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Using zebrafish to identify new regulators of haematopoiesisSerbanovic-Canic, Jovana January 2013 (has links)
No description available.
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3-Phosphoinositide-dependent kinase-1 (PDK1)-mediated signaling regulates hematopoietic stem cell (HSC) quiesence by governing the oxidative responseMatsushima, Danielle Erina January 2016 (has links)
Regulation of hematopoiesis through the finite control of hematopoietic stem cell (HSC) quiescence and proliferation is critical to the health of the organism since disturbances in blood production can lead to clinical malignancies such as anemia or leukemia. Therefore, elucidating the processes that govern HSCs is vital to advance our understanding of hematological diseases. Interestingly, HSCs can be regulated through a variety of ways. Extrinsic cues from the niche provide signals that govern HSC quiescence, proliferation, self-renewal, and differentiation. These external signals are converted to internal messages through the use of signal transduction pathways that relay information from the cytoplasm to the nucleus. While many pathways contribute to HSC regulation, the PI3K/AKT/mTOR-pathway is especially pertinent because it has been implicated in cell survival, metabolism, proliferation, and death. Many groups have identified key players within PI3K/AKT/mTOR-signaling that regulate HSC quiescence; however, these studies are hindered by the redundancy of multiple isoforms and compensatory signaling mechanisms by other members within the pathway. PDK1 is considered to be a master regulator of PI3K-signaling because it is directly activated by PI3Ks and can govern activity of a variety of substrates within the PI3K-pathway. Because of this, it is an excellent candidate to fully delineate how PDK1-mediated PI3K-signaling functions to maintain HSC quiescence.
In the current study, conditional deletion of PDK1 in HSCs was achieved through the use of a hematopoietic specific Vav-Cre line. The loss of PDK1 in HSCs led to reduced numbers and an inability to provide radioprotection in primary BMTs. Furthermore, PDK1-deficient HSCs exhibit impaired quiescence and increased cycling. Strikingly, PDK1-mutant HSCs have markedly high levels of reactive oxygen species (ROS), which led to increased proliferation, DNA damage, and apoptosis in progenitor cells. Administration of a ROS scavenger, N-acetyl cysteine (NAC) partially rescued the increased proliferation and differentiation of phenotype Pdk1Hem-KO cells both in vitro and in vivo, suggesting that abnormal HSC activity in PDK1-deficient cells was in part due to increased ROS. Furthermore, mechanistic studies identified a remarkable decrease in the levels of nuclear HIF1α in HSCs. Immunoblots and phosflow studies demonstrated reduced activation of p-p70S6K, a well defined positive regulator, and increased GSK3β, a key negative regulator of the HIF1α protein. These data suggested that ROS levels are unrestrained since HIF1α is not present in Pdk1Hem-KO HSCs to activate transcription of genes that moderate oxidative stress. In addition, Pdk1Hem-KO HSCs also show increased levels of Hif3α and IPAS mRNA, which are believed to inhibit the transcriptional activation of HIF1α. In essence, the results from these experiments are the first to implicate PDK1 as a critical regulator of HSC quiescence and as a moderator of PI3K-signaling to alleviate oxidative stress. In addition, this study is the first to suggest that HIF3α and IPAS may play a role in HSCs.
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Stromal precursor cells : purification and the development of bone tissue / Stan Gronthos.Gronthos, Stan January 1998 (has links)
Bibliography: leaves 152-223. / xxiii, 223, [137] leaves, [27] leaves of plates : ill. (chiefly col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Experiments were designed to identify and purify human bone marrow stromal precursor cells by positive immunoselection, based on the cell surface expression of the VCAM-1 and STRO-1 antigens. The data presented demonstrates a hierarchy of bone cell development in vitro. / Thesis (Ph.D.)--University of Adelaide, Dept. of Orthopaedics Surgery and Trauma, 1998
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Stromal precursor cells : purification and the development of bone tissueGronthos, Stan. January 1998 (has links) (PDF)
Bibliography: leaves 152-223. Experiments were designed to identify and purify human bone marrow stromal precursor cells by positive immunoselection, based on the cell surface expression of the VCAM-1 and STRO-1 antigens. The data presented demonstrates a hierarchy of bone cell development in vitro.
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The dual roles of reactive oxygen species during erythropoiesis and the effect of salidroside on erythropoiesis and erythrocytes. / CUHK electronic theses & dissertations collectionJanuary 2011 (has links)
Qian, Wei. / Thesis (Ph.D.)--Chinese University of Hong Kong, 2011. / Includes bibliographical references (leaves 184-199). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese.
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Ex vivo expansion of human haemopoietic progenitor cellsHaylock, David Norman. January 2001 (has links) (PDF)
"December 2001." Includes bibliographical references (leaves 178-225) Focuses on the ex vivo growth of human haemopoietic progenitor cells with the objective of defining culture conditions for generating myeloid post-progenitor cells for therapy
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Ex vivo expansion of human haemopoietic progenitor cells / by David Norman Haylock.Haylock, David Norman January 2001 (has links)
"December 2001." / Includes bibliographical references (leaves 178-225) / xviii, 225 leaves : ill. (some col.), plates, charts ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Focuses on the ex vivo growth of human haemopoietic progenitor cells with the objective of defining culture conditions for generating myeloid post-progenitor cells for therapy / Thesis (Ph.D.)--University of Adelaide, Dept. of Molecular Biosciences, 2001
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Molecular definition of stromal cell-stem cell interactions / by Andrew Christopher William Zannettino.Zannettino, Andrew Christopher William January 1996 (has links)
Bibliography: leaves 271-325. / xxxiii, 325, [249] leaves, [23] leaves of plates : ill. (some col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / The date presented in this thesis is directed toward the molecular characterisation of cell surface molecules (CSMs) that mediate interactions between human haemopoietic progenitor cells (HPC) and cells of the bone marrow (BM) stroma. The research focuses on the role of selectins in the regulation of haemopoiesis, the identification and molecular characterisation of novel structures expressed at the surface of primitive human HPC and cultured BM stromal cells, the molecular characterisation of the antigen identified by the mAb HCC-1 which delineates a subset of the CD34+ cell population, and the molecular cloning of a novel mucin-like transmembrane glycoprotein termed MGC -24v. / Thesis (Ph.D.)--University of Adelaide, Dept. of Microbiology and Immunology, 1997?
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Protein malnutrition effects of perivascular bone marrow microenvironment on the regulation of hematopoiesis / Efeitos da desnutrição proteica sobre o microambiente perivascular medular na regulação da hematopoeseHastreiter, Araceli Aparecida 10 April 2019 (has links)
Protein malnutrition (PM) causes anemia and leukopenia by reduction of hematopoietic precursors and impaired production of mediators that induce hematopoiesis, as well as structural and ultrastructural changes in the bone marrow (BM) extracellular matrix. Hematopoiesis occurs in the bone marrow (BM) in distinct regions called niches, which modulate the processes of differentiation, proliferation and self-renewal of the hematopoietic stem cell (HSC). The perivascular niche, composed mainly by mesenchymal stem cells (MSC) and endothelial cells (EC), is the major modulator of HSC and its function extends to the migration of mature hematopoietic cells into the peripheral blood through the production of cytokines and growth factors. Thus, our hypothesis is that PM changes the perivascular niche and our objective is to evaluate whether PM affects the modulatory capacity of MSC and EC on hematopoiesis. C57BL/6 male mice were divided into Control and Malnourished groups, which received for 5 weeks, respectively, a normal protein diet (12% casein) and a low protein diet (2% casein). After this period, animals were euthanized, nutritional and hematological evaluations were performed, featuring the PM. We performed leukemic myelo-monoblasts cells transplantation and observed that these cells have a lower proliferation rate and are rather in the cell cycle G0/G1 phases in malnourished mice, indicating that the BM microenvironment is compromised in PM. MSC were isolated, characterized and differentiated in vitro into EC cells, which were evidenced by CD31 and CD144 markers. We performed the quantification of HSC and hematopoietic progenitors, as well as some regulators of proliferation and differentiation, ex vivo and after cultures with MSC or EC. We observed that PM reduces HSC and hematopoietic progenitors ex vivo. In PM, MSC promote increase in HSC and suppress hematopoietic differentiation, whereas ECs induce cell cycle arrest. Additionally, we verified that PM affects granulopoesis by decreasing the expression of G-CSFr in granule-monocytic progenitors. Thus, we conclude that PD compromises hematopoiesis due to intrinsic alterations in HSC, as well as alterations in the medullary perivascular niche. / A desnutrição proteica (DP) provoca anemia e leucopenia decorrente da redução de precursores hematopoéticos e comprometimento da produção de mediadores indutores da hematopoese. A hematopoese ocorre na medula óssea (MO) em regiões distintas chamadas de nichos, que modulam os processos de diferenciação, proliferação e auto renovação da célula tronco hematopoiética (CTH). O microambiente perivascular, composto principalmente por células tronco mesenquimais (CTM) e células endoteliais (CE), é o principal modulador das CTH e sua função se estende até a migração das células hematopoiéticas maduras para o sangue periférico, através da produção de citocinas e fatores de crescimento. Dessa forma, nossa hipótese é que a DP altera o microambiente perivascular e objetivamos avaliar se a DP afeta a capacidade modulatória das CTM e CE sobre a hematopoese. Utilizamos camundongos C57BL/6 machos, divididos em grupos Controle e Desnutrido, sendo que o grupo Controle recebeu ração normoproteica (12% caseína) e o grupo Desnutrido recebeu ração hipoproteica (2% caseína), ambos durante 5 semanas. Após este período, os animais foram eutanasiados, foi realizada a avaliação nutricional e hematológica, caracterizando a DP. Realizamos transplantes de mielomonoblastos leucêmicos e observamos que estas células apresentam menor taxa de proliferação e se encontram em maior quantidade nas fases G0/G1 do ciclo celular em camundongos desnutridos, indicando que o microambiente medular está comprometido. Isolamos CTM, que foram caracterizadas e diferenciadas in vitro em CE, o que foi evidenciado pelos marcadores CD31 e CD144. Quantificamos CTH e progenitores hematopoéticos, bem como reguladores de proliferação e diferenciação, ex vivo e após culturas com CTM ou CE. Observamos que a DP reduz CTH e progenitores hematopoéticos ex vivo. Na DP, as CTM promovem incremento de CTH e suprimem a diferenciação hematopoética, enquanto que as CE induzem parada no ciclo celular. Adicionalmente, observamos que a DP afeta a granulopoese por diminuição da expressão de G-CSFr nos progenitores grânulo-monocíticos. Dessa forma, concluímos que a DP compromete a hematopoese por alterações intrínsecas na CTH, como também por alterações ocasionadas no microambiente perivascular medular.
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Expression of Granulocyte-Macrophage Colony-Stimulating Factor Gene in Insect Cells by a Baculovirus VectorChiou, Chuang-Jiun 12 1900 (has links)
The focus of this research is to describe the production and characterization of the human granulocyte-macrophage colony-stimulating factor (hGM-CSF) in insect cells, using Autographa californica buclear polyhedrosis virus (AcNPV) as an expression vector. All three forms of biological activity of hGM-CSF. Following N-glycanase treatment, the two glycosylated hGM-CSF proteins (15.5 and 16.5 KDa) which bound to Concanavalin A affinity column ran as a 14.5-15.5 KDa band on SDS-PAGE. Western blot analysis of expression in Sf9 cells treated with tunicamycin revealed only the presence of the 14.5 KDa species. The N-terminal amino acid sequence of the recombinant hGM-CSF was identical to that of natural hGM-CSF deduced from cDNA. These results demonstrate that baculovirus-produced hGM-CSF could be N-glycosylated in Sf9 cells, the signal peptide of recombinant hGM-CSF could be recognized and cleaved by infected insect cells and the resultant molecule secreted into the medium.
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