Apolipoprotein E expression in localized prostate cancers.

Although prostate cancer has become the most common solid tumor diagnosed in men and the second leading cause of death due to malignancy, the progression of the disease is still somewhat unpredictable, until it becomes locally advanced or metastatic. The clinical problem to distinguish between dormant and progressive cancers is essential to patient care, as surgical and medical therapies have significant risk of morbidity and disability. Multiple gene expression in prostate cancer was surveyed by differential display cloning between the undifferentiated hormone refractory human prostate cancer cell line PC-3 (highly tumorigenic in nude mice) the hormone responsive LNCaP cell line (weakly tumorigenic in nude mice), and the poorly differentiated DU-145 cell line (moderately tumorigenic).

Involvement of Ets transcription factors and targets in osteoblast differentiation and matrix mineralization.

The osteoblast-like MC3T3-E1 cell line provides an excellent in vitro model of bone development. This system undergoes three orderly time-dependent phases characterized by proliferating preosteoblasts, matrix accumulation by postmitotic differentiating osteoblasts, and mineralization of the matrix, which results in the formation of multilayered bone nodules. The Ets family transcription factors regulate genetic programs that affect the proliferation and differentiation of osteoblasts.

Regulation of the human stress response gene GADD153 expression: role of ETS1 and FLI-1 gene products.

We have previously shown that ETS transcription factors, regulate cell growth and differentiation, and ETS1 and ETS2 are able to transcriptionally regulate wt p53 gene expression. In the present study we show that the ETS transcription factors also play a role in regulating expression of GADD153, a wt p53 inducible gene, which induces growth arrest and apoptosis in response to stress signals or DNA damage. We report the presence of a single EBS in the human GADD153 promoter, and that the GADD45 gene promoter lacks EBSs.

Down-regulation of T1A12/mac25, a novel insulin-like growth factor binding protein related gene, is associated with disease progression in breast carcinomas.

To define genes that are essential to the initiation and progression of breast cancer we utilized subtractive hybridization and differential display cloning techniques and isolated over 950 cDNAs from breast cell-lines derived from matched normal and tumor tissue. Of these, 102 cDNAs were characterized by DNA sequencing and Northern blot analysis. GenBank searches showed that one of these genes, T1A12 is identical to mac25, an insulin-like growth factor-binding protein related gene.