Gastrinomas demonstrate amplification of the HER-2/neu proto-oncogene

A review of functional pancreatic neuroendocrine tumors: Exploring the molecular pathogenesis, diagnosis and treatment

Pancreatic neuroendocrine tumors (PanNETs) are a rare subtype of pancreatic cancer and can be divided into functional (30-40%) and nonfunctional subtypes. The different subtypes of functional PanNETs (F-PanNETs) have a variety of classical presentations that raise suspicion for an underlying PanNET. It is estimated that 90% of PanNETs are sporadic, and the PI3K-Akt-mTOR and ATRX/DAXX signaling pathways have been recognized as key genetic pathways implicated in the pathogenesis. The other 10% of PanNETs may occur in the context of familial cancer syndromes such as MEN1. Chromogranin A is the most useful biomarker currently; however, several studies have shown limitations with its use, especially its prognostic value. Synaptophysin is a novel biomarker which has shown promising preliminary results however its use clinically has yet to be established. Blood tests assessing hormone levels, cross-sectional imaging, and endoscopic ultrasound remain at the core of establishing a diagnosis of F-PanNET. The treatment options for F-PanNETs include surgical methods such as enucleation, systemic therapies like chemotherapy and novel targeted therapies such as everolimus. The prognosis for F-PanNETs is more favorable than for nonfunctional PanNETs, however metastatic disease is associated with poor survival outcomes. Researchers should also focus their efforts on identifying novel pathways implicated in the pathogenesis of F-PanNETs in order to develop new targeted therapies that may reduce the need for surgical intervention and on the establishment of novel biomarkers that may reduce the need for invasive testing and allow for earlier detection of F-PanNETs.

Pathophysiology of Gastric NETs: Role of Gastrin and Menin

PURPOSE OF REVIEW

Neuroendocrine tumors (NETs) were initially identified as a separate entity in the early 1900s as a unique malignancy that secretes bioactive amines. GI-NETs are the most frequent type and represent a unique subset of NETs, because at least 75% of these tumors represent gastrin stimulation of the enterochromaffin-like cell located in the body of the stomach. The purpose of this review is to understand the specific role of gastrin in the generation of Gastric NETs (G-NETs).

RECENT FINDINGS

We review here the origin of enterochromaffin cells gut and the role of hypergastrinemia in gastric enteroendocrine tumorigenesis. We describe generation of the first genetically engineered mouse model of gastrin-driven G-NETs that mimics the human phenotype. The common mechanism observed in both the hypergastrinemic mouse model and human carcinoids is translocation of the cyclin-dependent inhibitor p27^kip to the cytoplasm and its subsequent degradation by the proteasome. Therapies that block degradation of p27^kip, the CCKBR2 gastrin receptor, or gastrin peptide are likely to facilitate treatment.

Deletions of RDINK4/ARF enhancer in gastrinomas and nonfunctioning pancreatic neuroendocrine tumors

OBJECTIVE

The presence of an enhancer element, RD (RD), in the prominent INK4-ARF locus provides a novel en bloc mechanism to simultaneously regulate the transcription of p15, p14ARF, and p16 genes. However, knowledge about RD alterations and its potential contributions to cancer progression remains limited. In this study, we aimed to evaluate the incidence of RD alterations in pancreatic tumors.

METHODS

DNAs from 14 gastrinomas and 6 nonfunctioning pancreatic neuroendocrine tumors were subjected to quantitative real-time polymerase chain reaction-based assays to determine deletions in p15, p14ARF, and p16 (both exons 1 and 2).

RESULTS

RD was frequently deleted in gastrinomas and nonfunctioning pancreatic neuroendocrine tumors with an incidence of 30% (6/20 samples). In comparison, the incidences of deletions of p15 (exon 1), p14ARF (exon 1β), and p16 (exon 1α) are 10% (2/20 samples), 10% (2/20 samples), and 45% (9/20 samples), respectively. Whereas some RD deletion events arose from deletions of the entire INK4-ARF locus, RD deletions in some specimens seemed to be independent of genetic alterations in any of the p15, p14ARF, and p16 genes.

CONCLUSIONS

Our results strongly support that the deletion of RD may represent a novel mechanism to simultaneously downregulate p15, p14ARF, and p16, thus contributing to the development of human pancreatic cancers.

Gastroenteropancreatic endocrine tumors

Gastroenteropancreatic endocrine tumors (GEP-NETs) are relatively uncommon; comprising approximately 0.5% of all human cancers. Although they often exhibit relatively indolent clinical courses, GEP-NETs have the potential for lethal progression. Due to their scarcity and various technical challenges, GEP-NETs have been understudied. As a consequence, we have few diagnostic, prognostic and predictive biomarkers for these tumors. Early detection and surgical removal is currently the only reliable curative treatment for GEP-NET patients; many of whom, unfortunately, present with advanced disease. Here, we review the genetics and epigenetics of GEP-NETs. The last few years have witnessed unprecedented technological advances in these fields, and their application to GEP-NETS has already led to important new information on the molecular abnormalities underlying them. As outlined here, we expect that "omics" studies will provide us with new diagnostic and prognostic biomarkers, inform the development of improved pre-clinical models, and identify novel therapeutic targets for GEP-NET patients.

Molecular pathology and genetics of pancreatic endocrine tumours

Pancreatic neuroendocrine tumours (PETs) are the second most frequent pancreatic neoplasms. Their poor chemosensitivity, high rate of metastatic disease and relatively long survival make PETs an ideal field to be explored for novel therapies based on specific molecular changes. PETs are generally sporadic but can also arise within hereditary syndromes, such as multiple endocrine neoplasia type 1, von Hippel-Lindau, neurofibromatosis type 1 and tuberous sclerosis complex, which represent a model for sporadic cases too. Among allelic imbalances, main genomic changes involve gain of 17q, 7q and 20q and loss of 11q, 6q and 11p, which identify regions of putative candidate oncogenes or tumour suppressor genes (TSGs), respectively, sometime with potential prognostic significance. Overexpression of Src-like kinases and cyclin D1 (CCND1) oncogene has been described. As for TSGs, P53 (TP53), DPC4/SMAD4 and RB (RB1) are not implicated in PET tumorigenesis, while for p16INK4a (CDKN2A), TIMP3, RASSF1A and hMLH1, more data are available, suggesting a role for methylation as a silencing mechanism. In the last decade, gene expression profile studies, analysis of microRNAs and, more recently, large-scale mutational analysis have highlighted commonly altered molecular pathways in the pathology of PETs. The roles of the mammalian target of rapamycin pathway, and its connection with Src kinases, and the activity of a number of tyrosine kinase receptors seem to be pivotal, as confirmed by the results of recent clinical trials with targeted agents. Mutations of DAXX and ATRX are common and related to altered telomeres but not to prognosis.

Pancreatic endocrine tumors

The endocrine cells of the pancreas and their related cells throughout the gastrointestinal tract give rise to a variety of tumors that pose a diagnostic challenge. There has been progress in understanding their histogenesis, morphology, immunohistochemistry, molecular biology and classifications. This review will focus on nomenclature/terminology, classification, the role of immunohistochemistry, molecular advances, including genetic predisposition, and potential therapeutic targets to define the role of pathology in the application of prognostic and predictive markers for this disease.

Allelic alterations in well-differentiated neuroendocrine tumors (carcinoid tumors) identified by genome-wide single nucleotide polymorphism analysis and comparison with pancreatic endocrine tumors

Well-differentiated neuroendocrine tumors (WDNT, carcinoid tumors) are uncommon indolent neoplasms. The genetic alterations of these tumors are not well characterized. We used genome-wide high-density single nucleotide polymorphism (SNP) array analysis to detect copy number alterations in 29 WDNTs, including seven lung, seven nonileal gastrointestinal, and 15 ileal tumors, and compared with allelic imbalances in 15 pancreatic endocrine tumors (PETs). Most frequent allelic imbalances in WDNTs were losses of chromosome 18 in 10 tumors (34%), chromosome 21 or 21q in six (21%), chromosome 13 or 13q in five (17%) and chromosome 16 or 16q in four (14%) tumors, and amplification of chromosome 20 or 20p in seven (24%) tumors. We also found one tumor with loss of heterozygosity of chromosomes 10 and 15 without copy number loss. These allelic imbalances were associated with primary site of tumor: loss of chromosome 18 was present exclusively in ileal WDNTs (P = 0.001), and loss of chromosome 21 or 21q was more frequent in nonileal gastrointestinal WDNTs (P = 0.02). The tumors with loss of chromosome 21 were larger compared to tumors without loss (P = 0.03). Chromosomal aberrations were less common in WDNTs from lung and gastrointestinal tract compared to PETs (P = 0.001). Our study shows that genome-wide allelotyping using SNP array is a powerful new tool for the analysis of allelic imbalances in WDNTs, and some of these alterations are tumor site-dependent and are different than in PETs.

[Endocrine tumors of the pancreas (EPTs) in multiple endocrine neoplasia (MEN1): up-date on prognostic factors, diagnostic procedures and treatment]

Endocrine pancreatic tumors (EPTs) are uncommon tumors, representing 1-2% of all pancreatic neoplasms. They are categorized on the basis of their clinical features into functioning and non-functioning tumors. EPTs may be part of the multiple endocrine neoplasia type 1 (MEN 1), an autosomal dominant syndrome due to inactivating germline mutation of the menin gene. Somatic mutations of menin are present in about 20% of sporadic neoplasms, particularly gastrinomas and insulinomas. 30-75% of patients with MEN1 have EPTs. The most prevalent are the gastrinomas (20-60%), then the insulinomas (5-10%), the glucagonamas and VIPomas (6-10%), whereas the nonfunctioning EPTs are present in 20-40% of patients. The most important biochemical screening marker for EPTs is chromogranin A, as it increases in 50-80% of patients. The most important negative prognostic factors are the presence of metastases, the gross invasion of adjacent organs, the angioinvasion, the perineural invasion and an immunopositivity for Ki-67 > 2%. Among the different imaging techniques, echoendoscopy, computed tomography (CT) and magnetic resonance imaging (MRI) are indicated for the detection of the primary tumor, but (III)In-octreotide scintigraphy has the highest sensitivity for detecting metastases. The choice of treatment is still debated and is different when the tumor occurs as a part of the MEN syndrome. The surgical treatment is the first choice for insulinomas and is more controversial for gastrinomas. The medical treatment includes somatostatin analogues (SA), chemotherapy and interferon-alpha (IFN-alpha). SA seem to improve the symptoms and have an antiproliferative effect, the most striking effect being seen in patients with VIPomas. Chemotherapy, which is generally proposed as a combination of streptozotocin (STZ) and 5-fluorouracil (5-FU) or doxorubicin, is indicated when the tumors tend to grow. Interferon-alpha (IFN-alpha) stimulates the immune system, blocks the tumor cells in the G1/S-phase of the cell cycle, inhibits protein and hormone synthesis and inhibits angionenesis. Treatment with IFN has been shown to produce symptomatic response in 40-60% of patients, a biochemical response in 30-60% and tumor shrinkage in 10-15%.

Molecular genetics of neuroendocrine tumors

Neuroendocrine tumors can develop either sporadically or in association with familial syndromes such as multiple endocrine neoplasia type 1 (MEN1), multiple endocrine neoplasia type 2 (MEN2) or von Hippel-Lindau (VHL). A variety of genetic approaches has been utilized to dissect the underlying molecular pathogenesis of these distinctive tumors, including genome-wide screens such as comparative genomic hybridization, loss of heterozygosity and DNA microarray analysis as well as targeted investigations into specific tumor suppressor gene and oncogene candidates. The identification of the MEN1 tumor suppressor gene that underlies the MEN1 syndrome has provided important new insights into tumor pathogenesis. In addition, a number of independent approaches has converged on a pivotal role for regulators of the cell cycle. However, our understanding of the molecular biology of these tumors remains far from complete. In this review we highlight some of the key approaches, findings and implications of these genetic studies.

Genes involved in neuroendocrine tumor biology

The fascinating, but often unpredictable, biology of neuroendocrine tumors (NETs) make the management of these malignancies a real challenge. The more recent development of high-throughput genomic and proteomic techniques, have opened a window to an increased knowledge of the biology of NETs. This review will discuss genes thought to play a role in the context of NE tumor biology, with particularly attention to those that may be potential new diagnostic and prognostic markers, as well as therapeutic targets. NETs constitute a heterogeneous group of neoplasm that may arise in virtually every topographic localization in the body, as a consequence of malignant transformation of various types of NE cells. Since NETs arising in the gastroenteropancreatic (GEP) or bronchopulmonary system are by far the most common, this review focuses on these entities, but lines are drawn to other NETs as well. Although large-scale gene expression analysis undoubtly have raised interesting new hypothesis concerning genes thought to play a role in tumor biology, discrepancies observed between studies and various platforms used, emphasizes the need to not only standardize the way microarray data are reported, but also to introduce standards in sample taking, processing and study design. In addition, the recognition of the complexity of the human proteome, with regard to generation of multiple isoforms from one gene, has created additional challenges. However,some goals have been reached already, as new knowledge has been translated into development of novel promising therapeutics.

Endocrine tumours of the pancreas

Endocrine pancreatic tumours (EPTs) are uncommon tumours occurring in approximately 1 in 100,000 of the population, representing 1-2% of all pancreatic neoplasms. Some of the tumours may be part of multiple endocrine neoplasia type one (MEN-1) syndrome or von Hippel-Lindau (vHL) disease. EPTs are classified as functioning or non-functioning tumours on the basis of their clinical manifestation. The biochemical diagnosis of EPT is based on hormones and amines released. Besides specific markers such as insulin, there are also general tumour markers such as chromogranin A, which is the most valuable marker and has been reported to be increased in plasma in 50-80% of patients with EPTs and correlates with tumour burden. The location of endocrine tumours of the pancreas includes different techniques, from endoscopic investigations to scintigraphy (e.g. somatostatin receptor scintigraphy) and positron emission tomography. The medical treatment of endocrine pancreatic tumours consists of chemotherapy, somatostatin analogues and alpha-interferon. None of these can cure a patient with malignant disease. In future, therapy will be custom-made and based on current knowledge of tumour biology and molecular genetics.

Mutational analysis of PPARG as a candidate tumour suppressor gene in enteropancreatic endocrine tumours

OBJECTIVES

Loss of heterozygosity (LOH) or deletion of chromosome 3p is a frequent finding in enteropancreatic endocrine tumours (EPETs), suggesting the pathogenetic involvement of one or more tumour suppressor genes on 3p. PPARG, the gene encoding the gamma isoform of the peroxisome proliferator-activated receptor (PPARgamma), is highly expressed in normal human pancreatic islet cells, is located at 3p25, and has been reported to sustain loss-of-function mutations in human colorectal carcinomas. Additionally, the development of islet cell hyperplasia in an islet cell-specific pparg knockout mouse has further emphasized the attractiveness of PPARG as a candidate gene important in the pathogenesis of EPETs. Therefore, we sought to examine PPARG for intragenic inactivating mutations, the evidence needed to rigorously establish it as a tumour suppressor in EPETs.

PATIENTS AND DESIGN

Twenty-three EPETs from 20 patients were examined for coding region mutations in PPARG and for LOH on 3p at microsatellite markers flanking PPARG.

RESULTS

LOH on 3p was detected in tumours from six patients (30%), but no intragenic mutations were detected in PPARG, whether or not LOH was present.

CONCLUSION

These findings strongly suggest that PPARG does not commonly function as a classical tumour suppressor gene in the pathogenesis of EPETs.

Aberrant hypermethylation of tumor suppressor genes in pancreatic endocrine neoplasms

OBJECTIVE

Because histologic features can be unreliable in determining the malignant potential of pancreatic endocrine neoplasms (PENs), we characterized the methylation patterns of PENs to develop a molecular marker system useful for clinical prognosis.

SUMMARY BACKGROUND DATA

Aberrant promoter methylation of tumor suppressor genes is associated with a loss of gene function that can afford selective growth advantages to neoplastic cells. Gene hypermethylation, coupled with sporadic genetic mutations, defines the heterogeneous biology of human neoplasms.

METHODS

Forty-eight well-differentiated PENs were subjected to methylation-specific polymerase chain reaction to detect aberrant methylation associated with 11 candidate tumor suppressor genes (INK4a/p16, APC, O6-MGMT, hMLH1, p73, E-cadherin, RAR-beta, p14ARF, GST-pi, TIMP3, and RASSF1A). Methylation differences among PENs, subdivided according to tumor size, lymph node status, or liver metastasis, were analyzed, and the association of gene methylation with tumor recurrence and patient survival was evaluated.

RESULTS

Aberrant hypermethylation of any of the 11 tumor suppressor genes was detected in 87% of the PENs. In decreasing order of frequency, the 5 most commonly methylated genes were: RASSF1A (75%), INK4a/p16 (40%), O6-MGMT (40%), RAR-beta (25%), and hMLH1 (23%). In general, tumors larger than 5 cm and those associated with lymph node or hepatic metastases exhibited a higher frequency of methylation at each promoter site compared with PENs without malignant histologic features. The methylation of specific tumor suppressor genes was an independent predictor of early PEN recurrence and decreased 5-year survival following surgical resection. The accumulation of methylation of multiple tumor suppressor genes was associated with early tumor recurrence and reduced survival among a subpopulation of patients with lymph node-negative PENs.

CONCLUSIONS

Aberrant methylation of multiple tumor suppressor genes is associated with advanced tumor stage and identifies molecularly distinct PENs with identical histologic characteristics. The methylation status of specific tumor suppressor genes is predictive of PEN behavior.

Molecular insights into gastrointestinal neuroendocrine tumours: importance and recent advances

A subset of gastrointestinal neuroendocrine tumours (carcinoids and pancreatic endocrine tumours) show aggressive growth. Early identification of this subset is essential for management; however, clinical, laboratory and histologic features frequently fail to achieve this. Currently, there is an increased understanding of the molecular pathogenesis/changes in neuroendocrine tumours and this may identify important prognostic factors and possibly, new treatments. Recent findings and progress in this area are briefly reviewed in this article.

Frequent deletion of chromosome 3 in malignant sporadic pancreatic endocrine tumors

Pancreatic endocrine tumors (PETs) arise from neuroendocrine cells in and around the pancreas. As loss of heterozygosity (LOH) of chromosome 3 has been reported in sporadic PETs, we examined 16 sporadic PETs for LOH of 10 polymorphic DNA markers spanning both arms of chromosome 3. LOH was demonstrated in 4 of 8 (50%) sporadic PETs with hepatic metastasis, but in none of 8 sporadic PETs without hepatic involvement. The smallest common-deleted region (SCDR) mapped to 3q27-qter. Analysis of this data with the status of markers on chromosomes 1, 11, and MEN1 mutations in these 16 sporadic PETs revealed that chromosome 3q loss may be a late event in sporadic PET tumorigenesis. These data, combined with reports from other investigators, indicate that chromosome 3q27-qter may contain a tumor suppressor gene that's important in the tumorigenesis of sporadic PETs.

Genomic imbalances in the progression of endocrine pancreatic tumors

Endocrine pancreatic tumors (EPTs) are neoplasms with malignant potential. To explore the molecular basis of metastatic progression in human EPTs, we analyzed 17 paired specimens of primary EPTs and their metastases and 28 nonmetastatic EPTs using comparative genomic hybridization (CGH). Genomic alterations were detected in all of the matched primary/metastatic tumors and 19 (58%) nonmetastatic EPTs. The mean number of genomic changes was 17.3 in metastases, 12.5 in their primary tumors, and 4.5 in nonmetastatic EPTs. Statistical analysis of shared genomic changes in matched pairs of primary tumors and metastases showed a high probability (>95%) of a clonal relationship in 15 of the 17 cases. A closely related genetic pattern was also demonstrated on the basis of concordance analysis of the two groups. The most striking genomic changes which were enriched in metastases included gains of chromosomes 4 and 7 and losses of 21q. Other common regions of frequent losses (>40%) identified in metastases and/or their primary tumors involved 2p, 2q, 3p, 3q, 6q, 10p, and 11p, whereas frequently detected gains (>40%) in the paired tumors involved 5p, 5q, 12q, 14q, 17q, 18q, and 20q. These chromosomal aberrations were found in significantly fewer nonmetastatic EPTs. Some of these chromosomal loci may harbor genes contributing to the progression of EPT.

Carcinoid and pancreatic endocrine tumors: recent advances in molecular pathogenesis, localization, and treatment

Neuroendocrine tumors include carcinoids and pancreatic endocrine tumors, which share a number of common features in their pathology, ability to cause clinical symptoms due to ectopic hormone and bioamine release, localization methods, and treatment. Although generally slow growing, a proportion demonstrate aggressive tumor growth. Therefore, in many cases treatment must be directed against both the tumor and the hormone-excess state. There have been significant recent advances into their molecular pathogenesis, natural history, and prognostic factors; clinical presentation defined by larger series analysis; localization methods; and the development of new treatments directed against the tumor and to control the hormone-excess state (including depot somatostatin analogues, interferon combinations, embolization, chemoembolization, radiotherapy with novel somatostatin analogues, and liver transplantation). Recent advances in each of these areas are briefly discussed.

Genetic differences in endocrine pancreatic tumor subtypes detected by comparative genomic hybridization

The molecular pathogenesis as well as histogenesis of endocrine pancreatic tumors (EPTs) is not well understood, and the clinical behavior of EPTs is difficult to predict using current morphological criteria. Thus, more accurate markers of risk and better understanding of tumor initiation and progression are needed to allow a precise classification of EPTs. We have studied 44 benign and malignant EPTs by comparative genomic hybridization to correlate the overall number of genetic alterations with clinical and histopathological parameters and to identify chromosomal regions which might harbor genes involved in EPT pathogenesis and progression. Aberrations were found in 36 EPTs, and chromosomal losses (mean, 5.3) were slightly more frequent than gains (mean, 4. 6). The most frequent losses involved Y (45% of male EPTs), 6q (39%), 11q (36%), 3p, 3q, 11p (each 30%), 6p (27%), and 10q and Xq (each 25%), whereas most common gains included 7q (43%), 17q (41%), 5q and 14q (each 32%), 7p, 9q, 17p, 20q (each 27%), and 12q and Xp (each 25%). A correlation was found between the total number of genetic changes per tumor and both tumor size and disease stage. In particular, losses of 3p and 6 and gains of 14q and Xq were found to be associated with metastatic disease. Furthermore, characteristic patterns of genetic changes were found in the various EPT subtypes, eg, 6q loss in malignant insulinomas, indicating that these groups might evolve along genetically different pathways. The highlighted genetic aberrations, including the newly found involvement of 6q losses and sex chromosome alterations, should stimulate the further analysis of these chromosomal regions, which may lead to the discovery of novel genes important in the tumorigenesis and evolution of EPTs.

Mutations of the DPC4/Smad4 gene in neuroendocrine pancreatic tumors

Tumors of the endocrine pancreas are extremely rare, and molecular mechanisms leading to their development are not well understood. A candidate tumor suppressor gene, DPC4, located at 18q21, has recently been shown to be inactivated in half of pancreatic adenocarcinoma xenografts. The close anatomical relationship of the exocrine and endocrine pancreas prompted us to determine the role of DPC4 in the tumorigenesis of 25 pancreatic islet cell tumors (11 insulinomas, nine non-functioning endocrine carcinomas, three gastrinomas, two vipomas). A mutation screening of the highly conserved COOH-terminal domain of DPC4 (exons 8-11) was performed by single-strand conformational variant (SSCP) analysis and a PCR-based deletion assay. Five of nine (55%) non-functioning endocrine pancreatic carcinomas revealed either point mutations, small intragenic deletions or homozygous deletion of DPC4 sequences compared to none of the insulinomas, gastrinomas or vipomas. These results suggest that DPC4 is an important target gene promoting tumorigenesis of non-functioning neuroendocrine pancreatic carcinomas.

Cytoplasmic staining of erbB-2 but not mRNA levels correlates with differentiation in human thyroid neoplasia

OBJECTIVE

Amplification and overexpression of the erbB-2 proto-oncogene in human carcinomas may have prognostic significance. Its role in thyroid carcinoma is controversial. We investigated human thyroid tumours for erbB-2 gene amplification, activating mutations in the transmembrane domain, quantitative mRNA expression and protein expression.

MATERIALS AND METHODS

DNA and mRNA were extracted from 47 morphologically characterized, frozen thyroid tumours including 10 nodular hyperplasias, 3 follicular carcinomas and 34 papillary carcinomas (4 with tall-cell features, 2 with insular and 2 with anaplastic de-differentiation). DNA amplification was analysed by differential PCR. The transmembrane domain of erbB-2 was sequenced in all tumours for activating mutations in position 659. Levels of mRNA expression were determined by competitive mRNA RT-PCR. Immunohistochemistry (IHC) for erbB-2 protein expression in corresponding paraffin-embedded samples was evaluated.

RESULTS

Our results showed no DNA amplification of erbB-2. Sequencing of the transmembrane domain of erbB-2 revealed no activating mutations. The level of mRNA expression was variable, 11 papillary carcinomas showing statistically significant elevated mRNA levels compared with corresponding normal thyroid tissue; however, this did not correlate with other indicators of poor prognosis. In contrast to elevated mRNA levels in tumours, the level of protein staining correlated with degree of differentiation, normal and hyperplastic tissue being strongly positive and poorly differentiated tumours negative.

CONCLUSION

There are no mutations or amplifications of the erbB-2 gene in human thyroid tumours. Elevated erbB-2 mRNA expression in some thyroid tumours is not associated with clinical features of poor prognosis; however, the significance of the elevated mRNA levels is unclear, as it did not result in protein overexpression. Instead, cytoplasmic erbB-2 protein detection by IHC correlates with differentiation of human thyroid tumours and may be a feature of good prognosis.

Pancreatic endocrine tumours: evidence for a tumour suppressor pathogenesis and for a tumour suppressor gene on chromosome 17p

Two molecular pathways leading to cancer are known. Common-type cancers arise from the 'tumour suppressor' pathway, characterized by gross chromosomal changes and allelic losses (LOH) in an average of 25 per cent or more of randomly chosen chromosomal loci. The 'mutator pathway' has been recognized in a subset of cancers, characterized by widespread microsatellite DNA instability and rarity of chromosomal losses. The present study has investigated 20 pancreatic endocrine tumours (PETs) for loss of heterozygosity (LOH) at seven chromosomal loci (3p14, 7q31-32, 11q13, 13q14, 18q21, 17p13, and 17q21); microsatellite instability; and Ki-ras, N-ras, and p53 gene mutations. LOH was found in an average of 24 per cent of the chromosomal loci analysed. No tumour showed microsatellite instability. Ki-ras and p53 mutations were each found in one case. The frequency of losses was higher in malignant (40 per cent) than in benign (17 per cent) tumours (p = 0.009), and the specific chromosome 17p13 LOH was associated with extrapancreatic extension of disease (p = 0.007), high proliferative activity (p = 0.001), and absence of progesterone receptors (p = 0.01). A common deleted region on chromosome 17p13 and the rarity of p53 gene mutations suggest the existence of a novel tumour suppressor gene involved in the pathogenesis of PETs in this chromosomal area.

Comparative genomic hybridization analysis of sporadic neuroendocrine tumors of the digestive system

Little information is available on the molecular mechanisms underlying neuroendocrine tumorigenesis. To obtain an overview of the genomic imbalances characterizing these tumors, we studied 20 benign or malignant sporadic endocrine gastroenteropancreatic tumors by comparative genomic hybridization. Chromosomal imbalances were found in all tumors. Gains of chromosomal material were more frequent than losses. The most frequent gains were of chromosomes and chromosome arms 5 (55%), 14 (55%), 17q (55%), and 7 (50%). Losses were most frequent from 11q (30%) and 16p (30%). Gains of chromosome 5 did not occur in nonmetastatic tumors, whereas losses of 9p were observed exclusively in intestinal tumors. In addition, we found two high-level amplifications, of 17q11-21 and 19q13. A complementary FISH analysis revealed that the gain in 17q11-21 included amplification of the protooncogene HER2/neu. As in multiple endocrine neoplasia type-1-associated tumors, deletions of chromosome band 11q13 appear to be involved in the development of sporadic digestive tract neuroendocrine tumors, but our results suggest that other chromosomal regions are also involved.

Association of serum antibodies against p53 protein with poor survival in patients with Zollinger-Ellison syndrome

BACKGROUND & AIMS

Long-term survival of patients with Zollinger-Ellison syndrome (ZES) is largely determined by the presence or absence of liver metastases. However, because of the lack of precision of these criteria, development of further indicators is still required. Recent evidence showing that autoantibodies directed against the p53 protein could predict poor survival for some types of cancers prompted us to investigate the presence of such antibodies in sera from patients with ZES and their potential value as survival indicator.

METHODS

Anti-p53 antibodies were detected in the sera of 44 consecutive patients with ZES using both an enzyme-linked immunosorbent assay (ELISA) and Western blotting. The mean follow-up of these patients was 92 months.

RESULTS

Anti-p53 antibodies were detected in 7 of the patients with ZES (16%) by both ELISA and Western blotting. Univariate and multivariate analyses showed that the presence of anti-p53 antibodies (P = 0.0009 and P = 0.017, respectively) and liver metastases (P = 0.0009 and P = 0.012, respectively) was independently associated with shorter survival.

CONCLUSIONS

These results suggest that anti-p53 antibodies are an indicator of survival and could be used in combination with staging to determine which patients with ZES have poor prognoses and therefore require reinforced therapy.

A novel pancreatic endocrine tumor suppressor gene locus on chromosome 3p with clinical prognostic implications

The molecular pathogenesis of pancreatic endocrine tumors is largely unknown. Such tumors are more likely to develop in individuals with the von Hippel-Lindau (VHL) syndrome. We sought to determine whether allelic loss of the recently identified VHL tumor suppressor gene on chromosome 3p25-26 occurs in the more common sporadic forms of these tumors. Allelic loss on chromosome 3p was identified in 33% of 43 patients with endocrine tumors of the pancreas. The smallest common region of allelic loss, however, centered not at the VHL locus, but rather at 3p25, centromeric to VHL. Furthermore, no mutations of the VHL gene were identified in these tumors. Loss of alleles on chromosome 3p was associated with clinically malignant disease, whereas tumors with retained 3p alleles were more likely to be benign. Thus, the VHL gene does not appear to play a pathogenic role in the development of sporadic pancreatic endocrine tumors. Instead, a locus at chromosome 3p25 may harbor a novel pancreatic endocrine tumor suppressor gene, and allelic loss of this chromosomal region may serve as a molecular marker that helps distinguish benign from clinically malignant disease.

Gastrointestinal endocrine tumours. Gastrinoma

Since the description of the Zollinger-Ellison syndrome in two patients in 1955, there have been significant advances in the understanding of its pathogenesis, natural history, relationship to multiple endocrine neoplasia type 1, diagnosis, methods of tumour localization and management. The main focus in treatment is now shifting from management of the gastric acid hypersecretory state which can now be controlled medically in almost every patient, to the management of the gastrinoma. Recent studies are beginning to provide insights into the natural history of gastrinomas, factors that are associated with invasiveness in some gastrinomas, defining the role of surgery in managing patients with different disease extents, or with MEN 1 and being able to provide insights into molecular abnormalities that may be important in their pathogenesis. In this article each of these advances is briefly reviewed with emphasis primarily on recent advances.