Cynthia Miranti

Cynthia Miranti

Professor, Cellular and Molecular Medicine
Chair, Cancer Biology - GIDP
Co-Program Leader, Cancer Biology Research Program
Member of the Graduate Faculty
Professor, BIO5 Institute
Primary Department
Contact
(520) 626-2269

Research Interest

Research Interests Our objective is to define how integrin interactions within the tumor microenvironment impact prostate cancer development, hormonal resistance, and metastasis. Our approach is to understand the normal biology of the prostate gland and its microenvironment, as well as the bone environment, to inform on the mechanisms by which tumor cells remodel and use that environment to develop, acquire hormonal resistance, and metastasize. Our research is focused in three primary areas: 1) developing in vitro and in vivo models that recapitulate human disease based on clinical pathology, 2) identifying signal transduction pathway components that could serve as both clinical markers and therapeutic targets, and 3) defining the genetic/epigenetic programming involved in prostate cancer development.

Publications

Knudsen, B. S., & Miranti, C. K. (2006). The impact of cell adhesion changes on proliferation and survival during prostate cancer development and progression. Journal of cellular biochemistry, 99(2), 345-61.

In the normal prostate epithelium, androgen receptor (AR) negative basal epithelial cells adhere to the substratum, while AR expressing secretory cells lose substratum adhesion. In contrast, prostate cancer cells both express AR and adhere to a tumor basement membrane. In this review, we describe the differential expression of integrins, growth factor receptors (GFRs), and AR in normal and cancerous epithelium. In addition, we discuss how signals from integrins, GFRs, and AR are integrated to regulate the proliferation and survival of normal and malignant prostate epithelial cells. While cell adhesion is likely of great importance when considering therapeutic approaches for treatment of metastatic prostate cancer, no data on integrin expression are available from tissues of prostate cancer metastasis. However, several drug targets that are upregulated after androgen ablative therapy regulate cell adhesion and thus novel targeted therapies indirectly interfere with cell adhesion mechanisms in prostate cancer cells.