Epigenome analyses using BAC microarrays identify evolutionary conservation of tissue-specific methylation of SHANK3.

CpG islands are present in one-half of all human and mouse genes and typically overlap with promoters or exons. We developed a method for high-resolution analysis of the methylation status of CpG islands genome-wide, using arrays of BAC clones and the methylation-sensitive restriction enzyme NotI. Here we demonstrate the accuracy and specificity of the method.

Mapping segmental and sequence variations among laboratory mice using BAC array CGH.

We used arrays of 2069 BACs (1303 nonredundant autosomal clones) to map sequence variation among Mus spretus (SPRET/Ei and SPRET/Glasgow) and Mus musculus (C3H/HeJ, BALB/cJ, 129/J, DBA/2J, NIH, FVB/N, and C57BL/6) strains. We identified 80 clones representing 74 autosomal loci of copy number variation (|log(2)ratio| >/= 0.4).

Fbxw7/Cdc4 is a p53-dependent, haploinsufficient tumour suppressor gene.

The FBXW7/hCDC4 gene encodes a ubiquitin ligase implicated in the control of chromosome stability. Here we identify the mouse Fbxw7 gene as a p53-dependent tumour suppressor gene by using a mammalian genetic screen for p53-dependent genes involved in tumorigenesis. Radiation-induced lymphomas from p53+/- mice, but not those from p53-/- mice, show frequent loss of heterozygosity and a 10% mutation rate of the Fbxw7 gene.

Genomic segmental polymorphisms in inbred mouse strains.

By analyzing genomic copy-number differences using high-resolution mouse whole-genome BAC arrays, we uncover substantial differences in regional DNA content between inbred strains of mice. The identification of these apparently common segmental polymorphisms suggests that these differences can contribute to genetic variability and pathologic susceptibility.

A mouse skin multistage carcinogenesis model reflects the aberrant DNA methylation patterns of human tumors.

Whereas accepted models of tumorigenesis exist for genetic lesions, the timing of epigenetic alterations in cancer is not clearly understood. We have analyzed the profile of aberrations in DNA methylation occurring in cells lines and primary tumors of one of the best-characterized mouse carcinogenesis systems, the multistage skin cancer progression model. Initial analysis using high-performance capillary electrophoresis and immunolocalization revealed a loss of genomic 5-methylcytosine associated with the degree of tumor aggressiveness.

Mutually exclusive mutations of the Pten and ras pathways in skin tumor progression.

Pten heterozygous (Pten+/-) mice develop increased papilloma numbers and show decreased carcinoma latency time in comparison with controls after skin treatment with dimethyl benzanthracene (DMBA) and tetradecanoyl-phorbol acetate (TPA). H-ras mutation is normally a hallmark of DMBA-TPA-induced skin tumors, but 70% of carcinomas from Pten+/- mice do not exhibit this mutation, and in all cases have lost the wild-type Pten allele. Tumors that retain the Pten wild-type allele also have H-ras mutations, indicating that activation of H-ras and complete loss of Pten are mutually exclusive events in skin carcinomas.

[Regulation of CD3, CD4 and CD8 expressions on PMA-activated human peripheral T cells].

Objective: To investigate the effect of mitogen Phorbol 12-myristate 13-Acetate (PMA) on CD3, CD4 and CD8 expression of human T-lymphocytes.

Methods: Peripheral blood mononuclear cells from 37 blood samples stimulated in vitro with PMA at different concentrations (2,5,10,20 and 50 ng/ml for 4 hours) and time (10 ng/ml for 2,4 and 6 hours) were analyzed by 4-color flow cytometry (FCM).

Results: Under different PMA stimulation protocols,significant CD4 down-regulation was observed,which was negatively correlated with intracellular cytokine secretion (r= 0.

Genetic interactions between Pten and p53 in radiation-induced lymphoma development.

Genetic analysis of radiation-induced lymphomas from p53 heterozygous or null mice has revealed a high frequency of genetic alterations on mouse chromosome 19. Detailed microsatellite analysis of chromosome 19 deletions identified three independent regions of loss of heterozygosity, one of which was refined to a 0.3 Mb interval that contained the Pten tumor suppressor gene.

Allele-specific Hras mutations and genetic alterations at tumor susceptibility loci in skin carcinomas from interspecific hybrid mice.

We have investigated the effects of germ-line variants that influence skin tumor susceptibility loci on the patterns of somatic genetic alterations in mouse skin cancers. Using a two-stage skin carcinogenesis model, we previously identified at least 13 skin tumor susceptibility (Skts) loci in a large interspecific F1 backcross [(NIH/Ola x M. spretus) x NIH/Ola] study.

Novel approaches to identify low-penetrance cancer susceptibility genes using mouse models.

Studies of cancer predisposition have largely concentrated on the role of high-penetrance susceptibility genes. Less than 10% of the total human tumor burden, however, is accounted for by mutations in these genes. More genetic variation in cancer risk is likely to be due to commoner but lower penetrance alleles.

Identification of Stk6/STK15 as a candidate low-penetrance tumor-susceptibility gene in mouse and human.

Linkage analysis and haplotype mapping in interspecific mouse crosses (Mus musculus x Mus spretus) identified the gene encoding Aurora2 (Stk6 in mouse and STK15 in human) as a candidate skin tumor susceptibility gene. The Stk6 allele inherited from the susceptible M. musculus parent was overexpressed in normal cells and preferentially amplified in tumor cells from F(1) hybrid mice.

Genomic approaches to identification of tumour-susceptibility genes using mouse models.

Individual susceptibility to cancer in humans is determined by complex interactions between germline genetic variation and levels of exposure to environmental carcinogens or tumour promoters. Only a small fraction of cancer susceptibility is inherited in a Mendelian manner (high-penetrance familial cancer), and most tumours result from the combined effects of many gene-gene and gene-environment interactions. The sequencing of the mouse genome provides new approaches to one of the most challenging tasks of cancer genetics today.

Genome-wide detection of chromosomal imbalances in tumors using BAC microarrays.

Chromosomal imbalances such as deletions and amplifications are common rearrangements in most tumors. Specific rearrangements are consistently associated with specific tumor types or stages, implicating the role of the genes in a region of chromosomal imbalance in tumor initiation and progression. The development of comparative genomic hybridization (CGH) has obviated the need to obtain metaphase spreads from tumors, so that the chromosomal imbalances in many solid tumors may be revealed using an extracted genomic DNA sample.