Microsatellite instability and loss of heterozygosity at DNA mismatch repair gene loci occurs during hepatic carcinogenesis

DNA mismatch repair is an important mechanism involved in maintaining the fidelity of genomic DNA. Defective DNA mismatch repair is implicated in a variety of gastrointestinal and other turners; however, its role in hepatocellular carcinoma (HCC) has not been assessed. Formalin-fixed, paraffin-embedded archival pathology tissues from 46 primary liver tumors were studied by microdissection and microsatellite analysis of extracted DNA to assess the degree of microsatellite instability, a marker of defective mismatch repair, and to determine the extent and timing of allelic loss of two DNA mismatch repair genes, human Mut S homologue-2 (hMSH2) and human Mut L homologue-1 (hMLH1), and the tumor suppressor genes adenomatous polyposis coli gene (APC), p53, and DPC4. Microsatellite instability was detected in 16 of the tumors (34.8%). Loss of heterozygosity at microsatellites linked to the DNA mismatch repair genes, hMSH2 and/or hMLH1, was found in 9 cases (19.6%), usually in association with microsatellite instability. Importantly, the pattern of allelic loss was uniform in 8 of these 9 tumors, suggesting that clonal loss had occurred. Moreover, loss at these loci also occurred in nonmalignant tissue adjacent to 4 of these tumors, where it was associated with marked allelic heterogeneity. There was relatively infrequent loss of APC, p53, or DPC4 loci that appeared unrelated to loss of hMSH2 or hMLH1 gene loci. Loss of heterozygosity at hMSH2 and/or hMLH1 gene loci, and the associated microsatellite instability in premalignant hepatic tissues suggests a possible causal role in hepatic carcinogenesis in a subset of hepatomas.

Molecular profiling of isolated histological components of Wilms tumor implicates a common role for the Wnt signaling pathway in kidney and tumor development

Wilms tumor (WT), a tumor composed of three histological components - blastema (BL), epithelia and stroma - is considered an appropriate model system to study the biological relationship between differentiation and tumorigenesis. To investigate molecular associations between nephrogenesis and WT, the gene expression pattern of individual cellular components was analyzed, using a customized platform containing 4,608 genes. WT gene expression patterns were compared to genes regulated during kidney differentiation. BL had a closer gene expression pattern to the earliest stage of normal renal development. The BL gene expression pattern was compared to that of fetal kidney (FK) and also between FK and mature kidney, identifying 25 common de-regulated genes supposedly involved in the earliest events of WT onset. Quantitative RT-PCR was performed, confirming the difference in expression levels for 13 of 16 genes (81.2%) in the initial set and 8 of 13 (61.5%) in an independent set of samples. An overrepresentation of genes belonging to the Wnt signaling pathway was identified, namely PLCG2, ROCK2 and adenomatous polyposis coli (APC). Activation of the Wnt pathway was confirmed in WT, using APC at protein level and PLCG2 at mRNA and protein level. APC showed positive nuclear immunostaining for an independent set of WT samples, similarly to the FK in week 11. Lack of PLCG2 expression was confirmed in WT and in FK until week 18. Taken together, these results provided molecular evidence of the recapitulation of the embryonic kidney by WT as well as involvement of the Wnt pathway in the earliest events of WT onset. Copyright (C) 2008 S. Karger AG, Basel.

��-Catenin Regulation during the Cell Cycle: Implications in G2/M and Apoptosis

��-catenin is a multifunctional protein involved in cell-cell adhesion and Wnt signal transduction. ��-Catenin signaling has been proposed to act as inducer of cell proliferation in different tumors. However, in some developmental contexts and cell systems ��-catenin also acts as a positive modulator of apoptosis. To get additional insights into the role of ��-Catenin in the regulation of the cell cycle and apoptosis, we have analyzed the levels and subcellular localization of endogenous ��-catenin and its relation with adenomatous polyposis coli (APC) during the cell cycle in S-phase��synchronized epithelial cells. ��-Catenin levels increase in S phase, reaching maximum accumulation at late G2/M and then abruptly decreasing as the cells enter into a new G1 phase. In parallel, an increased cytoplasmic and nuclear localization of ��-catenin and APC is observed during S and G2 phases. In addition, strong colocalization of APC with centrosomes, but not ��-catenin, is detected in M phase. Interestingly, overexpression of a stable form of ��-catenin, or inhibition of endogenous ��-catenin degradation, in epidermal keratinocyte cells induces a G2 cell cycle arrest and leads to apoptosis. These results support a role for ��-catenin in the control of cell cycle and apoptosis at G2/M in normal and transformed epidermal keratinocytes.

Replicating adenoviruses targeting tumours with constitutive activation of the Wnt signalling pathway

Abstract Activation of the Wnt pathway through mutation of the adenomatous polyposis coli and 13-catenin genes is a hallmark of colon cancer. These mutations lead to constitutive activation of transcription from promoters containing binding sites for Tcf/LEF transcription factors. Tumour-selective replicating oncolytic viruses are promising agents for cancer therapy. They can in principle spread throughout a tumour mass until all the cancerous cells are killed, and clinical trials have shown that they are safe except at very high doses. Adenoviruses are interesting candidates for virotherapy because their biology is well understood and their small genome can be rapidly mutated. Adenoviruses with Tcf binding sites in the E2 early promoter replicate selectively in cells with an active Wnt pathway. Although these viruses can replicate in a broad panel of colon cancer cell lines, some colorectal cancer cells are only semi-permissive for Tcf-virus replication. The aim of my thesis was to increase the safety and the efficacy of Tcf-viruses for colon cancer virotherapy. I replaced the endogenous ElA viral promoter by four Tcf binding sites and showed that transcription from the mutant promoter was specifically activated by the Wnt pathway. A virus with Tcf binding sites in the ElA and E4 promoters was more selective for the Wnt pathway than the former Tcf-E2 viruses. Moreover, insertion of Tcf binding sites into all early promoters further increased viral selectivity, but reduced viral activity. I showed that Tcf-dependent transcription was inhibited by the interaction between ElA and p300, but deletion of the p300-binding site of ElA generally led to viral attenuation. In the semi-permissive cell lines, replication of Tcf-viruses remained lower than that of the wild-type virus. The E2 promoter was the most sensitive to the cell type, but I was unable to improve its activity by targeted mutagenesis. To increase the toxicity of the Tcf-E1A/E4 virus, I decided to express a suicide gene, yeast cytosine deaminase (yCD), late during infection. This enzyme converts the prodrug 5-FC to the cytotoxic agent 5-FU. yCD was expressed in a DNA replication-dependent manner and increased viral toxicity in presence of 5-FC. Tcf-ElA and yCD adenoviruses are potentially useful vectors for the treatment of liver metastases from colorectal tumours. R��sum�� Dans la quasi-totalit�� des cancers du c��lon, la voie Wnt est activ��e par des mutations dans les g��nes codant pour APC ou pour la (3-cat��nine. Ces mutations activent de fa��on constitutive la transcription de promoteurs contenant des sites de liaison pour les facteurs de transcription Tcf/LEF. Les virus r��plicatifs sp��cifiques aux tumeurs sont des agents prometteurs pour la th��rapie canc��reuse. En principe, ces vecteurs peuvent se propager dans une masse tumorale jusqu'�� destruction de toutes les cellules canc��reuses, et des ��tudes cliniques ont d��montr�� que de tels vecteurs n'��taient pas toxiques, sauf �� de tr��s hautes doses. Les ad��novirus sont des candidats int��ressants pour la th��rapie virale car leur biologie est bien d��finie et leur petit g��nome peut ��tre rapidement modifi��. Des ad��novirus comportant des sites de liaison �� Tcf dans leur promoteur pr��coce E2 se r��pliquent s��lectivement dans les cellules qui poss��dent une voie Wnt active. Ces virus sont capables de se r��pliquer dans un grand nombre de cellules canc��reuses du c��lon, bien que certaines de ces cellules ne soient que semi-permissives pour la r��plication des virus Tcf. Le but de ma th��se ��tait d'augmenter la s��curit�� et l'efficacit�� des virus Tcf. Le promoteur viral endog��ne ElA a ��t�� remplac�� par quatre sites de liaison �� Tcf, ce qui a rendu son activation d��pendante de la voie Wnt. Un virus comportant des sites de liaison pour Tcf dans les promoteurs ElA et E4 ��tait plus s��lectif pour la voie Wnt que les pr��c��dents virus Tcf-E2, et un virus comportant des sites Tcf dans tous les promoteurs pr��coces ��tait encore plus s��lectif, mais moins actif. J'ai montr�� que l'interaction entre ElA et p300 inhibait la transcription d��pendante de Tcf, mais la d��l��tion du domaine concern�� dans ElA a eu pour effet d'att��nuer les virus. Dans les cellules semi-permissives, la r��plication des virus Tcf ��tait toujours plus basse que celle du virus sauvage. J'ai identifi�� le promoteur E2 comme ��tant le plus sensible au type cellulaire, mais n'ai pas pu augmenter son activit�� par mutagen��se. Pour augmenter la toxicit�� du virus Tcf-E1A/E4, j'ai d��cid�� d'exprimer un g��ne suicide, la cytosine d��aminase (yCD), pendant la phase tardive de l'infection. Cette enzyme transforme la procirogue 5-FC en l'agent cytotoxique 5-FU. yCD ��tait exprim��e apr��s r��plication de l'ADN viral et augmentait la toxicit�� virale en pr��sence de 5-FC. Les virus Tcf-ElA et yCD sont des vecteurs potentiellement utiles pour le traitement des m��tastases h��patiques de cancers colorectaux.

Identification of protein expression signatures in gastric carcinomas using clustering analysis

Background and Aim: The identification of gastric carcinomas (GC) has traditionally been based on histomorphology. Recently, DNA microarrays have successfully been used to identify tumors through clustering of the expression profiles. Random forest clustering is widely used for tissue microarrays and other immunohistochemical data, because it handles highly-skewed tumor marker expressions well, and weighs the contribution of each marker according to its relatedness with other tumor markers. In the present study, we e identified biologically- and clinically-meaningful groups of GC by hierarchical clustering analysis of immunohistochemical protein expression. Methods: We selected 28 proteins (p16, p27, p21, cyclin D1, cyclin A, cyclin B1, pRb, p53, c-met, c-erbB-2, vascular endothelial growth factor, transforming growth factor [TGF]-beta I, TGF-beta II, MutS homolog-2, bcl-2, bax, bak, bcl-x, adenomatous polyposis coli, clathrin, E-cadherin, beta-catenin, mucin (MUC) 1, MUC2, MUC5AC, MUC6, matrix metalloproteinase [ MMP]-2, and MMP-9) to be investigated by immunohistochemistry in 482 GC. The analyses of the data were done using a random forest-clustering method. Results: Proteins related to cell cycle, growth factor, cell motility, cell adhesion, apoptosis, and matrix remodeling were highly expressed in GC. We identified protein expressions associated with poor survival in diffuse-type GC. Conclusions: Based on the expression analysis of 28 proteins, we identified two groups of GC that could not be explained by any clinicopathological variables, and a subgroup of long-surviving diffuse-type GC patients with a distinct molecular profile. These results provide not only a new molecular basis for understanding the biological properties of GC, but also better prediction of survival than the classic pathological grouping.

Isolation and identification of molecular partners of the proteins encoded by the Drosophila tumor suppressor gene lethal(2)tumorous imaginal discs

Ziel dieser Arbeit war es, die funktionelle Bedeutung des Drosophila melanogaster tumor suppressor Gens lethal(2)tumorous imaginal discs (l(2)tid) durch die Identifikation von molekularen Partnern der vom Gen kodierten Proteine zu etablieren. Mit dem Screening einer Expressionsbibliothek mittels des Hefe-Di-Hybrid-Systems wurde das Protein Patched (Ptc) als ein neues Tid-bindendes Protein identifiziert. Ptc ist ein Zentralregulator der Hedhehog-Signalkette. Diese ist in der Entwicklung konserviert und in manchen humanen Krebsarten verwickelt. Die Tid/Ptc-Interaktion wurde mittels unabh��ngigen biochemischen Methoden wie dem GST-pulldown-Test oder der Immunopr��zipitation ��berpr��ft. Au��erdem ergaben funktionelle Studien in tumorosen Imaginalscheiben einen m��glichen inhibitorischen Effekt von Tid ��ber die Hh Signaltransduktion.Im letzten Teil dieser Arbeit wurde die Interaktion zwischen Tid und dem E-APC-Protein (Adenomatous polyposis coli) bewiesen. Polakis und seine Gruppe zeigten durch Studien mit dem Hefe-Di-Hybrid-System und in vitro, dass das hTid mit dem APC-Protein interagiert. Um dies auch auf Drosophila-Ebene zu ��berpr��fen, wurden Immunopr��zipitation-Studien mit den Drosophila-Gegenst��cken durchgef��hrt. Diese Studien zeigen zum ersten Mal eine direkte Interaktion beider Proteine in vivo.

Multiple osteosclerotic lesions in an Iron Age skull from Switzerland (320 - 250 BC) - An unusual case

The single Hochdorf burial was found in 1887 during construction work in the Canton of Lucerne, Switzerland. It dates from between 320 and 250 BC. The calvarium, the left half of the pelvis and the left femur were preserved. The finding shows an unusual bony alteration of the skull. The aim of this study was to obtain a differential diagnosis and to examine the skull using various methods. Sex and age were determined anthropologically. Radiological examinations were performed with plain X-ray imaging and a multislice computed tomography (CT) scanner. For histological analysis, samples of the lesion were taken. The pathological processing included staining after fixation, decalcification, and paraffin embedding. Hard-cut sections were also prepared. The individual was female. The age at death was between 30 and 50 years. There is an intensely calcified bone proliferation at the right side of the os frontalis. Plain X-ray and CT imaging showed a large sclerotic lesion in the area of the right temple with a partly bulging appearance. The inner boundary of the lesion shows multi-edged irregularities. There is a diffuse thickening of the right side. In the left skull vault, there is a mix of sclerotic areas and areas which appear to be normal with a clear differentiation between tabula interna, diplo�� and tabula externa. Histology showed mature organised bone tissue. Radiological and histological findings favour a benign condition. Differential diagnoses comprise osteomas which may occur, for example, in the setting of hereditary adenomatous polyposis coli related to Gardner syndrome.

Binding of high-risk human papillomavirus E6 oncoproteins to the human homologue of the Drosophila discs large tumor suppressor���protein

In the majority of cervical cancers, DNAs of high-risk mucosotpropic human papillomaviruses (HPVs), such as type 16, are maintained so as to express two viral proteins, E6 and E7, suggesting an essential importance to carcinogenesis. The high-risk HPV E6 proteins are known to inactivate p53 tumor suppressor protein but appear to have an additional, molecularly unknown function(s). In this study, we demonstrate that these E6 proteins can bind to the second PDZ domain of the human homologue of the Drosophila discs large tumor suppressor protein (hDLG) through their C-terminal XS/TXV/L (where X represents any amino acid, S/T serine or threonine, and V/L valine or leucine) motif. This finding is similar to the interaction between the adenomatous polyposis coli gene product and hDLG. E6 mutants losing the ability to bind to hDLG are no longer able to induce E6-dependent transformation of rodent cells. These results suggest an intriguing possibility that interaction between the E6 protein and hDLG or other PDZ domain-containing proteins could be an underlying mechanism in the development of HPV-associated cancers.

Alternative genetic pathways in colorectal���carcinogenesis

The comparative typing of matched tumor and blood DNAs at dinucleotide repeat (microsatellite) loci has revealed in tumor DNA the presence of alleles that are not observed in normal DNA. The occurrence of these additional alleles is possibly due to replication errors (RERs). Although this observation has led to the recognition of a subtype of colorectal cancer with a high incidence of RERs (caused by a deficiency in DNA mismatch repair), a thorough analysis of the RER frequency in a consecutive series of colorectal cancers had not been reported. It is shown here that the extensive typing of 88 colorectal tumors reveals a bimodal distribution for the frequency of RER at microsatellite loci. Within the major mode (75 tumors, RER��� subtype), the probability that a locus exhibited instability did not differ significantly among loci and tumors, being 0.02. The subsequent development of a statistical test for an operational discrimination between the RER��� and RER+ subtypes indicated that the probability of misclassification did not exceed 0.001 in this series. The frequency of K-ras mutation was found to be equivalent in the two subtypes. However, in the RER+ tumors, the p53 gene mutation was less frequently detected, the adenomatous polyposis coli (APC) mutation was rare, and the biallelic inactivation of either of these genes was not observed. Furthermore, the concomitant occurrence of APC and tumor growth factor �� receptor type II gene alterations was found only once. These data suggest that the repertoires of genes that are frequently altered in RER+ and RER��� tumors may be more different than previously thought.

The APC variants I1307K and E1317Q are associated with colorectal tumors, but not always with a family history

Classical familial adenomatous polyposis (FAP) is a high-penetrance autosomal dominant disease that predisposes to hundreds or thousands of colorectal adenomas and carcinoma and that results from truncating mutations in the APC gene. A variant of FAP is attenuated adenomatous polyposis coli, which results from germ-line mutations in the 5��� and 3��� regions of the APC gene. Attenuated adenomatous polyposis coli patients have ���multiple��� colorectal adenomas (typically fewer than 100) without the florid phenotype of classical FAP. Another group of patients with multiple adenomas has no mutations in the APC gene, and their phenotype probably results from variation at a locus, or loci, elsewhere in the genome. Recently, however, a missense variant of APC (I1307K) was described that confers an increased risk of colorectal tumors, including multiple adenomas, in Ashkenazim. We have studied a set of 164 patients with multiple colorectal adenomas and/or carcinoma and analyzed codons 1263���1377 (exon 15G) of the APC gene for germ-line variants. Three patients with the I1307K allele were detected, each of Ashkenazi descent. Four patients had a germ-line E1317Q missense variant of APC that was not present in controls; one of these individuals had an unusually large number of metaplastic polyps of the colorectum. There is increasing evidence that there exist germ-line variants of the APC gene that predispose to the development of multiple colorectal adenomas and carcinoma, but without the florid phenotype of classical FAP, and possibly with importance for colorectal cancer risk in the general population.

A resistant genetic background leading to incomplete penetrance of intestinal neoplasia and reduced loss of heterozygosity in ApcMin/+ mice

Previous studies of Min/+ (multiple intestinal neoplasia) mice on a sensitive genetic background, C57BL/6 (B6), showed that adenomas have lost heterozygosity for the germ-line ApcMin mutation in the Apc (adenomatous polyposis coli) gene. We now report that on a strongly resistant genetic background, AKR/J (AKR), Min-induced adenoma multiplicity is reduced by about two orders of magnitude compared with that observed on the B6 background. Somatic treatment with a strong mutagen increases tumor number in AKR Min/+ mice in an age-dependent manner, similar to results previously reported for B6 Min/+ mice. Immunohistochemical analyses indicate that Apc expression is suppressed in all intestinal tumors from both untreated and treated AKR Min/+ mice. However, the mechanism of Apc inactivation in AKR Min/+ mice often differs from that observed for B6 Min/+ mice. Although loss of heterozygosity is observed in some tumors, a significant percentage of tumors showed neither loss of heterozygosity nor Apc truncation mutations. These results extend our understanding of the effects of genetic background on Min-induced tumorigenesis in several ways. First, the AKR strain carries modifiers of Min in addition to Mom1. This combination of AKR modifiers can almost completely suppress spontaneous intestinal tumorigenesis associated with the Min mutation. Second, even on such a highly resistant genetic background, tumor formation continues to involve an absence of Apc function. The means by which Apc function is inactivated is affected by genetic background. Possible scenarios are discussed.

Genetic disruption of PPAR�� decreases the tumorigenicity of human colon cancer cells

Peroxisome proliferator-activated receptors (PPARs) are nuclear hormone receptors that have been implicated in a variety of biologic processes. The PPAR�� isotype was recently proposed as a downstream target of the adenomatous polyposis coli (APC)/��-catenin pathway in colorectal carcinogenesis. To evaluate its role in tumorigenesis, a PPAR�� null cell line was created by targeted homologous recombination. When inoculated as xenografts in nude mice, PPAR�� ���/��� cells exhibited a decreased ability to form tumors compared with PPAR�� +/��� and wild-type controls. These data suggest that suppression of PPAR�� expression contributes to the growth-inhibitory effects of the APC tumor suppressor.

Top-down morphogenesis of colorectal tumors

One of the fundamental tenets of oncology is that tumors arise from stem cells. In the colon, stem cells are thought to reside at the base of crypts. In the early stages of tumorigenesis, however, dysplastic cells are routinely found at the luminal surface of the crypts whereas the cells at the bases of these same crypts appear morphologically normal. To understand this discrepancy, we evaluated the molecular characteristics of cells isolated from the bases and orifices of the same crypts in small colorectal adenomas. We found that the dysplastic cells at the tops of the crypts often exhibited genetic alterations of adenomatous polyposis coli (APC) and neoplasia-associated patterns of gene expression. In contrast, cells located at the base of these same crypts did not contain such alterations and were not clonally related to the contiguous transformed cells above them. These results imply that development of adenomatous polyps proceeds through a top-down mechanism. Genetically altered cells in the superficial portions of the mucosae spread laterally and downward to form new crypts that first connect to preexisting normal crypts and eventually replace them.

APC mutations in colorectal tumors with mismatch repair deficiency.

We have investigated the influence of genetic instability [replication error (RER) phenotype] on APC (adenomatous polyposis coli), a gene thought to initiate colorectal tumorigenesis. The prevalence of APC mutations was similar in RER and non-RER tumors, indicating that both tumor types share this step in neoplastic transformation. However, in a total of 101 sequenced mutations, we noted a substantial excess of APC frameshift mutations in the RER cases (70% in RER tumors versus 47% in non-RER tumors, P < 0.04). These frameshifts were characteristic of mutations arising in cells deficient in DNA mismatch repair, with a predilection for mononucleotide repeats in the RER tumors (P < 0.0002), particularly (A)n tracts (P < 0.00007). These findings suggest that the genetic instability that is reflected by the RER phenotype precedes, and is responsible for, APC mutation in RER large bowel tumors and have important implications for understanding the very earliest stages of neoplasia in patients with tumors deficient in mismatch repair.

Apoptosis and APC in colorectal tumorigenesis.

Tumors result from disruptions in the homeostatic mechanisms that regulate cell birth and cell death. In colon cancer, one of the earliest manifestation of this imbalance is the formation of polyps, caused by somatic and inherited mutations of the adenomatous polyposis coli (APC) tumor suppressor gene in both humans and mice. While the importance of APC in tumorigenesis is well documented, how it functions to prevent tumors remains a mystery. Using a novel inducible expression system, we show that expression of APC in human colorectal cancer cells containing endogenous inactive APC alleles results in a substantial diminution of cell growth. Further evaluation demonstrated that this was due to the induction of cell death through apoptosis. These results suggest that apoptosis plays a role not only in advanced tumors but also at the very earliest stages of neoplasia.