Leupaxin acts as a mediator in prostate carcinoma progression through deregulation of p120catenin expression.

Recently, we could show that the focal adhesion protein leupaxin (LPXN) is expressed in human prostate carcinomas (PCa) and induces invasiveness of androgen-independent PCa cells. In this study we show that LPXN enhanced the progression of existing PCa in vivo by breeding transgenic mice with prostate-specific LPXN expression and TRAMP mice (transgenic adenocarcinoma of mouse prostate). Double transgenic LPXN/TRAMP mice showed a significant increase in poorly differentiated PCa and distant metastases as compared with control TRAMP mice. Additional studies on primary PCa cells generated from both transgenic backgrounds confirmed the connection regarding LPXN overexpression and increased motility and invasiveness of PCa cells. One mediator of LPXN-induced invasion was found to be the cell-cell adhesion protein p120catenin (p120CTN). Both in vitro and in vivo experiments revealed that p120CTN expression negatively correlates with LPXN expression, followed by a redistribution of beta-catenin. Downregulation of LPXN using small interfering RNAs (siRNAs) resulted in a membranous localization of beta-catenin, whereas strong nuclear accumulation of beta-catenin was observed in p120CTN knockdown cells leading to enhanced transcription of the beta-catenin target gene matrix metalloprotease-7. In conclusion, the present results indicate that LPXN enhances the progression of PCa through downregulation of p120CTN expression and that LPXN could function as a marker for aggressive PCa in the future.

High-density allelotype of the commonly studied gastric cancer cell lines.

Gastric cancer is one of the leading causes of death from cancer throughout the world, and studies to elucidate the genetic defects found in this type of cancer are growing in number. Increasingly sophisticated techniques and the sequencing of the human genome have had an impact on the scope of such studies. While the use of tumor specimens remains popular, more emphasis is being placed on cell lines as model systems where specific data can be directly combined with results from other studies. This article describes a genetic survey of the most widely used gastric adenocarcinoma cell lines. The allelotype at 351 polymorphic loci in 14 cell lines was obtained, and the results from the 4,900 polymerase chain reactions are displayed. In addition to confirming loss of heterozygosity on chromosome arms 6p, 7q, 17p, and 18, additional deletions on arm 5p and the pericentromeric regions of chromosomes 1 and 10 were detected. Areas that might contain homozygous deletions or amplifications also were mapped. The rate of microsatellite instability was quantified and shown to vary greatly among the different cell lines. Most important, this study serves as a genetic scaffold for the integration of past and future studies on the nature of the genetic defects in gastric cancer.

Survey of genetic alterations in gastrinomas.

Gastrinomas are rare gastrin-secreting endocrine tumors that usually arise in the duodenum or pancreas and, if untreated, can cause severe peptic ulcers or metastatic disease. Although most tumors are sporadic they are especially common in patients with multiple endocrine neoplasia type 1 (MEN1), and most studies of these tumors have focused on the role of the MEN1 gene. Although the gene is commonly altered in sporadic tumors, this finding is not universal, and it is highly likely that other genetic defects play a significant role. In the present study, an in-depth analysis of the DNA of eight tumors was carried out in an effort to localize these areas. The experiments consisted of an analysis of 400 microsatellite marker loci distributed evenly throughout the human genome, and the results were confirmed with comparative genomic hybridization. Whereas deletions encompassing the MEN1 gene were seen in two tumors, the most striking result was multiple large rearrangements on chromosome 1 in two of the tumors with hepatic metastases. In several instances, an individual tumor had abnormalities of every informative maker on a given chromosome, presumably as a result of aneuploidy affecting that chromosome. Such defects were only seen in the four large or aggressive tumors, and the total number of chromosomes affected in a tumor ranged from 1 to a high of 13 in a patient who had an unusually aggressive tumor This tumor also showed microsatellite instability, and this is the first report of such a defect in gastrinomas. This study implicates chromosome 1 defects, aneuploidy, and perhaps mismatch repair defects as importan features of gastrinomas; deletions involving the MEN1 gene were con firmed, but the rest of the genome was free of large deletions or amplifications.