The Genomic Actions and Functional Implications of Nuclear PRLr in Human Breast Carcinoma

Abstract

The role of the polypeptide hormone prolactin (PRL) in the pathogenesis and progression of human breast cancer has become established in recent years. Acting at the autocrine/paracrine level, PRL functions to stimulate the growth and motility of human breast cancer cells. These actions require the presence of the transmembrane prolactin receptor (PRLr). The classic belief is that the PRLr functions "at a distance" through the activation of signaling networks. However, numerous reports now indicate that intact transmembrane receptors localize to the nucleus and directly contribute to transcriptional activation. Yet, without DNA binding capabilities or intrinsic chromatin remodeling activity, the mechanism by which these receptors serve to regulate transcription remains elusive. In this thesis, we investigate the function of nuclear PRLr, given preliminary observations of its nuclear presence. For the first time, we find that the prolactin receptor (PRLr) localizes to the nucleus where it functions as a co-activator through interaction with the latent transcription factor Stat5a and the high mobility group N2 protein (HMGN2). We identify a novel transactivation domain (TAD) within the PRLr and demonstrate that it is activated by ligand-induced phosphorylation, an event coupled to HMGN2 binding. Depletion of HMGN2 reduces binding of PRLr and Stat5a to chromatin, and results in impaired Stat5adrive gene expression. We propose that the PRLr-mediated recruitment of HMGN2 facilitates PRLr/Stat5a assembly onto chromatin, thus enabling Stat5a-driven transcription. These data are of significant importance to the broad field of signal transduction as they expand the growing field of cell surface receptor nuclear localization to include a novel receptor. In addition, these studies are of note as they elucidate a molecular mechanism though which cell surface receptor-mediated transcriptional regulation is achieved.

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Document Details

Document Type
Technical Report
Publication Date
Mar 01, 2011
Accession Number
ADA544298

Entities

People

  • Alyson A Fiorillo

Organizations

  • Northwestern University

Tags

Communities of Interest

  • Biomedical

DTIC Thesaurus Topics

  • Biomedical And Dental Materials
  • Breast Cancer
  • Carcinoma
  • Carrier Proteins
  • Cell Line
  • Cell Membrane
  • Cell Physiological Processes
  • Cells
  • Cellular Structures
  • Chemical Synthesis
  • Chemistry
  • Department Of Defense
  • Epithelial Cells
  • Mammary Glands
  • Proteins
  • Statistical Analysis
  • Transcription Factors

Fields of Study

  • Biology

Readers

  • Breast cancer cell signaling and growth regulation.
  • Oncology (Cancer Research).