Laurie Littlepage has become the newest member of the faculty in the Department of Chemistry and Biochemistry at the University of Notre Dame. As an assistant professor, she will direct research in the Mike and Josie Harper Cancer Resesarch Institute.
Littlepage's research program is focused on the contributions of the epithelium and surrounding stroma/microenvironment to both cancer progression and normal mammary gland development.
She has focused on three major projects:
- The transcription factor/oncogene Znf217 that promotes a progenitor cell phenotype, metastasis and chemoresistance during breast cancer progression
- MMP3/Stromelysin-1 promotion of progenitor expansion, genomic instability, DNA damage, and centrosome amplification during mammary tumor progression
- Matrix metalloproteinases that contribute distinct roles in neuroendocrine prostate carcinogenesis, metastasis, and angiogenesis progression.
Overall, her research is grounded in understanding the mechanisms of cancer progression and in identifying therapies that prevent or reverse cancer in patients. She develops and uses integrated mouse models and genome-wide association studies to understand the contributions of specific genes in vivo at multiple points in cancer progression, spanning from normal mammary development to tumor progression and metastasis and chemotherapy resistance.
She uses a combination of mouse and human xenograft in vivo models, cell culture and organotypic cultures, and systems biology approaches to study biomarkers of epithelial plasticity and to determine how these genes drive aberrations in fundamental biological processes, e.g., differentiation state, progenitor cell maintenance, metabolism, and genomic integrity.
She also is identifying targeted therapies appropriate for personalized treatment of cancer patients based on these biomarkers.
Littlepage will arrive on campus this coming Fall. She is currently completing her post-doctoral fellowship at the University of California, San Francisco, in the Zena Werb lab. She obtained her doctorate in Cell & Developmental Biology from Harvard. She holds a bachelor of science degree in Biochemistry & Molecular Biology from the University of Texas.