cancer

Gastric cancer remains highly prevalent and accounts for a notable proportion of global cancer mortality. This cancer is also associated with poor survival rates. Understanding the genetic basis of gastric cancer will offer insights into its pathogenesis, help identify new biomarkers and novel treatment targets, aid prognostication and could be central to developing individualized treatment strategies in the future. An inherited component contributes to <3% of gastric cancers; the majority of genetic changes associated with gastric cancer are acquired. Over the past few decades, advances in technology and high-throughput analysis have improved understanding of the molecular aspects of the pathogenesis of gastric cancer. These aspects are multifaceted and heterogeneous and represent a wide spectrum of several key genetic influences, such as chromosomal instability, microsatellite instability, changes in microRNA profile, somatic gene mutations or functional single nucleotide polymorphisms. These genetic aspects of the pathogenesis of gastric cancer will be addressed in this Review.

Unmet needs and challenges in gastric cancer: the way forward

Although the incidence of gastric cancer has fallen steadily in developed countries over the past 50 years, outcomes in Western countries remain poor, primarily due to the advanced stage of the disease at presentation. While earlier diagnosis would help to improve outcomes for patients with gastric cancer, better understanding of the biology of the disease is also needed, along with advances in therapy. Indeed, progress in the treatment of gastric cancer has been limited, mainly because of its genetic complexity and heterogeneity. As a result, there is an urgent need to apply precision medicine to the management of the disease in order to ensure that individuals receive the most appropriate treatment. This article suggests a number of strategies that may help to accelerate progress in treating patients with gastric cancer. Incorporation of some of these approaches could help to improve the quality of life and survival for patients diagnosed with the disease. Standardisation of care across Europe through expansion of the European Registration of Cancer Care (EURECCA) registry - a European cancer audit that aims to improve quality and decrease variation in care across the region - may also be expected to lead to improved outcomes for those suffering from this common malignancy.

Hereditary gastric cancer

In 1998, Guilford et al. identified the hereditary diffuse gastric cancer (HDGC) syndrome, caused by germline alterations at the CDH1 (E-cadherin) gene. To date, 141 probands harboring more than 100 different germline CDH1 alterations, mainly point mutations and large deletions, have been described. In mutation-positive individuals prophylactic total gastrectomy is recommended. The systematic histological study of prophylactic gastrectomies shows intramucosal signet-ring cell carcinoma and pre-invasive lesions including in situ signet ring carcinoma with pagetoid spread of signet ring cells. In 2011, a new hereditary gastric cancer syndrome was identified: gastric adenocarcinoma and proximal polyposis of the stomach (GAPPS). GAPPS is a unique gastric polyposis syndrome with a significant risk of gastric adenocarcinoma, characterized by the autosomal dominant transmission of fundic gland polyposis, with areas of dysplasia or intestinal-type GC, restricted to the proximal stomach, with no evidence of colorectal or duodenal polyposis or other heritable gastrointestinal cancer syndromes.

[Molecular pathology of gastric cancer]

Gastric cancer is one of the most common cancers worldwide. In recent decades, major advancements in the understanding of the epidemiology, pathology and pathogenesis of gastric cancer have been witnessed. Infections with Helicobacter pylori or Epstein-Barr virus, dietary and lifestyle factors contribute to the risk of developing gastric cancer. With respect to pathogenesis at least three distinct types of gastric cancer exist, (1) proximal, (2) distal diffuse and (3) distal non-diffuse types. Genetic and epigenetic alterations are related to oncogene mutations and tumor suppressor gene inactivation. Canonical oncogenic pathways such as the WNT/β-catenin signaling pathway are de-regulated in gastric cancer. Hereditary and familial type gastric cancers are currently linked to CDH1 gene mutations and various genetic polymorphisms determining disease susceptibility. Molecular subtypes of gastric cancer have been identified which separate diffuse from intestinal type gastric cancer and are not entirely congruent with the histopathological phenotype according to Laurén but may influence chemosensitivity. Putative cancer stem cell markers of gastric cancer have been found (e.g. ADAM17, CD133, FZD7, LGR5) and correlate with patient prognosis. Thus, molecular phenotyping of gastric cancer is still in its infancy and the search for novel diagnostic, prognostic and predictive biomarkers continues.

Pathology of gastric cancer and its precursor lesions

Gastric cancers are a histologically heterogenous group of neoplasms arising from unique epidemiologic and molecular backgrounds. There is accumulating evidence that the intestinal type of gastric adenocarcinoma develops through a multistep process beginning with chronic gastritis triggered primarily by Helicobacter pylori and progressing through atrophy, intestinal metaplasia, and dysplasia (intraepithelial neoplasia) to carcinoma. Loss of E-cadherin expression resulting from CDH1 gene alterations is the primary carcinogenetic event in hereditary diffuse gastric cancer. Proximal gastric adenocarcinomas likely result from either gastroesophageal reflux or H pylori gastritis. This article provides an update of the histologic, immunohistochemical, and molecular pathways of gastric cancer and its precursors.