Heidi N Hilton

Publications (4)26.11 Total impact

• Article: The Ets transcription factor Elf5 specifies mammary alveolar cell fate.

  Samantha R Oakes, Matthew J Naylor, Marie-Liesse Asselin-Labat, Katrina D Blazek, Margaret Gardiner-Garden, Heidi N Hilton, Michael Kazlauskas, Melanie A Pritchard, Lewis A Chodosh, Peter L Pfeffer, Geoffrey J Lindeman, Jane E Visvader, Christopher J Ormandy
  [show abstract] [hide abstract]
  ABSTRACT: Hormonal cues regulate mammary development, but the consequent transcriptional changes and cell fate decisions are largely undefined. We show that knockout of the prolactin-regulated Ets transcription factor Elf5 prevented formation of the secretory epithelium during pregnancy. Conversely, overexpression of Elf5 in an inducible transgenic model caused alveolar differentiation and milk secretion in virgin mice, disrupting ductal morphogenesis. CD61+ luminal progenitor cells accumulated in Elf5-deficient mammary glands and were diminished in glands with Elf5 overexpression. Thus Elf5 specifies the differentiation of CD61+ progenitors to establish the secretory alveolar lineage during pregnancy, providing a link between prolactin, transcriptional events, and alveolar development.
  Genes & Development 04/2008; 22(5):581-6. · 11.66 Impact Factor
• Article: KIBRA interacts with discoidin domain receptor 1 to modulate collagen-induced signalling.

  Heidi N Hilton, Prudence M Stanford, Jessica Harris, Samantha R Oakes, Warren Kaplan, Roger J Daly, Christopher J Ormandy
  [show abstract] [hide abstract]
  ABSTRACT: Mammary gland development is coupled to reproductive events by hormonal cues of ovarian and pituitary origin, which activate a genomic regulatory network. Identification of the components and regulatory links that comprise this network will provide the basis for defining the network's dynamic response during normal development and its perturbation during breast carcinogenesis. In this study KIBRA was identified as a transcript showing decreased expression associated with failed mammary gland development in Prlr knockout mammary epithelium. It is strongly up-regulated during pregnancy, falls during lactation and is again up-regulated during involution of the gland at weaning. A bioinformatic approach was undertaken to identify potential binding partners which interact with the WW domains of KIBRA. We show that KIBRA binds to a WW domain binding motif, PPxY, in the tyrosine kinase receptor DDR1, and dissociates upon treatment with the DDR1 ligands collagen type I or IV. In addition we show that KIBRA and DDR1 also interact with PKCz to form a trimeric complex. Finally, overexpression and knockdown studies demonstrate that KIBRA promotes the collagen-stimulated activation of the MAPK cascade. Thus KIBRA may play a role in how the reproductive state influences the mammary epithelial cell to respond to changing cell-context information, such as experienced during the tissue remodeling events of mammary gland development.
  Biochimica et Biophysica Acta 04/2008; 1783(3):383-93. · 4.66 Impact Factor
• Article: Socs2 and elf5 mediate prolactin-induced mammary gland development.

  Jessica Harris, Prudence M Stanford, Kate Sutherland, Samantha R Oakes, Matthew J Naylor, Fiona G Robertson, Katrina D Blazek, Michael Kazlauskas, Heidi N Hilton, Sergio Wittlin, Warren S Alexander, Geoffrey J Lindeman, Jane E Visvader, Christopher J Ormandy
  [show abstract] [hide abstract]
  ABSTRACT: The proliferative phase of mammary alveolar morphogenesis is initiated during early pregnancy by rising levels of serum prolactin and progesterone, establishing a program of gene expression that is ultimately responsible for the development of the lobuloalveoli and the onset of lactation. To explore this largely unknown genetic program, we constructed transcript profiles derived from transplanted mammary glands formed by recombination of prolactin receptor (Prlr) knockout or wild-type mammary epithelium with wild-type mammary stroma. Comparison with profiles derived from prolactin-treated Scp2 mammary epithelial cells produced a small set of commonly prolactin-regulated genes that included the negative regulator of cytokine signaling, Socs2 (suppressor of cytokine signaling 2), and the ets transcription factor, E74-like factor 5 (Elf5). Homozygous null mutation of Socs2 rescued the failure of lactation and reduction of mammary signal transducer and activator of transcription 5 phosphorylation that characterizes Prlr heterozygous mice, demonstrating that mammary Socs2 is a key regulator of the prolactin-signaling pathway. Reexpression of Elf5 in Prlr nullizygous mammary epithelium restored lobuloalveolar development and milk production, demonstrating that Elf5 is a transcription factor capable of substituting for prolactin signaling. Thus, Socs2 and Elf5 are key members of the set of prolactin-regulated genes that mediate prolactin-driven mammary development.
  Molecular Endocrinology 05/2006; 20(5):1177-87. · 4.54 Impact Factor
• Source

  Available from: Samantha Richelle Oakes

  Article: The alveolar switch: coordinating the proliferative cues and cell fate decisions that drive the formation of lobuloalveoli from ductal epithelium.

  Samantha R Oakes, Heidi N Hilton, Christopher J Ormandy
  [show abstract] [hide abstract]
  ABSTRACT: Massive tissue remodelling occurs within the mammary gland during pregnancy, resulting in the formation of lobuloalveoli that are capable of milk secretion. Endocrine signals generated predominantly by prolactin and progesterone operate the alveolar switch to initiate these developmental events. Here we review the current understanding of the components of the alveolar switch and conclude with an examination of the role of the ets transcription factor Elf5. We propose that Elf5 is a key regulator of the alveolar switch.
  Breast cancer research: BCR 02/2006; 8(2):207. · 5.24 Impact Factor