233 South 10th Street
Suite 1008
Philadelphia, PA 19107
(215) 503-8574
Suite 1008
Philadelphia, PA 19107
(215) 503-8574
Most Recent Peer-reviewed Publications
- Dual roles of PARP-1 promote cancer growth and progression
- Cyclin D1 goes metabolic: Dual functions of cyclin D1 in regulating lipogenesis
- The AR dependent cell cycle: Mechanisms and cancer relevance
- Targeting pioneering factor and hormone receptor cooperative pathways to suppress tumor progression
- mTOR is a selective effector of the radiation therapy response in androgen receptor-positive prostate cancer
- Postprostatectomy radiation therapy: An evidence-based review
- FOXA1: Master of steroid receptor function in cancer
- Time to stratify? the retinoblastoma protein in castrate-resistant prostate cancer
- Caveolin-1 overexpression enhances androgen-dependent growth and proliferation in the mouse prostate
- The meaning of p16 ink4a expression in tumors: Functional significance, clinical associations and future developments
- Therapeutically activating RB: Reestablishing cell cycle control in endocrine therapy-resistant breast cancer
- Outsmarting androgen receptor: Creative approaches for targeting aberrant androgen signaling in advanced prostate cancer
- Cyclin D1 is a selective modifier of androgen-dependent signaling and androgen receptor function
- A tale of three PKCs: Epsilon emerges as a driver of pre-neoplastic phenotypes
- The retinoblastoma tumor suppressor controls androgen signaling and human prostate cancer progression
- RB-pathway disruption in breast cancer: Differential association with disease subtypes, disease-specific prognosis and therapeutic response
- Identification of ASF/SF2 as a critical, allele-specific effector of the cyclin D1b oncogene
- Partners in crime: Deregulation of AR activity and androgen synthesis in prostate cancer
- Erratum: Cyclin D1 promotes anchorage-independent cell survival by inhibiting FOXO-mediated anoikis (Cell Death and Differentiation (2009) 16 (1408-1417) DOI: 10.1038/cdd.2009.86))
- Nuclear targeting of cyclin-dependent kinase 2 reveals essential roles of cyclin-dependent kinase 2 localization and cyclin E in vitamin D-mediated growth inhibition