Amanda C.
LaRue, Ph.D.
Assistant
Professor of Pathology
Medical University of South Carolina
Office
Location: Research Services (151)
Ralph H. Johnson VA Medical Center
Phone: 843-789-6712
Education:
| 1993-1997 | B.S., Biology; B.A., French; Wofford College, Spartanburg, South Carolina |
| 1999-2003 | Ph.D., Molecular, Cellular and Pathobiology, Department of Cell
Biology and Anatomy Medical University of South Carolina, Charleston, South Carolina Dissertation title: Regulation of Vascular Pattern Formation during Vasculogenesis |
Research Interests:
My primary research focus is the tissue reconstituting potentials of hematopoietic stem cells (HSCs). Current studies in the laboratory are aimed at two major areas of interest: 1) the role of HSCs in the development and progression of solid tumors and 2) the role of HSCs in the generation of mesenchymal cells including osteocytes and chondrocytes.
Selected Publications:
Drake, C.J., LaRue, A., Ferrara, N., and Little, C.D. (2000). VEGF regulates cell behavior during vasculogenesis. Developmental Biology, 224, 18-188.
Argraves, W.S., LaRue, A.C., Fleming, P.A and Drake, C.J. (2002). VEGF is required for the assembly but not the maintenance of embryonic blood vessels. Developmental Dynamics, 225, 298-304.
LaRue, A.C., Mironov, V.A., Argraves, W.S., Czirók, A., Fleming, P.A and Drake, C.J. (2003). Patterning of embryonic blood vessels. Developmental Dynamics, 228, 21-29.
LaRue, A.C., Lansford, R., and Drake, C.J. (2003). Blood island-derived stem cells contribute to intraembryonic vasculogenesis. Developmental Biology, 262, 162-172.
Drake, C.J., Fleming, P.A., LaRue, A.C., Barth, J.L., Chintalapudi, M.R. and Argraves,
W.S. (2004). Differential distribution of Cubilin and Megalin expression in the mouse embryo. The Anatomical Record, Part A, 277A:163-170.
LaRue, A.C., Zile, M.H., and Drake, C.J. (2004). Normal vascular morphogenesis requires retinol-mediated regulation of endothelial cell numbers. Developmental Dynamics, 230(4), 666-674.
Wang, Y., Schulte, B.A., LaRue, A.C., Ogawa, M. and Zhou, D. (2005). Total body irradiation selectively induces murine hematopoietic stem cell senescence. Blood, 107, 358-366.
Ebihara, Y., Masuya, M., LaRue, A.C., Yang, S., Owens, R.W., Argraves, K., Visconti, R.P., Fleming, P.A., Minamiguchi, H., Hill, W.D. Martin-Studdard, A., Drake, C.J., Ogawa, M. (2006). Fibroblasts, CFU-F and fibrocytes are derived from bone marrow hematopoietic stem cells. Experimental Hematology, 34, 219-229.
LaRue, A.C., Masuya, M., Ebihara, Y., Fleming, P.A., Visconti, R.P., Ogawa, M., and Drake, C.J. (2006). The hematopoietic origin of tumor fibroblasts and pericytes. Experimental Hematology, 34, 208-218.
Visconti, R.P., LaRue, A.C., Ebihara, Y., McQuinn, T.C., Fleming, P.A., Minimaguchi, H., Markwald. R.R., Ogawa, M., Drake, C.J. (2006). Hematopoietic stem cell-derived valve interstitial cells contribute to adult valve homeostasis. Circulation Research, 98, 690-6.
Ogawa, M., LaRue, A.C., Drake, C.J. (2006). Hematopoietic Origin of Fibroblasts/Myofibroblasts: Its Patho-physiological Implications. Blood, 108, 2893-2896.
Szalai, G., LaRue, A.C. and Watson, D.K. (2006). Molecular Mechanisms of Megakaryopoiesis. Cellular and Molecular Life Sciences, 63, 2460-2476.
Ogawa, M. and LaRue, A.C. (2007). Origin of CFU-F. Experimental Hematology. In press.
Moussa O., LaRue A.C., Szalai1 G., Zhang X.K., Masuya M., Gong Y.Z., Spyropoulos D.D., Ogawa M., Gilkeson G., Watson D.K. Hematopoietic defects in mice lacking the carboxy-terminal regulatory domain of the Ets transcription factor Fli1. (In Revision, Blood).
Book Chapters
LaRue, A.C. and Ogawa, M. (2007). Hematopoietic Origin of Fibrocytes. In Fibrocytes: New Insights into Tissue Repair and Systemic Fibroses. Editor, Richard Bucala.
