The treatment of a number of diseases including hemoglobinopathies and malaria will require a fundamental understanding of both cellular and molecular aspects of human erythropoiesis. Many experimental methodologies aimed at understanding this process are inherently limited by the use of nonhuman cells and cell lines derived from transformed cells. The prospective study of human erythropoiesis using peripheral blood derived cells has been limited by retrospective analyses associated with semisolid culture of individual cells and contaminating populations within bulk cultures. We have taken a direct approach toward the prospective study of the early and late transcriptional events that encompass human erythropoiesis by examining cells that proliferate in culture specifically in response to the hormone erythropoietin. Using flow cytometry to analyze liquid cultured blood from normal volunteers, we have identified and temporally phenotyped the erythroid continuum of cells present in bulk cultures. This approach permitted us to identify, quantitate and purify erythroblasts that are transcriptionally committed to erythroid differentiation at early (progenitor) and late (precursor) developmental stages. The progenitor cell population is pivitol for the study of proliferation and differentiation events associated with normal and abnormal human erythropoiesis. The precursor cell population is equally important for defining the transcriptional events required for terminal erythroid cell differentiation. Our goal is to fully characterize these cell populations using current molecular genetic methods in order to understand and manipulate their transcriptional patterns. We are amassing a robust database describing the transcriptional profile of genes active in pure populations of erythroid progenitor and precursor cells. Several thousand genes have been identified including several hundred novel transcripts. These normal transcriptional profiles will be used as a template for disease correlates. Directly related studies involving improvements in erythroid culture models, array based assays of genes transcribed in erythroid cells, flow cytometric assays of erythroid cells, and the design and production of gene transfer vectors targeted to human hematopoietic cells are also being performed in the laboratory. - human, erythropoiesis, genetic therapy, flow cytometry, cloning, transcription
de Vasconcellos, Jaira F; Lee, Y Terry; Byrnes, Colleen et al. (2016) HMGA2 Moderately Increases Fetal Hemoglobin Expression in Human Adult Erythroblasts. PLoS One 11:e0166928 |
Oneal, Patricia A; Gantt, Nicole M; Schwartz, Joseph D et al. (2006) Fetal hemoglobin silencing in humans. Blood 108:2081-6 |
Miller, Jeffery Lynn (2006) Patchwork HBA1 and HBA2 genes. Haematologica 91:289A |
Bhanu, Natarajan V; Trice, Tiffany A; Lee, Y Terry et al. (2005) A sustained and pancellular reversal of gamma-globin gene silencing in adult human erythroid precursor cells. Blood 105:387-93 |
Miller, Jeffery L (2005) Signaled expression of fetal hemoglobin during development. Transfusion 45:1229-32 |
Goh, Sung-Ho; Lee, Y Terry; Bhanu, Natarajan V et al. (2005) A newly discovered human alpha-globin gene. Blood 106:1466-72 |
Bhanu, Natarajan V; Trice, Tiffany A; Lee, Y Terry et al. (2004) A signaling mechanism for growth-related expression of fetal hemoglobin. Blood 103:1929-33 |
Goh, Sung-Ho; Jackson, Kaedrea A; Terry Lee, Y et al. (2004) Identification of an alternate delta-globin mRNA in adult human erythroid cells. Genomics 84:431-4 |
Miller, Jeffery L (2004) A genome-based approach for the study of erythroid biology and disease. Blood Cells Mol Dis 32:341-3 |
Goh, Sung-Ho; Lee, Y Terry; Bouffard, Gerard G et al. (2004) Hembase: browser and genome portal for hematology and erythroid biology. Nucleic Acids Res 32:D572-4 |
Showing the most recent 10 out of 28 publications