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Browsing by Author "Beasley, Lindsay"
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Item Abstract 26: The Role of Oxygen in Cord Blood Hematopoietic Stem and Progenitor Cell Expansion and Engraftment(Oxford University Press, 2023-09-04) Ropa, James; Gutch, Sarah; Beasley, Lindsay; Van't Hof, Wouter; Kaplan, Mark; Capitan, Maegan; Microbiology and Immunology, School of MedicineIntroduction: Hematopoietic stem (HSC) and progenitor cells (HPCs) are exposed to differing oxygen tensions ranging from <1% to 21% as they reside in/move through different tissues or are harvested for clinical utility. Functional changes in HSCs/HPCs are induced by acute changes in oxygen tension (e.g., a change in percent of cells in cycle). Objectives: We sought to determine if variable oxygen levels affect expansion and/or functional properties of cord blood (CB) HSCs/HPCs ex vivo and in vivo. Methods: Human CB CD34+ cells were grown in expansion culture +/-UM171, an agonist of HSC self-renewal that expands transplantable CB HSCs, in five oxygen tensions: 1%O2, 3%O2, 5%O2, 14%O2, and 21%O2. HSCs/HPCs were enumerated by flow cytometry. Functional HPCs were enumerated by plating in semi solid media for colony forming unit assays (CFU). Cell cycle and reactive oxygen species (ROS) were measured by flow cytometry. Ability of expanded cells to engraft was determined by transplantation in non-lethally irradiated NSG mice. Results: Immunophenotypic HPCs and functional HPC CFUs expanded significantly more after 7 days of growth in higher oxygen tensions (5%O2-21%O2) compared to lower (1%O2-3%O2), while immunophenotypic HSCs expanded best at 5% O2. HSCs/HPCs grown in low oxygen tensions had significantly lower ROS levels, significantly higher percentage of cells in G0, and were slightly but reproducibly smaller/less granular than those grown in high oxygen levels. HSC/HPC numbers were reduced in high oxygen tensions 1-2 days after plating but were better maintained in low, suggesting cells undergo a culture shock/stress after plating that is mitigated by reduced oxygen. In the presence of UM171, HSCs expanded significantly better at higher oxygen levels, but HPCs are better maintained in 5%O2. Ex vivo CD34+ expansions maintained under physiological O2 levels (1-14%O2) demonstrated significantly better/faster neutrophil recovery following transplantation compared to cells expanded at 21%O2 or input. Discussion: HSCs/HPCs proliferate rapidly in high oxygen but have fewer quiescent cells, higher ROS, and are larger and more granular which are all characteristics associated with exhaustion. While high oxygen allows for faster growth, low tensions may mitigate cell stress and allow for prolonged growth (i.e., HSC/HPC expansion) while maintaining functional properties.Item BATF sustains homeostasis and functionality of bone marrow Treg cells to preserve homeostatic regulation of hematopoiesis and development of B cells(Frontiers Media, 2023-02-22) Tikka, Chiranjeevi; Beasley, Lindsay; Xu, Chengxian; Yang, Jing; Cooper, Scott; Lechner, Joseph; Gutch, Sarah; Kaplan, Mark H.; Capitano, Maegan; Yang, Kai; Pediatrics, School of MedicineBone marrow Treg cells (BM Tregs) orchestrate stem cell niches crucial for hematopoiesis. Yet little is known about the molecular mechanisms governing BM Treg homeostasis and function. Here we report that the transcription factor BATF maintains homeostasis and functionality of BM Tregs to facilitate homeostatic regulation of hematopoiesis and B cell development. Treg-specific ablation of BATF profoundly compromised proportions of BM Tregs associated with reduced expression of Treg effector molecules, including CD44, ICOS, KLRG1, and TIGIT. Moreover, BATF deficiency in Tregs led to increased numbers of hematopoietic stem cells (HSCs), multipotent progenitors (MPPs), and granulocyte-macrophage progenitors (GMPs), while reducing the functionality of myeloid progenitors and the generation of common lymphoid progenitors. Furthermore, Tregs lacking BATF failed to support the development of B cells in the BM. Mechanistically, BATF mediated IL-7 signaling to promote expression of effector molecules on BM Tregs and their homeostasis. Our studies reveal a previously unappreciated role for BATF in sustaining BM Treg homeostasis and function to ensure hematopoiesis.Item Protocol for enrichment and functional analysis of human hematopoietic cells from umbilical cord blood(Elsevier, 2024) Gutch, Sarah; Beasley, Lindsay; Cooper, Scott; Kaplan, Mark H.; Capitano, Maegan L.; Ropa, James; Microbiology and Immunology, School of MedicineUmbilical cord blood (CB) is a donor source for hematopoietic cell therapies. Understanding what drives hematopoietic stem and progenitor cell function is critical to our understanding of the usage of CB in hematopoietic cell therapies. Here, we describe how to isolate and analyze the function of human hematopoietic cells from umbilical CB. This protocol demonstrates assays that measure phenotypic properties and hematopoietic cell potency. For complete details on the use and execution of this protocol, please refer to Broxmeyer et al.