Recurrent chromosome 10 aberrations and Tp53 mutations in rat endometrial adenocarcinomas.

Human genetic heterogeneity and differences in the environment and life style make analysis of complex diseases such as cancer difficult. By using inbred animal strains, the genetic variability can be minimized and the environmental factors can be reasonably controlled. Endometrial adenocarcinoma (EAC) is the most common gynecologic malignancy, ranking fourth in incidence among tumors in women.

Amplification studies of MET and Cdk6 in a rat endometrial tumor model and their correlation to human type I endometrial carcinoma tumors.

Cancer is known to be a genetic disease that is both polygenic and heterogeneous, in most cases involving changes in several genes in a stepwise fashion. The spectrum of individual genes involved in the initiation and progression of cancer is greatly influenced by genetic factors unique to each patient. A study of complex diseases such as cancer is complicated by the genetic heterogeneous background and environmental factors in the human population.

Analysis of chromosome 10 aberrations in rat endometrial cancer-evidence for a tumor suppressor locus distal to Tp53.

We have recently shown in the BDII rat model of human endometrial adenocarcinoma (EAC), rat chromosome 10 (RNO10) is frequently involved in chromosomal aberrations. In the present study, we investigated the association between RNO10 deletions, allelic imbalance (AI) at RNO10q24 and Tp53 mutation in 27 rat EAC tumors. We detected chromosomal breakage accompanied by loss of proximal and/or gain of distal parts of RNO10 in approximately 2/3 of the tumors.

Deriving evolutionary tree models of the oncogenesis of endometrial adenocarcinoma.

Endometrial adenocarcinoma (EAC) is the fourth leading cause of cancer death in women worldwide, but not much is known about the underlying genetic factors involved in the development of this complex disease. In the present work, we used 3 different algorithms to derive tree models of EAC oncogenesis from data on the frequencies of genomic alterations in rat chromosome 10 (RNO10). The tumor material was derived from progenies of crosses between the EAC susceptible BDII inbred rat strain and two non susceptible inbred rat strains.

Assessment of allele dosage at polymorphic microsatellite loci displaying allelic imbalance in tumors by means of quantitative competitive-polymerase chain reaction.

Analysis of allelic imbalance at polymorphic marker loci is usually employed to identify chromosomal regions affected by recurrent aberrations in tumor genomes. Such regions are likely to harbor genes involved in the onset and/or progression of cancer. Although often used to identify regions of loss of heterozygosity caused by deletions/rearrangements near tumor suppressor gene loci, allelic imbalance can also reflect regional amplification, indicating the presence of oncogenes.

Allelic imbalance on chromosome 10 in rat endometrial adenocarcinomas.

Earlier work using comparative genome hybridization (CGH) has shown that rat chromosome 10 (RNO10) is frequently involved in cytogenetic aberrations in BDII rat endometrial adenocarcinomas (EAC). Relative reduction in copy number (chromosomal deletions) was seen in the proximal to middle part of the chromosome, whereas there were increases in copy number in the distal part. The occurrence of RNO10 aberrations was further analyzed in DNA from primary tumor material from 42 EACs and 3 benign endometrial tumors using allelotyping of microsatellite markers.