Ras inhibition results in growth arrest and death of androgen-dependent and androgen-independent prostate cancer cells.

Prostate cancer is one of the most frequently diagnosed cancers in human males. Progression of these tumors is facilitated by autocrine/paracrine growth factors which activate critical signaling cascades that promote prostate cancer cell growth, survival and migration. Among these, Ras pathways have a major role.

Ligand-independent regulation of ErbB4 receptor phosphorylation by activated Ras.

The ErbB family of receptor tyrosine kinases regulates cell growth, differentiation and survival. Activation of the receptors is induced by specific growth factors in an autocrine, paracrine or juxtacrine manner. The activated ErbB receptors turn on a large variety of signaling cascades, including the prominent Ras-dependent signaling pathways.

Closed head injury induces upregulation of Beclin 1 at the cortical site of injury.

Autophagy, a bulk degradation of subcellular constituents, is activated in several neurodegenerative conditions. Beclin 1, a Bcl2 interacting protein, was found to promote autophagy. The closed head injury model was used to investigate the possible role of autophagy and Beclin 1 after traumatic brain injury.

Neuregulin promotes autophagic cell death of prostate cancer cells.

Background: Prostate cancer is one of the most frequently diagnosed cancers in males. Autocrine/paracrine growth factors for the epidermal growth factor receptor (EGFR) have been identified in prostate tumors suggesting a role for EGFR in the progression of prostate cancer. The androgen-dependent prostate cancer cell line, LNCaP, expresses the EGFR as well as two additional members of the family; ErbB-2 and ErbB-3, which can be activated by neuregulin (NRG) isoforms.

Ligand-independent degradation of epidermal growth factor receptor involves receptor ubiquitylation and Hgs, an adaptor whose ubiquitin-interacting motif targets ubiquitylation by Nedd4.

Ligand-dependent endocytosis of the epidermal growth factor receptor (EGFR) involves recruitment of a ubiquitin ligase, and sorting of ubiquitylated receptors to lysosomal degradation. By studying Hgs, a mammalian homolog of a yeast vacuolar-sorting adaptor, we provide information on the less understood, ligand-independent pathway of receptor endocytosis and degradation. Constitutive endocytosis involves receptor ubiquitylation and translocation to Hgs-containing endosomes.