Rodrigo Fernandez-Valdivia, PhD
9248 Scott Hall
540 E. Canfield
Detroit, MI 48201
Our laboratory works on Notch signaling in breast and lung biology
- O-glucose regulation of Notch signaling in breast and lung development and carcinogenesis.
- Regulation of mammary gland stem cell function, fate specification and transformation.
- Notch synthetic genetic interactions and cross-talks in breast and lung morphogenesis and tumorigenesis.
Our laboratory conducts research focused on the elucidation of the molecular mechanisms that control the intercellular signaling governing organogenesis and cancer development. We are particularly interested in the study of cell-to-cell communication pathways in breast and lung development, and in defining how deregulation of these signals leads to neoplastic conversion. We use highly innovative mouse genetic approaches to define the cell-specific roles of the Notch pathway in breast and lung biology by modulating Notch signaling activity in specific cell populations of the mammary and lung epithelia. Our laboratory is also interested in defining the cellular origins of the distinct subtypes of breast and lung cancers, and in establishing the role of Notch signaling as a downstream mediator of nuclear receptor signaling in the breast epithelium, particularly in mammary gland stem cells. Our laboratory has a strong interest in developing of novel technologies for lineage analysis of normal and cancer stem cells, and in the identification of pharmacologically targetable pathways to treat breast and lung cancers.
Dzinic SH, Bernardo MM, Li X, Fernandez-Valdivia R, Ho YS, Mi QS, Bandyopadhyay S, Lonardo F, Vranic S, Oliveira DS, Bonfil RD, Dyson G, Chen K, Omerovic A, Sheng X, Han X, Wu D, Bi X, Cabaravdic D, Jakupovic U, Wahba M, Pang A, Harajli D, Sakr WA, Sheng S. An Essential Role of Maspin in Embryogenesis and Tumor Suppression. Cancer Res. 2017;77:886-96.
Gal A, Lin PC, Cacioppo JA, Hannon PR, Mahoney MM, Wolfe A, Fernandez-Valdivia R, Lydon JP, Elias CF, Ko C. Loss of Fertility in the Absence of Progesterone Receptor Expression in Kisspeptin Neurons of Female Mice. PLoS One. 2016;11:e0159534.
Thakurdas SM, Lopez MF, Kakuda S, Fernandez-Valdivia R, Zarrin-Khameh N, Haltiwanger RS, Jafar-Nejad H. Jagged1 heterozygosity in mice results in a congenital cholangiopathy which is reversed by concomitant deletion of one copy of Poglut1 (Rumi). Hepatology. 2016;63:550-65.
Education and Training:
Biology Major Degree (1998): Universidad Nacional de San Agustin de Arequipa, Peru
Advanced Studies Title in Histology – Master (2001): Universidad Autonoma de Madrid, Spain
PhD Cellular Biology and Genetics (2006): Universidad Autonoma de Madrid, Spain
Postdoctoral Fellowship (2007-2011): Institute of Molecular Medicine, University of Texas at Houston, Texas
Cancer Biology Courses Taught:
CB7220 Molecular Biology of Cancer Development
CB7460 Mechanism of Neoplasia: Alterations to Cellular Signaling