For many years, hematopoietic stem cell kinetics and/or cell signaling pathway activity has been studied through fluorescent in vitro or in vivo models. However, inaccurate measurement of the... Show moreFor many years, hematopoietic stem cell kinetics and/or cell signaling pathway activity has been studied through fluorescent in vitro or in vivo models. However, inaccurate measurement of the fluorescent proteins or lack of knowlegde about the genetic design of these models lead to incomplete conclusions. In the present thesis, in vivo fluorescent models are improved and new models are proposed together with analysis protocols to ensure precise measurement of fluorescent protein dynamics. Show less
Flow cytometry immunophenotyping is essential for diagnosis, classification and monitoring of clonal hematopoietic diseases, particularly of hematological malignancies and primary... Show moreFlow cytometry immunophenotyping is essential for diagnosis, classification and monitoring of clonal hematopoietic diseases, particularly of hematological malignancies and primary immunodeficiencies. Optimal use of immunophenotyping for these purposes requires detailed knowledge about the phenotypic patterns of normal hematopoietic cells.In the past few decades, flow cytometry has benefited from technological developments allowing simultaneous analysis of multiple antigen stainings with >= 3-35 distinct fluorochrome-conjugated antibodies for increasingly higher numbers of cells. These advances have contributed to expand our knowledge about the phenotypic differentiation profiles of normal hematopoietic cells, from uncommitted CD34(+) precursors in the bone marrow (BM) and peripheral blood (PB), to the several hundreds of populations of circulating myeloid and (B and T) lymphoid cells identified so far. Detailed dissection of the normal phenotypic profiles of hematopoietic cells has settled the basis for identification of aberrant phenotypes on leukemia and lymphoma cells. Thus, it has contributed to: i) more sensitive identification of leukemia/lymphoma cells (especially when represented at low frequencies in a sample), and ii) more accurate classification of hematological malignancies. In this manuscript, we review the major phenotypic features of hematopoietic cells, from the more immature BM CD34(+) precursors committed to the myeloid and lymphoid lineages toward mature hematopoietic cells circulating in PB (e.g. neutrophils, monocytes, basophils, eosinophils, dendritic cells, erythroid cells, and B- and T-cells) and those homing to other tissues (e.g. plasma cells, mast cells). Show less
Cardiovascular disease is the leading cause of death worldwide. The primary underlying pathology of cardiovascular disease is atherosclerosis. Atherosclerosis is a chronic, multifactorial disease... Show moreCardiovascular disease is the leading cause of death worldwide. The primary underlying pathology of cardiovascular disease is atherosclerosis. Atherosclerosis is a chronic, multifactorial disease in which lipid accumulates in the arterial wall, leading to a local inflammatory reaction and atherosclerotic plaque formation. Atherosclerotic disease develops largely asymptomatic over a lifetime. However, plaque rupture or erosion can cause the formation of a superimposed thrombus, blocking the flow of blood, and cause acute cardiovascular events such as myocardial infarction or ischemic stroke. Defects in cholesterol metabolism and hypercholesterolemia, which are major risk factors for atherosclerosis, have been shown to affect hematopoiesis, immune cell production and platelet counts and reactivity. Therefore, bone marrow cholesterol handling is an interesting target in the battle against cardiovascular disease, and acute cardiovascular events in particular. This thesis describes novel interactions between cholesterol metabolism and the production of immune cells and platelets, and its effects on atherosclerosis and atherothrombosis development. Show less
The work in this thesis describes the fundamental role of Lkb1 as a conductor of metabolism-related processes in zebrafish larvae. We show that Lkb1 is essential for the regulation of glucose... Show moreThe work in this thesis describes the fundamental role of Lkb1 as a conductor of metabolism-related processes in zebrafish larvae. We show that Lkb1 is essential for the regulation of glucose metabolism, the activation of autophagy, and hematopoiesis under conditions of metabolic stress. Furthermore, we also uncovered gene transcription profiles and hematological characteristics that are specific to lkb1 larvae, and independent of metabolic stress. Finally, we illustrate and highlight the potential of lkb1 larvae as screening platform in research related to metabolism, hematopoiesis, and tumors bearing LKB1 mutations. Overall, we have strengthened the value of lkb1 zebrafish larvae as a model to study the effects of Lkb1-inactivation on various metabolism-related processes Show less
Fallik, N.; Bar-Lavan, Y.; Greenshpan, Y.; Goldstein, O.; Grosch, M.; Drukker, M.E.; Gazit, R. 2017
Hematopoietic Stem Cells (HSCs) generate blood and immune cells through a hierarchical process of differentiation. Genes that regulate this process are of great interest for understanding normal... Show moreHematopoietic Stem Cells (HSCs) generate blood and immune cells through a hierarchical process of differentiation. Genes that regulate this process are of great interest for understanding normal and also malignant hematopoiesis. Surprisingly, however, very little is known about long-non-coding RNAs (lncRNA) in HSCs. Neat1 is a lncRNA that plays a major role in the formation of sub-nuclear structures called paraspeckles, and was reported to regulate proliferation and differentiation in other cells types. We detected Neat1 expression using RNA-seq data and RT-qPCR in HSCs, progenitors and effector immune cells, by specific detection of its isoforms. Neat1 is highly expressed in stem and progenitor cells, yet it shows significant reduction in granulocytes. Microscopically, Neat1 is detected as sharp nuclear foci. Paraspeckle proteins NONO and PSPC1 are detected as aggregated nuclear foci in fresh primary hematopoietic cells, and in cultured cells. Induction of differentiation in vitro was found to enhance Neat1 expression. Taken together, our data demonstrate for the first time the expression of Neat1 and paraspeckles formation in HSCs and along hematopoiesis. Show less
