Allele loss on chromosome arm 6q and fine mapping of the region at 6q27 in epithelial ovarian cancer

Retinoblastoma and mosaic 13q deletion: a case report

BACKGROUND

Patients with 13q-syndrome are at risk of retinoblastoma when the RB1 gene, located in the chromosomal band 13q14.2, is deleted. This syndrome is frequently associated with congenital malformations and developmental delay, although these signs could be mild. Mosaic 13q-deletion patients have been previously reported in the literature; their phenotype is variable, and they may not be recognized.

CASE PRESENTATION

Retinoblastoma diagnosed in a child with 13q-mosaicism confirmed in blood, oral mucosa, healthy retina and retinoblastoma. A second RB1 hit is present exclusively in the retinoblastoma sample (RB1 c.958C>T p.Arg320Ter). Other detected molecular events in retinoblastoma are 6p12.3pter gain and 6q25.3qter loss. Clinical examination is unremarkable except for clinodactyly of the right fifth finger.

DISCUSSION AND CONCLUSIONS

We describe a case of mosaic 13q deletion syndrome affected by retinoblastoma. Molecular data obtained from the tumor analysis are similar to previous data available about this malignancy. High clinical suspicion is essential for an adequate diagnosis of mosaic cases.

Gene Signatures and Prognostic Values of m6A RNA Methylation Regulators in Ovarian Cancer

BACKGROUND

N6-methyladenosine (m6A) is the most common form of mRNA modification under the field of "RNA epigenetics." However, its role in ovarian cancer (OC) development is poorly understood. In the current study, we aimed to identify gene signatures and prognostic values of m6A RNA methylation regulators.

METHOD

Specifically, we downloaded Mutations and Copy number variant (CNV) data from the TCGA database for 579 OC patients, then analyzed gene expression and prognosis value using integrative bioinformatics. Thereafter, we verified the related biological processes of Wilms' tumor 1-associating protein (WTAP) gene using Gene set enrichment analysis (GSEA).

RESULTS

Results showed that almost all ovarian cancer patients (99.31%) have CNVs with at least 1 m6A regulatory gene, whereas 83.76% of cases exhibited concurrence of CNVs in more than 4 m6A regulatory genes. Additionally, alteration of m6A regulators was associated with historical grade, whereas integrative bioinformatics and Cox multivariate model analysis revealed a significant correlation between high WTAP expression and worse ovarian cancer outcomes. Moreover, GSEA revealed that high WTAP expression was associated with cell cycle regulation and MYC targets.

CONCLUSION

Overall, our findings demonstrate the significance of high-frequency genetic alterations of m6A RNA methylation regulators and WTAP's poor prognosis value in OC. These findings provide valuable insights into the role of m6A methylation in OC, and will be vital in guiding development of novel treatment therapies.

Development and Clinical Validation of a Seven-Gene Prognostic Signature Based on Multiple Machine Learning Algorithms in Kidney Cancer

About a third of patients with kidney cancer experience recurrence or cancer-related progression. Clinically, kidney cancer prognoses may be quite different, even in patients with kidney cancer at the same clinical stage. Therefore, there is an urgent need to screen for kidney cancer prognosis biomarkers. Differentially expressed genes (DEGs) were identified using kidney cancer RNA sequencing data from the Gene Expression Omnibus (GEO) database. Biomarkers were screened using random forest (RF) and support vector machine (SVM) models, and a multigene signature was constructed using the least absolute shrinkage and selection operator (LASSO) regression analysis. Univariate and multivariate Cox regression analyses were performed to explore the relationships between clinical features and prognosis. Finally, the reliability and clinical applicability of the model were validated, and relationships with biological pathways were identified. Western blots were also performed to evaluate gene expression. A total of 50 DEGs were obtained by intersecting the RF and SVM models. A seven-gene signature (RNASET2, EZH2, FXYD5, KIF18A, NAT8, CDCA7, and WNT7B) was constructed by LASSO regression. Univariate and multivariate Cox regression analyses showed that the seven-gene signature was an independent prognostic factor for kidney cancer. Finally, a predictive nomogram was established in The Cancer Genome Atlas (TCGA) cohort and validated internally. In tumor tissue, RNASET2 and FXYD5 were highly expressed and NAT8 was lowly expressed at the protein and transcription levels. This model could complement the clinicopathological characteristics of kidney cancer and promote the personalized management of patients with kidney cancer.

Wilms' tumor 1-associating protein contributes to psoriasis by promoting keratinocytes proliferation via regulating cyclinA2 and CDK2

BACKGROUND

Wilms' tumor 1-associating protein (WTAP) is a ubiquitously expressed nuclear protein, and involved in multiple pathophysiological processes, including cell cycle, RNA splicing and stabilization, N6-methyladenosine RNA modification, cell proliferation, and apoptosis as well as embryonic development. Here, we investigated the specific role of WTAP in the pathogenesis of psoriasis and its underlying mechanism.

METHODS

Reverse transcription-quantitative polymerase chain reaction (RT-qPCR), western blot analyses and multi-spectrum immunohistochemistry were applied to evaluate the level of WTAP expression in psoriatic skin and normal skin. HaCaT cells was stably transfected with WTAP small interfering (si)RNA and plasmid using Lipofectamine®2000 and proliferation was determined by CCK8. Apoptosis and cell cycle analysis were conducted by flow cytometry. Western blot assay was used to explore the expression levels of cell cycle-related proteins in HaCaT cells after WTAP overexpression or inhibition. Furthermore, HaCaT cells were stimulated with proinflammatory cytokines (ie, IL-17A, IL-22, IL-1a, oncostatin M, and TNF-a) to assess WTAP expression.

RESULTS

We demonstrated that the mRNA and protein levels of WTAP were significantly increased in lesional skins of psoriasis patients and psoriatic cell model compared with normal controls. WTAP was highly expressed in epidermis rather than dermis. Overexpression of WTAP promoted keratinocytes proliferation, which might be related to the up-regulation of cyclinA2 and CDK2.

CONCLUSIONS

These results indicate that overexpression of WTAP may contribute to the pathogenesis of psoriasis by regulating cell cycle progression and highlight WTAP as a potential therapeutic target for psoriasis treatment.

Innate Immune Response Regulation by the Human RNASET2 Tumor Suppressor Gene

The link between cancer development or progression and immune system dysregulation has long been established. Virtually every cell type belonging to both the innate and adaptive immune system has been reported to be involved in a complex interplay that might culminate into either a pro- or anti-tumorigenic response. Among the cellular components of the innate immune system, cells belonging to the monocyte/macrophage lineage have been consistently shown to play a key role in the tumorigenic process. The most advanced human tumors are reported to be strongly infiltrated with Tumor-Associated Macrophages (TAMs) endowed with the ability to contribute to tumor growth and dissemination. However, given their widely acknowledged functional plasticity, macrophages can display anti-tumor properties as well. Based on these premises, experimental approaches to promote the in vivo macrophage shift from pro-tumor to anti-tumor phenotype represent one of the most promising research field aimed at developing immune system-mediated tumor suppressive therapies. In this context, the human RNASET2 oncosuppressor gene has emerged as a potential tool for macrophage-mediated tumor suppression. A growing body of experimental evidence has been reported to suggest a role for this gene in the regulation of macrophage activity in both in vitro and in vivo experimental models. Moreover, several recent reports suggest a role for this gene in a broad range of cell types involved in immune response, pointing at RNASET2 as a putative regulator of several functional features within the immune system.

Genomic Amplifications and Distal 6q Loss: Novel Markers for Poor Survival in High-risk Neuroblastoma Patients

Background

Neuroblastoma is characterized by substantial clinical heterogeneity. Despite intensive treatment, the survival rates of high-risk neuroblastoma patients are still disappointingly low. Somatic chromosomal copy number aberrations have been shown to be associated with patient outcome, particularly in low- and intermediate-risk neuroblastoma patients. To improve outcome prediction in high-risk neuroblastoma, we aimed to design a prognostic classification method based on copy number aberrations.

Methods

In an international collaboration, normalized high-resolution DNA copy number data (arrayCGH and SNP arrays) from 556 high-risk neuroblastomas obtained at diagnosis were collected from nine collaborative groups and segmented using the same method. We applied logistic and Cox proportional hazard regression to identify genomic aberrations associated with poor outcome.

Results

In this study, we identified two types of copy number aberrations that are associated with extremely poor outcome. Distal 6q losses were detected in 5.9% of patients and were associated with a 10-year survival probability of only 3.4% (95% confidence interval [CI] = 0.5% to 23.3%, two-sided P = .002). Amplifications of regions not encompassing the MYCN locus were detected in 18.1% of patients and were associated with a 10-year survival probability of only 5.8% (95% CI = 1.5% to 22.2%, two-sided P < .001).

Conclusions

Using a unique large copy number data set of high-risk neuroblastoma cases, we identified a small subset of high-risk neuroblastoma patients with extremely low survival probability that might be eligible for inclusion in clinical trials of new therapeutics. The amplicons may also nominate alternative treatments that target the amplified genes.

The LATS1 and LATS2 tumor suppressors: beyond the Hippo pathway

Proper cellular functionality and homeostasis are maintained by the convergent integration of various signaling cascades, which enable cells to respond to internal and external changes. The Dbf2-related kinases LATS1 and LATS2 (LATS) have emerged as central regulators of cell fate, by modulating the functions of numerous oncogenic or tumor suppressive effectors, including the canonical Hippo effectors YAP/TAZ, the Aurora mitotic kinase family, estrogen signaling and the tumor suppressive transcription factor p53. While the basic functions of the LATS kinase module are strongly conserved over evolution, the genomic duplication event leading to the emergence of two closely related kinases in higher organisms has increased the complexity of this signaling network. Here, we review the LATS1 and LATS2 intrinsic features as well as their reported cellular activities, emphasizing unique characteristics of each kinase. While differential activities between the two paralogous kinases have been reported, many converge to similar pathways and outcomes. Interestingly, the regulatory networks controlling the mRNA expression pattern of LATS1 and LATS2 differ strongly, and may contribute to the differences in protein binding partners of each kinase and in the subcellular locations in which each kinase exerts its functions.

WT1-associated protein is a novel prognostic factor in pancreatic ductal adenocarcinoma

Although Wilms tumor 1 (WT1)-associated protein (WTAP) was initially found to be a specific WT1-binding protein, it has increasingly attracted attention because of its oncogenic role in various types of malignancies, including cholangiocarcinoma, glioblastoma and acute myeloid leukemia. However, the clinical impact of WTAP on pancreatic ductal adenocarcinoma (PDAC) is still unknown. A total of 145 patients who underwent surgical treatment from 2004 to 2008 were enrolled in the present study. The cytoplasmic and nuclear expression of WTAP in tumor and adjacent normal tissues was examined by immunohistochemical analysis in order to investigate the relationship between WTAP and the clinicopathological factors and prognosis of patients with PDAC. The nuclear and cytoplasmic expression of WTAP in tumor tissues was significantly higher compared with non-tumor tissues (P<0.001). High expression of WTAP in the nucleus was significantly associated with gender (P=0.010) and tumor stage (P=0.020), while high expression of WTAP in the cytoplasm was significantly associated with gender (P=0.018), histological grade (P=0.047) and perineural invasion (P=0.028). In addition, a univariate analysis revealed that high nuclear expression of WTAP in tumor tissues was significantly associated with poor overall survival (P<0.001), as well as several clinicopathological variables, including gender and N stage. In a multivariate Cox regression analysis, nuclear WTAP expression was identified as an independent prognostic indicator for PDAC (relative risk, 1.855; 95% confidence interval, 1.033–3.333; P=0.039). The results of the present study indicated that high nuclear expression of WTAP is a valuable molecular biomarker of a poor prognosis among patients with PDAC.

Human recombinant RNASET2: A potential anti-cancer drug

The roles of cell motility and angiogenetic processes in metastatic spread and tumor aggressiveness are well established and must be simultaneously targeted to maximize antitumor drug potency. This work evaluated the antitumorigenic capacities of human recombinant RNASET2 (hrRNASET2), a homologue of the Aspergillus niger T2RNase ACTIBIND, which has been shown to display both antitumorigenic and antiangiogenic activities. hrRNASET2 disrupted intracellular actin filament and actin-rich extracellular extrusion organization in both CT29 colon cancer and A375SM melanoma cells and induced a significant dose-dependent inhibition of A375SM cell migration. hrRNASET2 also induced full arrest of angiogenin-induced tube formation and brought to a three-fold lower relative HT29 colorectal and A375SM melanoma tumor volume, when compared to Avastin-treated animals. In parallel, mean blood vessel counts were 36.9% lower in hrRNASET2-vs. Avastin-treated mice and survival rates of hrRNASET2-treated mice were 50% at 73 days post-treatment, while the median survival time for untreated animals was 22 days. Moreover, a 60-day hrRNASET2 treatment period reduced mean A375SM lung metastasis foci counts by three-fold when compared to untreated animals. Taken together, the combined antiangiogenic and antitumorigenic capacities of hrRNASET2, seemingly arising from its direct interaction with intercellular and extracellular matrices, render it an attractive anticancer therapy candidate.

Decreased expression of LATS1 is correlated with the progression and prognosis of glioma

Background

LATS1 is a tumor suppressor genes implicated in the pathogenesis of certain types of tumors, but its role is not known in human glioma.

Methods

Using real-time PCR and immunohistochemistry, we detected the mRNA and protein expression of LATS1 in glioma. The effect of LATS1 on cell growth and invasion were investigated.

Results

We found that mRNA and protein of LATS1 expression is significantly downregulated in glioma compared with normal control brain tissues. Furthermore, reduced LATS1 expression was markedly negatively correlated with WHO grade and KPS (p<0.001 and p<0.001) in glioma patients. Patients with lower LATS1 expression had a significantly shorter overall survival time than did patients with higher LATS1 expression. Multivariate analysis suggested that the level of LATS1 expression was an independent prognostic indicator (p<0.001) for the survival of patients with glioma. Forced expression of LATS1 in glioma U251 cells not only significantly suppressed cell growth, migration and invasion, but retarded cell cycle progression from G2/M to G1 in vitro. Finally, we found that overexpressed LATS1 markedly inhibited the expression level of cell cycle factor CCNA1.

Conclusion

These results indicate that LATS1 is an important candidate tumor suppressor and its downregulated expression may contribute to glioma progression.

Heat shock protein 90 inhibition depletes LATS1 and LATS2, two regulators of the mammalian hippo tumor suppressor pathway

Heat shock protein 90 (HSP90), which regulates the functions of multiple oncogenic signaling pathways, has emerged as a novel anticancer therapeutic target, and multiple small-molecule HSP90 inhibitors are now in clinical trials. Although the effects of HSP90 inhibitors on oncogenic signaling pathways have been extensively studied, the effects of these agents on tumor suppressor signaling pathways are currently unknown. Here, we have examined how HSP90 inhibitors affect LATS1 and the related protein LATS2, two kinases that relay antiproliferative signals in the Hippo tumor suppressor pathway. Both LATS1 and LATS2 were depleted from cells treated with the HSP90 inhibitors 17-allylamino-17-demethoxygeldanamycin (17-AAG), radicicol, and PU-H71. Moreover, these kinases interacted with HSP90, and LATS1 isolated from 17-AAG-treated cells had reduced catalytic activity, thus showing that the kinase is a bona fide HSP90 client. Importantly, LATS1 signaling was disrupted by 17-AAG in tumor cell lines in vitro and clinical ovarian cancers in vivo as shown by reduced levels of LATS1 and decreased phosphorylation of the LATS substrate YAP, an oncoprotein transcriptional coactivator that regulates genes involved in cell and tissue growth, including the CTGF gene. Consistent with the reduced YAP phosphorylation, there were increased levels of CTGF, a secreted protein that is implicated in tumor proliferation, metastasis, and angiogenesis. Taken together, these results identify LATS1 and LATS2 as novel HSP90 clients and show that HSP90 inhibitors can disrupt the LATS tumor suppressor pathway in human cancer cells.

Allelic loss of 6q25-27, the PARKIN tumor suppressor gene locus, in cervical carcinoma

Studies on loss of heterozygosity have been made for Parkin gene-specific microsatellite markers in malignancies like breast, ovary and lungs, and the results have shown a significant association. However, till date, there is no study with respect to Parkin gene-associated microsatellite markers in cervical cancer. The present study deals with the Parkin gene-associated microsatellite markers and the occurrence of its loss of heterozygosity in patients with human cervical cancer. DNA was isolated from the 105 cervical carcinoma samples and matched control specimens. Polymerase chain reaction was performed using primer specific for two intragenic markers D6S1599 and D6S305 present in Parkin introns 2 and 7, respectively, and one marker (D6S1008) at telomeric end and further electrophoresed on 8% denaturing polyacrylamide gel. Overall, 59 of 105 (56%) samples showed loss of heterozygosity in at least one locus in the region examined. The percentage of loss of heterozygosity for these markers ranged from 25% (D6S1008) to 48% (D6S305). Chi-square test was performed, and loss of heterozygosity was found significantly higher in both the intragenic markers (D6S1599 and D6S305) when compared with the locus at telomeric end (D6S1008) with P<0.05. These data argue that Parkin is a tumor suppressor gene whose inactivation may play an important role in the carcinoma of uterine cervix.

Binding assay and preliminary X-ray crystallographic analysis of ACTIBIND, a protein with anticarcinogenic and antiangiogenic activities

ACTIBIND is a T2 RNase extracellular glycoprotein produced by the mould Aspergillus niger B1 (CMI CC 324626) that possesses anticarcinogenic and antiangiogenic activities. ACTIBIND was found to be an actin-binding protein that interacts with rabbit muscle actin in a 1:2 molar ratio (ACTIBIND:actin) with a binding constant of 16.17 x 10(4) M(-1). Autoclave-treated ACTIBIND (EI-ACTIBIND) lost its RNase activity, but its actin-binding ability was conserved. ACTIBIND crystals were grown using 20% PEG 3350, 0.2 M ammonium dihydrogen phosphate solution at room temperature (293 K). One to four single crystals appeared in each droplet within a few days and grew to approximate dimensions of 0.5 x 0.5 x 0.5 mm after about two weeks. Diffraction studies of these crystals at low temperature (100 K) indicated that they belong to the P3(1)21 space group, with unit-cell parameters a = 78, b = 78, c = 104 A.

Low LATS2 mRNA level can predict favorable response to epirubicin plus cyclophosphamide, but not to docetaxel, in breast cancers

PURPOSE

Putative tumor suppressor genes LATS1 and LATS2 are implicated in the regulation of the cell cycle at the G2/M and G1/S phase, respectively. This study investigated possible correlations of intra-tumoral LATS1 and LATS2 mRNA levels with response to epirubicin plus cyclophosphamide (EC) or docetaxel (DOC) treatment.

METHODS

mRNA expression levels of LATS1 and LATS2 were determined by means of real-time PCR assay in 56 locally advanced breast cancers and 15 recurrent breast cancers treated with EC (n = 32) or DOC (n = 39).

RESULTS

Among the patients treated with EC, LATS2 mRNA levels of responders (0.72 +/- 0.11, mean +/- SE) were significantly (P < 0.05) lower than those of non-responders (1.62 +/- 0.44), and responders showed a tendency (P = 0.05) towards reduced LATS1 mRNA levels. Patients with low LATS2 mRNA levels (n = 16) showed a significantly (P < 0.05) higher response rate (75%) to EC treatment than those with high LATS2 mRNA levels (n = 16; response rate = 31%). Positive predictive value, negative predictive value, and diagnostic accuracy of LATS2 mRNA levels for prediction of response to EC were 75, 69, and 72%, respectively. On the other hand, neither LATS1 nor LATS2 mRNA levels were associated with response to DOC treatment.

CONCLUSION

These results suggest the possibility that intra-tumoral LATS2 mRNA levels may be clinically useful for the prediction of response to EC treatment by breast cancer patients. We speculate that disruption of the checkpoint function at the G1/S phase induced by down-regulation of LATS2 plays some part in the favorable response to EC.

RPS6KA2, a putative tumour suppressor gene at 6q27 in sporadic epithelial ovarian cancer

We had previously defined by allele loss studies a minimal region at 6q27 (between D6S264 and D6S297) to contain a putative tumour suppressor gene. The p90 ribosomal S6 kinase-3 gene (p90 Rsk-3, RPS6KA2) maps in this interval. It is a serine-threonine kinase that signals downstream of the mitogen-activated protein kinase pathway. It is expressed in normal ovarian epithelium, whereas reduced or absent in tumours or cell lines. We show that RPS6KA2 is monoallelically expressed in the ovary suggesting that loss of a single expressed allele is sufficient to cause complete loss of expression in cancer cells. Further, we have identified two new isoforms of RPS6KA2 with an alternative start codon. Homozygous deletions were identified within the RPS6KA2 gene in two cell lines. Re-expression of RPS6KA2 in ovarian cancer cell lines suppressed colony formation. In UCI101 cells, the expression of RPS6KA2 reduced proliferation, caused G1 arrest, increased apoptosis, reduced levels of phosphorylated extracellular signal-regulated kinase and altered other cell cycle proteins. In contrast, small interfering RNA against RPS6KA2 showed the opposite effect in 41M cells. The above results suggest that RPS6KA2 is a putative tumour suppressor gene to explain allele loss at 6q27.

ACTIBIND, an actin-binding fungal T2-RNase with antiangiogenic and anticarcinogenic characteristics

BACKGROUND

ACTIBIND is an Aspergillus niger extracellular ribonuclease (T2-ribonuclease [RNase]) that possesses actin-binding activity. In plants, ACTIBIND inhibits the elongation and alters the orientation of pollen tubes by interfering with the intracellular actin network. The question rose whether ACTIBIND can also affect mammalian cancer development.

METHODS

Cell colony formation was performed in human colon (HT-29, Caco-2, RSB), breast (ZR-75-1), and ovarian (2780) cancer cells in the presence or absence of 1 muM ACTIBIND. In HT-29 and ZR-75-1 cells, the effect of ACTIBIND on cell migration was studied by microscopic observations and by invasion assay through Matrigel. Tube formation was assessed in human umbilical vein endothelial cells (HUVEC) in the presence of angiogenin or basic fibroblast growth factor (bFGF) (1 microg/mL each) following overnight incubation with 1 or 10 microM ACTIBIND. In an athymic mouse xenograft model, HT-29 cells were injected subcutaneously, followed by subcutaneous (0.4-8 mg/mouse/injection) or intraperitoneal (0.001-1 mg/mouse/injection) injections of ACTIBIND. In a rat dimethylhydrazine (DMH)-colorectal carcinogenesis model, ACTIBIND was released directly into the colon via osmotic micropumps (250 microg/rat/day) or given orally via microcapsules (1.6 mg/rat/day). Aberrant crypt foci, tumors in the distal colon, and tumor blood vessels were examined.

RESULTS

ACTIBIND had an anticlonogenic effect unrelated to its ribonuclease activity. It also inhibited angiogenin-induced HUVEC tube formation in a dose-responsive manner. ACTIBIND was found to bind actin in vitro. It also bound to cancer cell surfaces, leading to disruption of the internal actin network and inhibiting cell motility and invasiveness through Matrigel-coated filters. In mice, ACTIBIND inhibited HT-29 xenograft tumor development, given either as a subcutaneous or intraperitoneal treatment. In rats, ACTIBIND exerted preventive and therapeutic effects on developing colonic tumors induced by DMH. It also reduced the degree of tumor observation.

CONCLUSIONS

This study indicated that ACTIBIND is an effective antiangiogenic and anticarcinogenic factor.

A recombinant human RNASET2 glycoprotein with antitumorigenic and antiangiogenic characteristics

BACKGROUND

Human RNASET2 is a T2-RNase glycoprotein encoded by the RNASET2 gene, which is located on chromosome 6 (6q27). Deletion in 6q27 is associated with several human malignancies.

METHODS

A synthetic RNASET2 gene that was optimized for expression in the yeast Pichia pastoris was designed according to the cDNA sequence and was cloned under the control of the methanol-induced promoter fused to the alpha-mating secretion peptide. The recombinant protein was purified from the culture supernatant of transformed P. pastoris through an affinity Sepharose-concanavalin A column. Actin-binding activity was examined by membrane blotting using monoclonal mouse antiactin immunoglobulin M and by cross-linking in solution to G-actin using 1-[3-(dimethylamino)propyl]-3-ethyl-carboimide methiodide. The antiangiogenic activity of RNASET2 (from 0.5 microM to 10 microM) was assessed by a human umbilical vein endothelial (HUVE) cell assay in the presence of 1 microg/mL angiogenin, basic fibroblast growth factor (bFGF), or recombinant human vascular endothelial growth factor (VEGF). Cell colony formation was examined in human colon HT29 cancer cells to assess the antitumorigenic activity of RNASET2 or the enzymatic-inactivated RNASET2 (EI-RNASET2) (1 microM each). In an athymic mouse xenograft model, LS174T human cancer cells were injected subcutaneously. When tumors were palpable, the mice were treated for 3 weeks with RNASET2 (1 mg/kg), paclitaxel (10 mg/kg or 15 mg/kg), or a combination of the 2 drugs.

RESULTS

The recombinant RNASET2 was identified as a 27-kilodalton glycoprotein that possessed the ability to bind actin in vitro. RNASET2 significantly inhibited clonogenicity in HT29 cells. EI-RNASET2 produced a similar effect, suggesting that its antitumorigenic activity is unrelated to its RNase activity. In HUVE cells, RNASET2 inhibited angiogenin-, bFGF-, and VEGF-induced tube formation in a dose-dependent manner. In athymic mice, RNASET2 inhibited the development of an LS174T-derived xenograft by 40%. A synergistic effect was obtained with combined RNASET2 and paclitaxel treatments.

CONCLUSIONS

The current results suggested that RNASET2 represents a new class of antitumorigenic and antiangiogenic drugs, and the findings of this study emphasize the advantage of using agents like RNASET2 in combined therapy.

Characterization of genomic instability in ulcerative colitis neoplasia leads to discovery of putative tumor suppressor regions

Ulcerative colitis (UC) is an inflammatory disease of the colon that is associated with increased risk of colorectal cancer associated with genomic instability. We have previously demonstrated that genomic instability is present in UC patients with colonic neoplasia, and hypothesized that the chromosomal alterations may be taking place in regions that are susceptible to mutation or that provide a growth advantage to a cell undergoing neoplastic transformation. In this study, we used two polymerase chain reaction (PCR)-based DNA fingerprinting techniques (arbitrarily primed PCR and inter-simple-sequence-repeat PCR) to study the process of genomic instability. The two techniques of DNA fingerprinting cross-validate the instability observed in these studies. We analyzed the molecular basis of 10 commonly altered DNA bands obtained from DNA fingerprints of biopsies from various histologic grades of UC patients with dysplasia or cancer (UC Progressors). We determined that the band changes in the fingerprint truly represent changes in DNA sequence, and that the fingerprinting provides highly reproducible results. Furthermore, our investigation revealed that 40% of alterations involve repetitive sequences. Two frequently deleted sequences in 6q27 and 2q14 were studied further because they were frequently abnormal in the dysplastic and nondysplastic tissue of UC Progressors. The losses from 6q27 and 2q14 were confirmed by loss of heterozygosity and real-time PCR analysis. Both of these regions in chromosomes 6 and 2 are surrounded by highly repetitive and mobile LINE-1 elements, possibly making the region susceptible to mutational change. These regions were affected (lost) in UC Progressors but not in UC patients who were neoplasia free. Loss of heterozygosity at 6q27 has been described in ovarian and other cancers, while the 2q14 region has been implicated in prostate and sporadic colon cancers. Both regions are likely to contain tumor-suppressor genes. In conclusion, the genomic instability in UC Progressors can occur in regions that are susceptible to change and are locations of putative tumor-suppressor genes.

Mutational analysis of the estrogen receptor-alpha gene in familial ovarian cancer

AIM

The genetic region of 6q25 containing the estrogen receptor-alpha (ER-alpha) gene is lost in a significant number of ovarian tumors. The aim of this study was to identify how inherited variation in the ER-alpha gene contributes to susceptibility to familial ovarian cancer.

METHODS

DNA obtained from 18 cases of familial ovarian cancer without mutation of the BRCA1 and BRCA2 genes, 20 cases with BRCA1 mutation, 20 cases of sporadic ovarian cancer, and 19 controls were screened for mutations in the coding region of the ER-alpha gene using direct sequencing.

RESULTS

Two germline missense variants at codons 307 [GCC(Ala)-->TCC(Ser)] and 347 [ACC(Thr)-->TCC(Ser)] were detected in two unrelated cases with BRCA1 mutation, but not in all other cases tested. Three polymorphisms in codon 10 [TCT-->TCC(Ser)], codon 325 [CCC-->CCG(Pro)], and codon 594 [ACA-->ACG(Thr)] were identified in this series, and a higher frequency of the allele TCC at codon 10 and a lower frequency of the allele CCG at codon 325 were observed in familial cases without BRCA1 mutation, compared with those in familial cases with BRCA1 mutation, in both the sporadic cases and in the controls.

CONCLUSIONS

We could not detect pathogenic mutations of the ER-alpha gene in ovarian cancer cases without BRCA1 mutation. However, association analyses of two polymorphisms suggest that the ER-alpha gene or a gene located close to the ER-alpha locus might be related to susceptibility of familial ovarian cancer without BRCA1 mutation.

Down-regulation of LATS1 and LATS2 mRNA expression by promoter hypermethylation and its association with biologically aggressive phenotype in human breast cancers

PURPOSE

LATS1 and LATS2 are tumor suppressor genes implicated in the regulation of cell cycle. Methylation status of the promoter regions of these genes as well as its correlation with their mRNA levels were studied in human breast cancers. Correlation of LATS1 and LATS2 mRNA levels with clinicopathologic characteristics of breast tumors were also studied.

EXPERIMENTAL DESIGN

Methylation status of promoter regions of LATS1 and LATS2 was studied by a methylation-specific PCR and mRNA expression levels of LATS1 and LATS2 were determined by a real-time PCR assay in 30 breast cancers. In addition, correlation of LATS1 and LATS2 mRNA levels with clinicopathologic characteristics was studied in 117 breast cancers.

RESULTS

Methylation-specific PCR showed that of 30 tumors, LATS1 promoter region was hypermethylated in 17 tumors (56.7%) and LATS2 promoter region was hypermethylated in 15 (50.0%) tumors. LATS1 mRNA levels in breast tumors with hypermethylation (2.15 +/- 0.37, mean +/- SE) were significantly (P < 0.01) lower than those without hypermethylation (6.09 +/- 1.38), and LATS2 mRNA levels in breast tumors with hypermethylation (1.42 +/- 0.66) were also significantly (P < 0.01) lower than those without hypermethylation (3.10 +/- 1.00). The decreased expression of LATS1 or LATS2 mRNA was significantly associated with a large tumor size, high lymph node metastasis, and estrogen receptor and progesterone receptor negativity. Furthermore, the decreased expression of LATS1 mRNA, but not LATS2 mRNA, was significantly (P < 0.05) associated with a poor prognosis.

CONCLUSIONS

Hypermethylation of the promoter regions of LATS1 and LATS2 likely plays an important role in the down-regulation of their mRNA levels in breast cancers, and breast cancers with a decreased expression of LATS1 or LATS2 mRNA levels have a biologically aggressive phenotype.

Polymorphism in the manganese superoxide dismutase (MnSOD) gene and risk of breast cancer in young women

PURPOSE

Manganese superoxide dismutase (MnSOD) is one of the major enzymes implicated in the cellular defence against reactive oxygen species. Low expression of MnSOD has been observed in different cancer tissues and several reports have shown that overexpression of MnSOD inhibits growth in various human cancer cells. These observations suggest that MnSOD is involved in carcinogenesis. A polymorphism (Ala-9Val) in the mitochondrial targeting sequence (MTS) of the MnSOD gene has been proposed to affect protein localization and thereby influence cellular defence against superoxide radicals.

METHODS

In the present case-control study, including 118 early onset breast cancer patients (<or=36 years) and 174 age-matched controls, the MTS polymorphism and loss of heterozygosity (LOH) in the locus of MnSOD were analysed.

RESULTS

We found that individuals with MnSOD(Val/Val) and MnSOD(Val/Ala) genotypes showed an increased risk of breast cancer (OR, 2.7; 95% CI, 2.2-5.5, p=0.01, OR, 3.0; 95%CI, 1.4-6.5, p=0.002). Moreover, 45% of the informative cases expressed allelic loss at the chromosomal locus of the MnSOD gene. No correlation was found between LOH and the genotype.

CONCLUSION

The present study suggests that MnSOD may be implicated in breast carcinogenesis in young women.

Allelic loss of chromosome 6q in gastric carcinoma

Loss of the long arm of chromosome 6 (6q) has frequently been reported in gastric carcinoma, and most gastric cancer patients have evidence of intestinal metaplasia in the stomach. However, the relationship between loss of chromosome 6q and intestinal metaplasia has not been studied. In the first part of the study, we define the critical deletion region of chromosome 6q using loss of heterozygosity technique (LOH). Seventeen microsatellite markers were used to detect loss of heterozygosity (LOH) in 37 microdissected gastric tumors. We also examined intestinal metaplasia (IM) foci of the stomach in the same cancer patient (17 cases). Losses on chromosome 6q were detected in high frequency (51%) by LOH. Two distinct regions of common allelic loss were identified: one centered on the marker D6S300 (at 6q16.1) and the second on D6S446 (at 6q27), with LOH frequency of 36% and 31.3%, respectively. The deletions fall into 2 discrete regions, suggesting the existence of at least 2 tumor suppressor genes in 6q. The losses at 6q27 were confirmed by fluorescence in situ hybridization study (FISH). In the cases with LOH in the tumor, no LOH were detected in the autologous IM areas, but losses were detected by FISH. In some cases, these genetic changes may be acquired in the transition from normal gastric mucosa to intestinal metaplasia.

Allelic Imbalance Mapped to 6q14.1 Is Associated With Loss of Expression of 5-HT Receptor 1B in Non-Hodgkin Lymphomas

Previous studies on lymphomas suggested that the long arm of chromosome 6 harbors 1 or more tumor suppressor genes. This study analyzed the status of 25 microsatellite markers in 39 cases, including 9 nodal and 30 extranodal, of non-Hodgkin lymphomas. Thirty of the 39 cases (77%) showed abnormality in at least 1 of the markers. Of the 655 informative results, 135 (20%) were abnormal. These included 5 homozygous deletions, 91 allelic imbalances (AI), and 38 microsatellite instability. The 2 commonest regions of abnormality were mapped to 6q14.1 and 6q27. There was no significant difference in the frequency of these regional losses between nodal and extranodal lymphomas, B-or T-cell lineage, and association with Epstein-Barr virus. The first common deletion region at 6q14.1 is flanked by the HTR1B (5-hydroxytryptamine receptor 1B) gene proximally and a novel unknown gene. AI in the region was found associated with loss of expression HTR1B by RT-PCR. The deletion region at 6q27 was narrowed to approximately 3Mb and maximal at marker D6S386. This locus includes the recently identified SMOC2 (secreted modular calcium-binding protein 2), AF6, and DLL1 (human delta-like 1 protein) genes. RT-PCR analyses of AF6 and DLL1 expression showed poor correlation with the AI results.

Genetic and cytogenetic observations among different types of ovarian tumors are compatible with a progression model underlying ovarian tumorigenesis

In this report we present the characterization of ovarian neoplasms including benign tumors, borderline tumors, and invasive carcinomas in order to assess whether a sharing of cytogenetic abnormalities is present in all three types of tumors. A cohort of 114 newly diagnosed and untreated ovarian epithelial tumors were analyzed by cytogenetic and molecular cytogenetic approaches with probes specific for chromosome 6. Three groups of chromosome abnormalities were identified: the first group included abnormalities common to all tumor classes (losses of chromosomes 6, 8, 10, 11, 15, 16, 17, 18, 19, 20, 21, 22, and X; gains of chromosomes 1, 3, 5, and 12; 6q24 approximately qter deletions); the second group presented specific abnormalities present in malignant but not in benign tumors (losses of chromosomes 2, 7, 13, and 14; gains of chromosome 4 and chromosome markers); and the last group included abnormalities unique to invasive carcinomas (loss of chromosome 4; gains of chromosomes 2, 7, 8, 9, 10, 16, 17, 18, 19, 20, and 21; 6q16 approximately q24 deletions; rearrangements of 3p, 3q, 13q, and 21q regions). The presence of shared chromosomal alterations in all three types of ovarian neoplasms investigated in this report seems therefore to suggest a progression model for these types of tumors.

Loss of heterozygosity on chromosome 6q correlates with decreased thrombospondin-2 expression in human salivary gland carcinomas

Since loss of heterozygosity (LOH) on the long arm of chromosome 6q is frequently observed in salivary gland carcinomas, we examined 28 salivary gland carcinomas using 24 microsat- ellite markers mapping to 6q15-27 to identify the commonly deleted region that we felt might contain one or more tumor suppressor genes. LOH was detected in at least one locus in 10 of 28 tumors (35.7%). The most frequently deleted regions occurred between D6S1581 and D6S305 (LOH cluster region 1 (LCR1) and between D6S297 and D6S1590 (LCR2). LOH was observed in 60% of adenoid cystic carcinomas (ACC) and in 57.1% of mucoepidermoid carcinomas (MEC), but was not observed in any locus in any other histological subtypes studied. The gene encoding for thrombospondin-2 (TSP-2) is located in LCR2 and 8 of 9 tumors demonstrating LOH in this region also showed significantly decreased TSP-2 expression by immunohistochemistry. As TSP-2 is a potent inhibitor of tumor growth and angiogenesis, we examined whether TSP-2 expression correlated to microvascular angiogenesis in these tumors and discovered that microvessel counts were significantly higher in lesions with decreased TSP-2 expression (P = 0.02). Our results suggest that 6q LOH may be a significant event in salivary gland carcinogenesis, particularly in ACC and MEC, and that the correlated decrease of TSP-2 expression also plays a critical role.

Parkin, a gene implicated in autosomal recessive juvenile parkinsonism, is a candidate tumor suppressor gene on chromosome 6q25-q27

In an effort to identify tumor suppressor gene(s) associated with the frequent loss of heterozygosity observed on chromosome 6q25-q27, we constructed a contig derived from the sequences of bacterial artificial chromosomeP1 bacteriophage artificial chromosome clones defined by the genetic interval D6S1581-D6S1579-D6S305-D6S1599-D6S1008. Sequence analysis of this contig found it to contain eight known genes, including the complete genomic structure of the Parkin gene. Loss of heterozygosity (LOH) analysis of 40 malignant breast and ovarian tumors identified a common minimal region of loss, including the markers D6S305 (50%) and D6S1599 (32%). Both loci exhibited the highest frequencies of LOH in this study and are each located within the Parkin genomic structure. Whereas mutation analysis revealed no missense substitutions, expression of the Parkin gene appeared to be down-regulated or absent in the tumor biopsies and tumor cell lines examined. In addition, the identification of two truncating deletions in 3 of 20 ovarian tumor samples, as well as homozygous deletion of exon 2 in the lung adenocarcinoma cell lines Calu-3 and H-1573, supports the hypothesis that hemizygous or homozygous deletions are responsible for the abnormal expression of Parkin in these samples. These data suggest that the LOH observed at chromosome 6q25-q26 may contribute to the initiation andor progression of cancer by inactivating or reducing the expression of the Parkin gene. Because Parkin maps to FRA6E, one of the most active common fragile sites in the human genome, it represents another example of a large tumor suppressor gene, like FHIT and WWOX, located at a common fragile site.

The human homologue of unc-93 maps to chromosome 6q27 - characterisation and analysis in sporadic epithelial ovarian cancer

BACKGROUND

In sporadic ovarian cancer, we have previously reported allele loss at D6S193 (62%) on chromosome 6q27, which suggested the presence of a putative tumour suppressor gene. Based on our data and that from another group, the minimal region of allele loss was between D6S264 and D6S149 (7.4 cM). To identify the putative tumour suppressor gene, we established a physical map initially with YACs and subsequently with PACs/BACs from D6S264 to D6S149. To accelerate the identification of genes, we sequenced the entire contig of approximately 1.1 Mb. Seven genes were identified within the region of allele loss between D6S264 and D6S149.

RESULTS

The human homologue of unc-93 (UNC93A) in C. elegans was identified to be within the interval of allele loss centromeric to D6S149. This gene is 24.5 kb and comprises of 8 exons. There are two transcripts with the shorter one due to splicing out of exon 4. It is expressed in testis, small intestine, spleen, prostate, and ovary. In a panel of 8 ovarian cancer cell lines, UNC93A expression was detected by RT-PCR which identified the two transcripts in 2/8 cell lines. The entire coding sequence was examined for mutations in a panel of ovarian tumours and ovarian cancer cell lines. Mutations were identified in exons 1, 3, 4, 5, 6 and 8. Only 3 mutations were identified specifically in the tumour. These included a c.452G>A (W151X) mutation in exon 3, c.676C>T (R226X) in exon 5 and c.1225G>A(V409I) mutation in exon 8. However, the mutations in exon 3 and 5 were also present in 6% and 2% of the normal population respectively. The UNC93A cDNA was shown to express at the cell membrane and encodes for a protein of 60 kDa.

CONCLUSIONS

These results suggest that no evidence for UNC93A as a tumour suppressor gene in sporadic ovarian cancer has been identified and further research is required to evaluate its normal function and role in the pathogenesis of ovarian cancer.

Glutaric aciduria type III: a distinctive non-disease?

Glutaric aciduria type III is a rare metabolic abnormality leading to persistent isolated glutaric acid excretion. We report the clinical and biochemical phenotypes of three affected children. The first patient is a boy with dysmorphic features and a chromosomal deletion (monosomy 6q26-qter) in whom a persistent glutaric aciduria (500 mmol/mol creatinine, normal <10) was detected during a routine metabolic investigation. The second boy suffered from acute gastroenteritis and hyperthyroidism, when an excessively high urinary glutaric acid excretion was identified (1460 mmol/mol creatinine). The third patient is a girl with constantly elevated glutaric acid in her urine (290 mmol/mol creatinine) but no symptoms of significant disease. In all our patients, glutaric aciduria type I (glutaryl-CoA dehydrogenase deficiency), glutaric aciduria type II (multiple acyl-CoA dehydrogenation defect), and secondary forms of glutaric aciduria (for example due to intestinal infections or mitochondrial dysfunction) could be excluded. Loading with the precursor amino acid lysine in all patients as well as with pipecolic acid in the third case led to an increase in urinary glutaric acid excretion, proving the endogenous origin of glutarate. Glutaric aciduria type III (a defect reported to be caused by peroxisomal glutaryl-CoA oxidase deficiency) is our presumptive diagnosis. However, peroxisomal glutaryl-CoA oxidase is not well characterized and no reliable approach for the direct determination of this enzyme is available to us. To our knowledge, in the English language literature only a single patient with glutaric aciduria type III has been described. Our cases reported here confirm the earlier assumption that glutaric aciduria type III is not related to a distinctive phenotype. Glutaric aciduria type III appears to be a rare metabolic abnormality, presumably of peroxisomal metabolism. However, its pathophysiological impact still needs further investigation.

Genetic alterations in epithelial ovarian tumors analyzed by comparative genomic hybridization

The genetic changes involved in the pathogenesis of ovarian carcinoma are not completely understood. To investigate this matter, we studied paraffin-embedded, microdissected tissue of 47 ovarian epithelial tumors (9 adenomas, 11 tumors of low malignant potential [LMP], 14 serous carcinomas, and 13 nonserous carcinomas) using comparative genomic hybridization (CGH). (The primary data used in this study are available at our CGH online tumor database at http://amba.charite.de/cgh.) Chromosomal imbalances were found in 1 serous adenoma and in 7 LMP tumors. In the latter the alterations appeared randomly and showed no overlap with alterations found in invasive carcinomas. Although the mean aberration number of low-grade serous carcinomas was comparable to LMP tumors, the imbalances of the former occurred with high incidence (>50%) and were found at different localizations. High-grade serous carcinomas had more than twice as much chromosomal imbalances as low-grade serous carcinomas and also had pronounced alterations. In serous carcinomas, gains were found on 3q, 6p, 7, 8q, and 20, and losses were found on 4q, 6q, 12q, 13q, and 16q. Comparing serous and nonserous carcinomas, the mean aberration number was comparable, but the number of high incidence changes was lower, and the most frequent imbalances were losses on 13q and gains on 20p. Overlapping alterations occurring in serous and nonserous carcinomas were gains on 3q and 6p, as well as losses on 4q. Chromosomal imbalances associated with poor prognosis of ovarian carcinomas were gains on 6p, 7q, and 13q and losses on 15q, 17p, 18q, and 21q. Our data indicate that serous LMP tumors and invasive carcinomas have different genetic aberrations, indicating that invasive carcinomas do not arise from preexisting serous LMP tumors. On the other hand, there are common genetic abnormalities in serous and nonserous carcinomas, suggesting that they have very early lesions in common but take different paths of further development.

LATS1 tumor suppressor regulates G2/M transition and apoptosis

The LATS1 gene is a mammalian member of the novel lats tumor suppressor family. Both lats mosaic flies and LATS1 deficient mice spontaneously develop tumors. Our previous studies have shown that inactivation of Drosophila lats leads to up-regulation of cyclin A in the fly, and the human LATS1 protein associates with CDC2 in early mitosis in HeLa cells, suggesting that the lats gene family may negatively regulate cell proliferation by modulating CDC2/Cyclin A activity. We demonstrate here that transduction of the human breast cancer cell MCF-7 with recombinant LATS1 adenovirus (Ad-LATS1), but not with EGFP adenovirus (Ad-EGFP), inhibits in vitro cell proliferation. Ectopic expression of LATS1 in MCF-7 cells specifically down-regulates Cyclin A and Cyclin B protein levels and dramatically reduces CDC2 kinase activity, leading to a G2/M blockade. Furthermore, Ad-LATS1 suppresses anchorage-independent growth of MCF-7 cells in soft agar and tumor formation in athymic nude mice. We also demonstrate that ectopic expression of LATS1 in MCF-7 cells and human lung cancer cell H460 up-regulates the level of BAX proteins and induces apoptosis. Finally, we show that LATS1 kinase activity is required for its ability to inhibit cell growth and induce apoptosis. The results indicate that the LATS1 tumor suppressor may play an important role in the control of human tumor development and that LATS1 suppresses tumorigenesis by negatively regulating cell proliferation and modulating cell survival.

Loss of heterozygosity on chromosome arms 3p and 6q in microdissected adenocarcinomas of the uterine cervix and adenocarcinoma in situ

BACKGROUND

Despite the increasing frequency of adenocarcinomas of the uterine cervix, little is known regarding inactivation of tumor suppressor genes (TSGs) in this tumor type. The authors analyzed loss of heterozygosity (LOH) in 36 carcinomas of the cervix with glandular differentiation, and 5 adenocarcinoma in situ in 40 patients.

METHODS

The authors analyzed samples using laser capture microdissection from archival material and DNA amplified with microsatellite markers on the following loci: 3p14.2 (D3S1234, D3S1300), 3p21.3 (D3S1029, D3S1447), 3p22-24 (D3S1537, D3S1351), 6q21-23.3 (D6S250), 6q25.1 (ESR), 6q25.2 (D6S255), 8p21 (D8S136, D8S1820), 13q12.3 (D13S220, D13S267), 17q21 (D17S579, D17S855). Eight additional markers spanning the short arm of chromosome 3 (3p12-p25) and six spanning the long arm of chromosome 6 (6q11-q27) were studied in the cases showing LOH to further define the deletion intervals.

RESULTS

The frequency of allelic loss in cancers was chromosome 3p: 49% (p14.2: 35%, p21.3: 23%, p22-24: 41%), 6q: 48% (q21-23.1: 39%, q25.1: 45%, q25.2: 7%), 13q: 22%, 17q: 6%, and 8p: 18%. On chromosome arm 3p, the authors' data suggest at least two discrete areas of deletion: a proximal area between markers D3S1234 (p12) and D3S1766 (p14.2-14.3), and a second distal interval, telomeric from marker D3S4623 (p21.3). On chromosome 6q, the deletion area is between marker D6S300 (q22) and D6S255 (q25.2). Two of five preneoplastic lesions showed LOH on chromosome arm 3p, and two five showed allelic loss on chromosome arm on 6q, suggesting the genes might be inactivated early in cervical tumorigenesis.

CONCLUSIONS

The authors have identified three chromosomal regions that may harbor TSGs involved in the development/progression of adenocarcinomas of the uterine cervix, 3p12-14.2, 3p21.3-pter, and 6q22-25.2. Deletions also were detected in adenocarcinoma in situ, suggesting the genes may be inactivated early in cervical tumorigenesis.

Physical and transcript map of the region between D6S264 and D6S149 on chromosome 6q27, the minimal region of allele loss in sporadic epithelial ovarian cancer

We have previously shown a high frequency of allele loss at D6S193 (62%) on chromosomal arm 6q27 in ovarian tumours and mapped the minimal region of allele loss between D6S297 and D6S264 (3 cM). We isolated and mapped a single non-chimaeric YAC (17IA12, 260-280 kb) containing D6S193 and D6S297. A further extended bacterial contig (between D6S264 and D6S149) has been established using PACs and BACs and a transcript map has been established. We have mapped six new markers to the YAC; three of them are ESTs (WI-15078, WI-8751, and TCP10). We have isolated three cDNA clones of EST WI-15078 and one clone contains a complete open reading frame. The sequence shows homology to a new member of the ribonuclease family. The other two clones are splice variants of this new gene. The gene is expressed ubiquitously in normal tissues. It is expressed in 4/8 ovarian cancer cell lines by Northern analysis. The gene encodes for a 40 kDa protein. Direct sequencing of the gene in all the eight ovarian cancer cell lines did not identify any mutations. Clonogenic assays were performed by transfecting the full-length gene in to ovarian cancer cell lines and no suppression of growth was observed.

Deletion mapping of 6q21-26 and frequency of 1p36 deletion in childhood endodermal sinus tumors by microsatellite analysis

The most common malignant germ cell tumor of early childhood is the endodermal sinus tumor (CEST), also known as yolk sac tumor. Previous cytogenetic studies of CEST have demonstrated recurrent deletion of distal regions of chromosomes 1p and 6q. Studies utilizing comparative genomic hybridization have likewise demonstrated loss of distal 6q, however these studies show discrepant data concerning chromosome 1 abnormalities. This study analyses 18 CESTs for loss of heterozygosity (LOH) of distal chromosome 6q utilizing 17 microsatellite markers and 13 tumors were analysed for LOH of distal 1p using two microsatellite markers. LOH of 6q was found in 13/18 tumors (72 %). This data confirms that loss of genetic material on 6q is one of the most common abnormalities in CESTs and narrows the region of loss, enabling candidate tumor suppressor genes to be identified and analysed. In addition, LOH of 1p36 was identified in five of 11 informative tumors, clarifying prior conflicting data and confirming that 1p deletion is a common event in CESTs.

A novel homozygous deletion at chromosomal band 6q27 in an ovarian cancer cell line delineates the position of a putative tumor suppressor gene

Chromosomal band 6q27 is believed to contain a tumor suppressor gene important in the development of several cancer types, including ovarian cancer. However, repeated efforts to identify a tumor suppressor gene in this region have been unsuccessful. Because homozygous deletions have been useful in the positional cloning of a number of tumor suppressor genes, we initiated a systematic search for such deletions in ovarian cancer cell lines using 6q microsatellite markers. One of the cell lines, OV167, was found to contain an 80 kb homozygous deletion encompassing marker D6S193 at 6q27 but excluding nearby marker D6S297. No known genes were present in the deleted region. Because the homozygous deletion might affect the expression of nearby genes, we analyzed the expression of the two closest known genes flanking the deletion, RNASE6PL and RSK-3. The expression of these genes were unaffected by the homozygous deletion, suggesting that the functional target of the deletion is located between these two genes. A search of the region against expressed sequence tag (EST) databases revealed that it contained four sets of expressed sequences. The first expressed sequences were derived from a LINE repetitive element and were considered unlikely to represent a tumor suppressor gene. The other expressed sequence tags identified did not show homology to known genes and are currently being investigated. This data may significantly reduce the magnitude of the search for the 6q tumor suppressor gene as it suggests a small area as a prime target for investigation.

Analysis of the TGF beta functional pathway in epithelial ovarian carcinoma

Epithelial ovarian carcinoma is often diagnosed at an advanced stage of disease and is the leading cause of death from gynaecological neoplasia. The genetic changes that occur during the development of this carcinoma are poorly understood. It has been proposed that IGFIIR, TGFbeta1 and TGFbetaRII act as a functional unit in the TGFbeta growth inhibitory pathway, and that somatic loss-of-function mutations in any one of these genes could lead to disruption of the pathway and subsequent loss of cell cycle control. We have examined these 3 genes in 25 epithelial ovarian carcinomas using single-stranded conformational polymorphism analysis and DNA sequence analysis. A total of 3 somatic missense mutations were found in the TGFbetaRII gene, but none in IGFRII or TGFbeta1. An association was found between TGFbetaRII mutations and histology, with 2 out of 3 clear cell carcinomas having TGFbetaRII mutations. This data supports other evidence from mutational analysis of the PTEN and beta-catenin genes that there are distinct developmental pathways responsible for the progression of different epithelial ovarian cancer histologic subtypes.

Allelic deletion mapping on chromosome 6q and X chromosome inactivation clonality patterns in cervical intraepithelial neoplasia and invasive carcinoma

OBJECTIVE

Loss of heterozygosity (LOH) profiles and X chromosome inactivation patterns are analyzed in 42 patients with cervical intraepithelial neoplasias (CIN), including low-grade (CIN1) and high-grade (CIN2, CIN3) lesions, and 22 patients with invasive cervical carcinomas.

METHOD

Laser capture microdissection was utilized to procure pure matched normal and lesional cells from each case. Sixteen microsatellite markers on four chromosomal arms, 6q21-q25.1, 8p21, 13q12.3--q13, and 17q12--q21, were amplified for LOH, as well as the HUMARA locus for X chromosome inactivation analysis. Eight additional markers spanning the long arm of chromosome 6 were utilized in all cases showing LOH on this arm and in which further tissue material was available for microdissection.

RESULTS

Fifty-five percent of carcinomas showed deletions on chromosome bands 6q21--q25.1, 43% on 13q12.3--q13, and 40% on 17q12--q21. Deletions on 6q were identified in CIN3 (40%), CIN2 (37%), and CIN1 (10%), on 13q in CIN3 (33%) and CIN2 (33%), and rarely on chromosomal arm 17q. Finer 6q mapping revealed that marker D6S310 (q22) represented the centromeric and marker D6S255 (q25--q16) the telomeric boundary of deletion. A second, telomeric area of deletion at marker D6S281 (q27) was also identified. Monoclonal X chromosome inactivation patterns were identified in 12/13 cancers, 13/14 CIN3, 5/10 CIN2, and 0/6 CIN1.

CONCLUSIONS

Two areas of deletion on chromosome 6q were identified in cervical tumors, suggesting the presence of tumor suppressor gene(s) inactivated in this neoplasia. LOH on this arm were identified early during cervical tumor progression. LOH on 13q and 17q also occur in cervical cancers. X chromosome inactivation patterns suggest that CIN develops into a monoclonal lesion during progression from CIN1 to CIN3.

Are DNA mismatch repair deficiencies responsible for accumulation of genetic alterations in epithelial ovarian cancers?

To investigate the association of DNA mismatch repair deficiencies in the development and/or progression of epithelial ovarian cancers, the relationship between replication errors (RERs) and genetic alterations in three genes (p53, c-erbB2, K-ras) and loss of heterozygosity (LOH) on 6q27 was investigated in 70 patients with epithelial ovarian cancers. The presence of RERs was examined by PCR using five microsatellite markers. Mutations of p53 were analyzed by PCR-SSCP and sequencing. Amplification of c-erbB2 was analyzed by Southern blot hybridization. Point mutations of K-ras codon 12 were identified by PCR-PHFA, while 6q27LOH was examined by Southern blot hybridization. As a result, 18 of 70 patients with epithelial ovarian cancers (26%) were RER-positive and 52 patients (74%) were RER-negative. Tumors with two or three genetic alterations accounted for 28% and 33% of RER-positive tumors, respectively, and these were significantly more frequent than in the RER-negative tumors (17% and 6%, respectively)(P =.002). These results are consistent with mismatch repair deficiencies being involved in the development and/or progression of a proportion of epithelial ovarian cancers through accumulation of genetic alterations.

The characterization of the common fragile site FRA16D and its involvement in multiple myeloma translocations

Fragile sites appear as breaks, gaps, or decondensations on metaphase chromosomes when cells are grown under specific culture conditions. The breaks are nonrandom, appearing in defined, conserved locations throughout the mammalian genome. Common fragile sites, as their name implies, are present in virtually all individuals. With three common fragile sites cloned, their mechanism of expression and the role, if any, they play in human disease are still unclear. We have assembled a BAC contig of >1 Mb across the second most active common fragile site, FRA16D (16q23.2). We fluorescently labeled these BACs and used them as probes on metaphases from aphidicolin-induced lymphocytes and demonstrated that FRA16D decondensation/breakage occurs over a region of at least 1 Mb. Thus, this is the largest common fragile site cloned to date. Microsatellite markers that map within FRA16D show a very high loss in prostate, breast, and ovarian tumors, indicating that loss within this fragile site may be important in the development or progression of these tumors. In addition, a common t(14q32;16q23) translocation is observed in up to 25% of all multiple myelomas (MM). We localized four of four such cloned t(14;16) MM breakpoints within the FRA16D region. This work further demonstrates that the common fragile sites may play an important role in cancer development.

Identification of WTAP, a novel Wilms' tumour 1-associating protein

The Wilms' tumour suppressor gene WT1 is essential for the normal development of the genitourinary system. It appears to play a role in both transcriptional and post-transcriptional regulation of certain cellular genes. However, the mechanisms behind WT1 function are not clearly understood despite the identification of numerous potential target genes and the isolation of several WT1-binding proteins. This study therefore sets out to identify other WT1-associating proteins to help to unravel how WT1 interacts with the cellular machinery. We report the identification of a novel human WT1-associating protein, WTAP, which was isolated using the yeast two-hybrid system. Both in vitro and in vivo assays have shown that the interaction between WTAP and WT1 is specific and occurs endogenously in cells. The mouse homologue of WTAP was isolated and found to be >90% conserved at the nucleotide and protein levels. The human and mouse genes were mapped using fluorescence in situ hybridization to regions in chromosomes 6 (which is thought to harbour a tumour suppressor gene) and 17, respectively. The expression pattern of WTAP was investigated and shown to be ubiquitous, perhaps reflecting a housekeeping role. WTAP is a nuclear protein, which like WT1 localizes throughout the nucleoplasm as well as in speckles and partially co-localizes with splicing factors. Although the significance of this interaction is not yet known, WTAP promises to be an interesting WT1-binding partner.

Mutation of K-RAS protooncogene and loss of heterozygosity on 6q27 in serous and mucinous ovarian carcinomas

The genetic etiology of serous and mucinous ovarian carcinomas was investigated in 76 affected patients, focusing on the possible loss of heterozygosity (LOH) involving chromosome band 6q27 and K-RAS mutations at codon 12. The incidence of LOH in 6q27 (6q27 LOH) was 41% in 64 informative cases; 53% (20/38) and 23% (6/26) in cases of serous ovarian carcinoma and in those of mucinous ovarian carcinoma, respectively, indicating that the incidence of 6q27 LOH was significantly higher in cases of serous ovarian carcinoma (P < 0.05). The incidence of K-RAS mutations at codon 12 was 23% (15/64); 5% (2/38) and 50% (13/26) in cases of serous ovarian carcinoma and in those of mucinous ovarian carcinoma, respectively, indicating that the incidence of the K-RAS mutations was significantly higher in cases of mucinous ovarian carcinoma (P < 0.0001). Thus, K-RAS mutations at codon 12 and 6q27 LOH were suggested to be involved in the development and/or progression of mucinous ovarian carcinoma and serous ovarian carcinoma, respectively.

Mapping of target regions of allelic loss in primary breast cancers to 1-cM intervals on genomic contigs at 6q21 and 6q25.3

Allelic losses on the long arm of human chromosome 6 are frequently observed in cancers of the ovary, prostate, and breast. To identify the locations of putative tumor suppressor genes on 6q, we examined 192 primary breast cancers for patterns of allelic loss at 16 polymorphic microsatellite loci distributed along this chromosome arm. Allelic losses at one or more loci were observed in 105 (55%) of the tumors examined. Detailed deletion mapping with appropriate yeast artificial chromosome (YAC) contigs identified two distinct commonly deleted regions; one was confined to a 1-cM interval at 6q21 flanked by D6S1040 and D6S262 and the other to a 1-cM interval at 6q25.3 flanked by D6S305 and D6S411. Allelic losses at 6q21 were more frequent in invasive solid tubular and scirrhous carcinomas than in tumors of less aggressive histologic types (P = 0.0006). Allelic loss at 6q25.3 was associated with loss of progesterone receptor (P = 0.0256). Our results suggest the presence of two tumor suppressor genes for breast cancer on 6q that are likely to be associated with tumor progression and / or loss of hormonal dependency.

Allelic loss at chromosome band 6q14 correlates with favorable prognosis in hepatocellular carcinoma

Cytogenetic and molecular studies have frequently shown chromosome 6q deletions in non-Hodgkin lymphoma and several human cancers. There have been few studies concerning chromosome 6q deletion in hepatocellular carcinoma (HCC), and most of these studies have focused on region 6q26-27. We previously described frequent allelic loss at 6q14 in HCC. As a step toward narrowing the scope of search for tumor suppressor genes, we used a series of yeast artificial chromosome clones that map to the long arm of chromosome 6 (6q14-6q22) by fluorescence in situ hybridization (FISH) to define the minimal common region of allelic loss in 25 cases of HCC. Altogether, 12 tumors had allelic loss on 6q (48%). Eleven of the 12 tumors had polysomy of chromosome 6 with evident intratumor cytogenetic heterogeneity. The minimal common region of allelic loss lies within a 2-cM region at 6q14, flanked by D6S458 (849_d_8) and D6S275 (911_a_3). Clinicopathologic correlation between the 12 patients with allelic loss at 6q and the 13 patients without allelic loss showed no significant differences in any basic characteristics except survival. Patients with allelic loss at 6q had a much longer median survival time than those without allelic loss (50 months vs. 11 months, P = 0.0019). Only 5 of the 25 HCC patients were still alive at the time of this study, and all of them had allelic loss at 6q, which is also statistically significant (P = 0.037, alive vs. dead). The association of allelic loss at 6q with polysomy implies that this may be a progression-associated event in HCC. The correlation of allelic loss at 6q with long survival suggests a complex mechanism of tumorigenesis in HCC and is worthy of further investigation.

Mannose 6-phosphate/insulin-like growth factor 2 receptor, a bona fide tumor suppressor gene or just a promising candidate?

The mannose 6-phosphate/insulin-like growth factor 2 receptor (M6P/IGF2R) is considered a "candidate" tumor suppressor gene. This hypothesis has been provoked by the identification of loss of heterozygosity (LOH) at the M6P/IGF2R locus on chromosome 6q26 in breast and liver cancer, accompanied by point mutations in the remaining allele. Somatic mutations in coding region microsatellites have also been described in replication error positive (RER+) tumors of the gastrointestinal tract, endometrium and brain. These genetic data are compelling, but a tumor suppressor gene candidate has to meet functional as well as genetic criteria. This review weighs the evidence and discusses the observations that are necessary to promote M6P/IGF2R from candidate to bona fide tumor suppressor gene.

Single nucleotide polymorphisms (SNPs) in the estrogen receptor gene and breast cancer susceptibility

In order to evaluate the role of inherited variation in the estrogen receptor (ESR1) gene in human breast cancer, we determined intronic sequences flanking each ESRI exon; identified multiple SNPs and length polymorphisms in the ESR1 coding sequence, splice junctions and regulatory regions; and genotyped families at high risk of breast cancer and population-based breast cancer patients and controls. Of 10 polymorphic sites in ESR1, four are synonymous SNPs, two are nonsynonymous SNPs and four are length polymorphisms; five are novel. No ESR1 polymorphisms were associated with breast cancer, either in the high-risk families or the case-control study. We therefore conclude that inherited genetic variation is not a mechanism by which the estrogen receptor is commonly involved in breast cancer development.

Analysis of a 69-kb contiguous genomic sequence at a putative tumor suppressor gene locus on human chromosome 6q27

Multiple neoplasias including B-cell non-Hodgkin's lymphoma, breast carcinoma, and ovarian carcinoma, have been associated with frequent deletions of the distal region on the long arm of human chromosome 6, suggesting the presence of one or more tumor suppressor gene(s) at this locus. Loss of heterozygosity analysis of breast and ovarian tumors has further restricted the minimal region of loss within 6q27. To further characterize this genomic region for gene content including putative tumor suppressor genes as well as other elements that may contribute to tumorigenesis, a 68940-bp contiguous sequence, encompassing markers D6S193 and D6S297, was generated by random shotgun sequencing of a cosmid, P1, and PAC contig. In addition, exon trapping was performed utilizing a subset of these clones. Sixteen trapped exons, ranging in size from 44 to 399 bp, span this approximately 69-kb region. Many other putative exons have been identified computationally. Further analysis has identified 13 potential promoters and 13 putative polyadenylation sites in the region. Northern analysis identified a transcript mapping within this interval that is expressed in ovarian, breast, and lymphoid-derived tumor cell lines. Consideration of these data, together with the demonstration of several regions of high CpG content, suggests the possibility of several genes at this locus.

A human homolog of Drosophila warts tumor suppressor, h-warts, localized to mitotic apparatus and specifically phosphorylated during mitosis

We identified a human homolog of Drosophila warts tumor suppressor gene, termed h-warts, which was mapped at chromosome 6q24-25.1. The h-warts protein has a serine/threonine kinase domain and is localized to centrosomes in interphase cells. However, it becomes localized to the mitotic apparatus, including spindle pole bodies, mitotic spindle, and midbody, in a highly dynamic manner during mitosis. Furthermore, h-warts is specifically phosphorylated in cells at mitotic phase, most likely by Cdc2 kinase. These findings suggest that h-warts functions as a component of the mitotic apparatus and is involved in proper progression of mitosis.