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Item Angiogenesis: A Cellular Response to Traumatic Injury(Wolters Kluwer, 2020) Pecoraro, Anthony R.; Hosfield, Brian D.; Li, Hongge; Shelley, W. Christopher; Markel, Troy A.; Surgery, School of MedicineThe development of new vasculature plays a significant role in a number of chronic disease states, including neoplasm growth, peripheral arterial disease, and coronary artery disease, among many others. Traumatic injury and hemorrhage, however, is an immediate, often dramatic pathophysiologic insult which can also necessitate neovascularization to promote healing. Traditional understanding of angiogenesis involved resident endothelial cells branching outward from localized niches in the periphery. Additionally, there are a small number of circulating endothelial progenitor cells which participate directly in the process of neovessel formation. The bone marrow stores a relatively small number of so-called pro-angiogenic hematopoietic progenitor cells (PACs) – that is, progenitor cells of a hematopoietic potential that differentiate into key structural cells and stimulate or otherwise support local cell growth/differentiation at the site of angiogenesis. Following injury, a number of cytokines and intercellular processes are activated or modulated to promote development of new vasculature. These processes initiate and maintain a robust response to vascular insult, allowing new vessels to canalize and anastomose and provide timely oxygen delivering to healing tissue. Ultimately as we better understand the key players in the process of angiogenesis we can look to develop novel techniques to promote healing following injury.Item The first wave of B lymphopoiesis develops independently of stem cells in the murine embryo(Wiley, 2015-02-01) Yoshimoto, Momoko; Department of Pediatrics, IU School of MedicineIn the developing mouse embryo, there are several waves of hematopoiesis. Primitive and definitive erythromyeloid lineages appear prior to hematopoietic stem cell (HSC) emergence, and these waves are considered to be transient and support embryonic homeostasis until HSC-derived hematopoiesis is established. However, recent evidence strongly suggests that HSC-independent immune cells, such as tissue macrophages and some innate lymphoid cells, develop in the mouse embryo and persist into postnatal life. Innate type B-1 cells have also been reported to emerge from hemogenic endothelial cells in the extraembryonic yolk sac and para-aortic splanchnopleura, and continue to develop in the fetal liver, even in HSC-deficient mouse embryos. Here, this review discusses B-1 cell development in the context of the layered immune system hypothesis of B lymphopoiesis and the emergence of B-1 cells independent of HSCs.Item Generating Autologous Hematopoietic Cells from Human Induced Pluripotent Stem Cells through Ectopic Expression of Transcription Factors(Lippincott, Williams, and Wilkins, 2017-07) Hwang, Yongsung; Broxmeyer, Hal E.; Lee, Man Ryul; Department of Microbiology and Immunology, School of MedicinePurpose of review: Hematopoietic cell transplantation (HCT) is a successful treatment modality for patients with malignant and nonmalignant disorders, usually when no other treatment option is available. The cells supporting long-term reconstitution after HCT are the hematopoietic stem cells (HSCs), which can be limited in numbers. Moreover, finding an appropriate human leukocyte antigen-matched donor can be problematic. If HSCs can be stably produced in large numbers from autologous or allogeneic cell sources, it would benefit HCT. Induced pluripotent stem cells (iPSCs) established from patients’ own somatic cells can be differentiated into hematopoietic cells in vitro. This review will highlight recent methods for regulating human (h) iPSC production of HSCs and more mature blood cells. Recent findings: Advancements in transcription factor-mediated regulation of the developmental stages of in-vivo hematopoietic lineage commitment have begun to provide an understanding of the molecular mechanism of hematopoiesis. Such studies involve not only directed differentiation in which transcription factors, specifically expressed in hematopoietic lineage-specific cells, are overexpressed in iPSCs, but also direct conversion in which transcription factors are introduced into patient-derived somatic cells which are dedifferentiated to hematopoietic cells. As iPSCs derived from patients suffering from genetically mutated diseases would express the same mutated genetic information, CRISPR-Cas9 gene editing has been utilized to differentiate genetically corrected iPSCs into normal hematopoietic cells. Summary: IPSCs provide a model for molecular understanding of disease, and also may function as a cell population for therapy. Efficient differentiation of patient-specific iPSCs into HSCs and progenitor cells is a potential means to overcome limitations of such cells for HCT, as well as for providing in-vitro drug screening templates as tissue-on-a-chip models.Item Genotoxic stresses promote clonal expansion of hematopoietic stem cells expressing mutant p53(Nature, 2018) Chen, Sisi; Gao, Rui; Yao, Chonghua; Kobayashi, Michihiro; Liu, Stephen Z.; Yoder, Mervin C.; Broxmeyer, Hal; Kapur, Reuben; Boswell, H. Scott; Mayo, Lindsey D.; Liu, Yan; Pediatrics, School of MedicineItem Hematopoietic Stem Cell Intracellular Levels of Ca2+ to the Rescue! What Next?(Elsevier, 2019-08) Broxmeyer, Hal E.; Microbiology and Immunology, School of MedicineCalcium ions (Ca2+), ubiquitous signaling and second messenger molecules, are communicators for the transmission of messages in numerous cell functions. In this issue of Cell Stem Cell, Luchsinger et al. (2019) provide evidence through the use of transplantation and mechanistic studies for the finding that, “Harnessing Hematopoietic Stem Cell Low Intracellular Calcium Improves Their Maintenance In Vitro.”Item Hematopoietic stem/progenitor involvement in retinal microvascular repair during diabetes: Implications for bone marrow rejuvenation(Elsevier, 2017-10) Bhatwadekar, Ashay D.; Duan, Yaqian; Korah, Maria; Thinschmidt, Jeffrey S.; Hu, Ping; Leley, Sameer P.; Caballero, Sergio; Shaw, Lynn; Busik, Julia; Grant, Maria B.; Ophthalmology, School of MedicineThe widespread nature of diabetes affects all organ systems of an individual including the bone marrow. Long-term damage to the cellular and extracellular components of the bone marrow leads to a rapid decline in the bone marrow-hematopoietic stem/progenitor cells (HS/PCs) compartment. This review will highlight the importance of bone marrow microenvironment in maintaining bone marrow HS/PC populations and the contribution of these key populations in microvascular repair during the natural history of diabetes. The autonomic nervous system can initiate and propagate bone marrow dysfunction in diabetes. Systemic pharmacological strategies designed to protect the bone marrow-HS/PC population from diabetes induced-oxidative stress and advanced glycation end product accumulation represent a new approach to target diabetic retinopathy progression. Protecting HS/PCs ensures their participation in vascular repair and reduces the risk of vasogdegeneration occurring in the retina.Item Increased Incidence of Lymphosarcoma in Long-Term Murine Survivors of Lethal Radiation: A Classification of Subtypes(Office of the Vice Chancellor for Research, 2013-04-05) Spencer, Cleandrea; Chua, Hui Lin; Plett, Arthur; Sampson, Carol; Joshi, Mandar; Roberts, Christopher S.; Lipking, Kelsey; Orschell, Christie M.; Sandusky, George E.Residual bone marrow damage (RBMD) persists for years following exposure to radiation and is thought to be due to decreased self-renewal of hematopoietic stem cells (HSC). We previously examined RBMD in murine survivors of lethal radiation modeling a terrorist event [800cGy total-body irradiation (TBI)]. We reported severely deficient HSC potential up to 20mo post-TBI compared to non-TBI age-matched controls, evidenced by minimal engraftment skewed to myeloid cells. CBC and BM cellularity were decreased in TBI mice, most dramatically in old age (>16mo). The percentage of some hematopoietic progenitors was consistently increased in TBI mice (~1.4x higher than non-TBI) possibly due to an increased cell cycling rate compared to non-TBI cells. Of interest, we now report the occurrence of a thymic mass developing in 13-24% of TBI mice 2-19 months post-TBI, compared to <1% of non-TBI. We characterized the Lymphosarcoma into the following groups based on the St. Jude pathology subclassification: Diffuse Lymphosarcoma involving multiple organs, Thymic lymphoma (usually associated with thymic and around the heart), Lymphosarcoma (potentially starting in the spleen and peri-pancreatic lymph nodes (Ab=abdomen)), and follicular lymphoma seen as a diffuse proliferation of lymphocytes in the white pulp area in the spleen. Thymic lymphomas were the most common, followed by Lymphosarcoma (Ab), follicular lymphoma (restricted to white pulp area in the spleen) and diffuse Lymphosarcoma. Immunostain markers revealed the thymic lymphomas were from T-cell lineage and the abdominal Lymphosarcoma were mainly from B-cell lineage. A few mice had disease involving the bone marrow. Taken together, these data suggest that the increased cycling among primitive hematopoietic cells in survivors of lethal radiation may contribute to stem cell exhaustion and subsequent RBMD, as well as predispose survivors to hematopoietic neoplasias.Item Leptin Receptor, a Surface Marker for a Subset of Highly Engrafting Long-Term Functional Hematopoietic Stem Cells(2021-04) Trinh, Thao Le Phuong; Broxmeyer, Hal E.; Srour, Edward F.; Kapur, Reuben; Utpal, DaveThe entire hematopoietic system rests upon a group of very rare cells called hematopoietic stem cells (HSCs). Due to this extraordinarily crucial role, after birth HSCs are localized to the deep bone marrow niche, a hypoxic environment inside the bone where HSCs are under well-orchestrated regulation by both cellular and humoral factors. Among the cellular components regulating hematopoiesis are Leptin Receptor (LEPR)-expressing mesenchymal/stromal cells and adipocytes; both have been demonstrated to have significant influence on the maintenance of HSCs under homeostasis and in stress-related conditions. It has been reported in early work by others that HSCs and hematopoietic progenitor cells (HPCs) express LEPR. However, whether LEPR+ HSCs/HPCs are functionally different from other HSCs/HPCs was unknown. In this study, I demonstrated for the first time that murine LEPR+ Lineage-Sca-1+cKit+ (LSK, a heterogenous population consisting of HSCs/HPCs) cells even though constituting a small portion of total LSK cells are significantly enriched for both phenotypic and functional self-renewing long-term (LT) HSCs as shown in primary and secondary transplants in lethally irradiated recipients. LEPR+LSK cells are also more enriched for colony-forming progenitor cells assessed by colony-forming unit (CFU) assays. In addition, LEPR+ HSCs (defined as LSKCD150+CD48-) exhibited robust repopulating potential as compared to LEPR-HSCs in long-term competitive transplantation assays. To elucidate the molecular pathways that may govern functional properties of LEPR+HSCs, bulk RNA-seq on freshly sorted cells was done. Gene set enrichment analyses (GSEA) revealed Interferon Type I and Interferon γ (IFNγ) Pathways were significantly enriched in LEPR+HSCs while mitochondrial membrane protein gene set was significantly enriched in LEPR-HSCs. Interestingly, proinflammatory signaling including IFNγ pathway has been suggested to be critical for the emergence of embryonic HSCs from the hemogenic endothelium. Altogether, our work demonstrated that LEPR+HSCs represent a small subset of highly engrafting adult BM HSCs. These results may have potential therapeutic implications in the field of hematopoietic transplantation as LEPR is highly conserved between mice and humans.Item Mast cells in liver disease progression: An update on current studies and implications(Wiley, 2021-08) Pham, Linh; Kennedy, Lindsey; Baiocchi, Leonardo; Meadows, Vik; Ekser, Burcin; Kundu, Debjyoti; Zhou, Tianhao; Sato, Keisaku; Glaser, Shannon; Ceci, Ludovica; Alpini, Gianfranco; Francis, Heather; Medicine, School of MedicineItem Obstacles and Circumvention Strategies for Hematopoietic Stem Cell Transduction by Recombinant Adeno-associated Virus Vectors(2009-03-18T18:55:15Z) Maina, Caroline Njeri; Srivastava, Arun; Clapp, D. Wade; Yoder, Mervin C.; He, Johnny J.High-efficiency transduction of hematopoietic stem cells (HSCs) by recombinant adeno-associated virus serotype 2 (AAV2) vectors is limited by (i) inadequate expression of cellular receptor/co-receptors for AAV2; (ii) impaired intracellular trafficking and uncoating in the nucleus; (iii) failure of the genome to undergo second-strand DNA synthesis; and (iv) use of sub-optimal promoters. Systematic studies were undertaken to develop alternative strategies to achieve high-efficiency transduction of primary murine HSCs and lineage-restricted transgene expression in a bone marrow transplant model in vivo. These included the use of: (i) additional AAV serotype (AAV1, AAV7, AAV8, AAV10) vectors; (ii) self-complementary AAV (scAAV) vectors; and (iii) erythroid cell-specific promoters. scAAV1 and scAAV7 vectors containing an enhanced green-fluorescent protein (EGFP) reporter gene under the control of hematopoietic cell-specific enhancers/promoters allowed sustained transgene expression in an erythroid lineage-restricted manner in both primary and secondary transplant recipient mice. Self complementary AAV vectors containing an anti-sickling human beta-globin gene under the control of either the beta-globin gene promoter/enhancer, or the human parvovirus B19 promoter at map-unit 6 (B19p6) were tested for their efficacy in a human erythroid cell line (K562), and in primary murine hematopoietic progenitor cells (c-kit+, lin-). These studies revealed that (i) scAAV2-beta-globin vectors containing only the HS2 enhancer are more efficient than ssAAV2-beta-globin vectors containing the HS2+HS3+HS4 enhancers; (ii) scAAV-beta-globin vectors containing only the B19p6 promoter are more efficient than their counterparts containing the HS2 enhancer/beta-globin promoter; and (iii) scAAV2-B19p6-beta-globin vectors in K562 cells, and scAAV1-B19p6-beta-globin vectors in murine c-kit+, lin- cells, yield efficient expression of the beta-globin protein. These studies suggest that the combined use of scAAV serotype vectors and the B19p6 promoter may lead to expression of therapeutic levels of beta-globin gene in human erythroid cells, which has implications in the potential gene therapy of beta-thalassemia and sickle cell disease.