Stem/progenitor cell-specific enhanced green fluorescent protein expression driven by the endogenous Mcm2 promoter.

Previous studies have demonstrated expression of the minichromosome maintenance protein Mcm2 in cells that remain competent to divide, including stem/progenitor cells of the subventricular zone (SVZ) within the brain. Here, a transgenic mouse line in which the Mcm2 gene drives expression of enhanced green fluorescent protein (EGFP) was constructed by insertion of an internal ribosomal entry site (IRES)-EGFP cassette into the last exon of the gene, 3' to the stop codon. In these mice, expression of EGFP is observed in the SVZ and several other tissues with high proliferative activity, including the spleen, intestine, hair follicles, and bone marrow.

Analysis of fluorescent protein expressing cells by flow cytometry.

The process for transfection of cells with expression and gene-trap vectors expressing fluorescent reporter proteins is described. The measurement and sorting of discrete populations of transfected cells is also described and illustrated. Of particular importance, the maintenance of stability may be important and a simple strategy to monitor this has been developed.

Genes, chromatin, and breast cancer: an epigenetic tale.

The production of heritable changes in gene expression is the driving force in the development and progression of breast cancer. Such changes can result from mutations or from epigenetic events such as hypermethylation of DNA and hypoacetylation of histones. Histone acetylation and DNA methylation are major determinants of chromatin structure, and chromatin structure is a primary regulator of gene transcription.

Epigenetic regulation of gelsolin expression in human breast cancer cells.

Gelsolin is a multifunctional, actin-binding protein that is greatly decreased in many transformed cell lines and tumor tissues, including breast cancers. Downregulation of gelsolin RNA occurs in most breast cancers of rats, mice, and humans, but gross mutations of the gelsolin gene have not been found. Here we demonstrate by PCR and RT-PCR analysis that there are no point mutations in putative regulatory regions or the entire coding region of the cytoplasmic isoform of the gelsolin gene in human breast cancer cells (BCC).

Mutated Atf4 suppresses c-Ha-ras oncogene transcript levels and cellular transformation in NIH3T3 fibroblasts.

A frameshift mutation is present in one allele of the Atf4 gene in genomic DNA from F9 embryonal carcinoma stem cells. The mutation results in the fusion of a short 5' open reading frame to the coding sequence of Atf4, replacing the first 18 N-terminal amino acids with 50 amino acids encoded by the upstream open reading frame. The ability of both normal and mutated Atf4 gene products to influence cell growth was tested using an NIH3T3 cell transformation assay.