The influence of endogenous expression of Tal-1 on apoptotic gene expression

Wallace, Carrie T.

January 2008

Tal-1 is a transcription factor that is frequently ectopically expressed in the majority of cases of T-cell acute lymphoblastic leukemia (T-ALL). The ectopic expression of Tal-1 in patients with ALL has been found to decrease susceptibility to chemotherapeutic drugs and apoptosis. Thus, this study focuses on the effects of endogenously expressed Tal-1 in the Jurkat cell line on three Bcl-2 family members (Bcl-2, Bcl-xL, and Bid) and the inhibition of apoptosis and cell viability when exposed to apoptosis inducing drugs such as etoposide. The data obtained indicate that when treated with etoposide for 12 h Jurkat cells endogenously expressing Tal-1 have an 81% higher level of anti-apoptotic Bcl-2 expression, an 18% lower level of anti-apoptotic Bcl-xL, expression, and a 31% lower level of pro-apoptotic Bid expression compared to Jurkat cells lacking Tal-1 expression. The data also demonstrates that Jurkat cells endogenously expressing Tal-1 have a 15.94% lower amount of cell death after treatment with etoposide for 12 h and a 20.34% lower amount of cell death after treatment with etoposide for 24 h when compared to Jurkat cells that lack Tal-1 expression. Thus, the endogenous expression of Tal-1 increases the amount of the anti-apoptotic Bcl-2 expression and decreases the amount of the pro-apoptotic Bid creating an overall anti-apoptotic signal within the cell. / Department of Biology

Transcription factors

Apoptosis

The effects of ectopic expression of TAL1 and LMO1 on lipoprotein lipase in NIH 3T3 cells

Haeri, Hosseini S. Mohammad.

January 2003

Childhood acute lymphoblastic leukemia (ALL) is the most common malignancy in children. Several proto-oncogenes that encode nuclear proteins are activated by various chromosomal translocations in ALL including TALI, TAL2, and LMO1 and LMO2. Ectopic TALI expression is observed in about 50 % of T-ALL and is the most common genetic anomaly associated with this pathology. Of interest to the present work is the characterization of various multiprotein complexes and protein protein interactions that drive T-ALL progression (as it relates to TALI and LMO1) and over expression of TALI and LMO1 has been shown to have inhibitory effects on apoptosis. Recent data suggests possible interactions between these two oncoproteins and the protein product of the lipoprotein lipase (LPL) gene. Lipoprotein lipase has a complex pattern of regulation and can be regulated in different ways including down-regulation upon induction of TNF-a in 3T3-L1 cells. Thus, this study was undertaken to determine if LPL is expressed in cells over expressing TAL1 and LMO1. Results from this study demonstrated an increase in LPL expression at both transcriptional and translational level in cells engineered to express TAL1 alone and TAL1 and LMO1 together. This finding is a step forward to understanding mechanisms that result in apoptosis prevention in T-ALL. Therefore, the apoptosis preventive role seen in cells that over express TAL and LMO1 and the presence of LPL in the same cell line, theorizes an apoptosis preventive role for lipoprotein lipase as well. / Department of Physiology and Health Science

Proto-oncogenes.

Lipoprotein lipase.

Characterization of Signal Transduction Abnormalities Revealed Spleen Tyrosine Kinase as a Therapeutic Target in High-risk Precursor B Cell Acute Lymphoblastic Leukemia

Perova, Tatiana

20 June 2014

Currently, the intensive chemotherapy remains the first line treatment for B cell acute lymphoblastic leukemia (B-ALL). Although these regimens have significantly improved patient outcomes, their use is associated with debilitating morbidities and fatal relapses, highlighting the great need in new agents that target essential survival signals in leukemia. Thus, the overall goal of my project was to gain insights into the signaling abnormalities that regulate aberrant proliferation and survival of B-ALL cells in an effort to identify novel targets in this malignancy. This study demonstrated that pre-B cell receptor (pre-BCR)-independent spleen tyrosine kinase (SYK) activity was required for the survival and proliferation of a p53-/-PrkdcSCID/SCID mouse model of B-ALL. I extended this discovery to human disease, demonstrating that SYK was activated in primary B-ALL, independent of the pre-BCR expression. The small molecule SYK inhibitor fostamatinib (fosta) significantly attenuated proliferation of 79 primary diagnostic B-ALL samples at clinically achievable concentrations. Importantly, fosta treatment reduced dissemination of engrafting B-ALL cells into the spleen, liver, kidney and central nervous system (CNS) in a NOD.Prkdcscid/scidIl2rgtm1Wjl/SzJ xenotransplant model of B-ALL. Analysis of signaling abnormalities using a high-throughput phospho-flow cytometry platform demonstrated that pediatric and adult B-ALL samples exhibit variable basal activation of BCR, iii PI3K/AKT/mTOR, MAPK and JAK/STAT pathways. Importantly, we identified that fosta-mediated inhibition of SYK, PLC2, CRKL and EIF4E phosphorylation in B-ALL was predictive of its anti-leukemic activity, and was distinct from the cellular actions of other small molecule inhibitors of key nodal signaling pathways. Examination of molecular mechanism of fosta action by gene expression profiling revealed transcriptional effects of fosta treatment that included, most notably, potent inhibition of pathways involved in lymphocyte activation and inflammation. In conclusion, this study demonstrates that SYK signaling is crucial for B-ALL survival and provides detailed characterization of cellular and molecular mechanisms of fosta action in B-ALL. These data argue in favor of testing small molecule SYK inhibitors in pediatric and adult B-ALL.

spleen tyrosine kinase

acute lymphoblastic leukemia

signal transduction

0992

0982

Bone Marrow Microenvironment in Acute Myleoid Leukemia

Chandran, Priya

09 July 2013

Acute myeloid leukemia (AML) often remains refractory to current chemotherapy and transplantation approaches despite many advances in our understanding of mechanisms in leukemogenesis. The bone marrow “niche” or microenvironment, however, may be permissive to leukemia development and studying interactions between the microenvironment and leukemia cells may provide new insight for therapeutic advances. Mesenchymal stem cells (MSCs) are central to the development and maintenance of the bone marrow niche and have been shown to have important functional alterations derived from patients with different hematological disorders. The extent to which MSCs derived from AML patients are altered remains unclear. The aim of this study was to detect changes occurring in MSCs obtained from human bone marrow in patients with AML by comparing their function and gene expression pattern with normal age-matched controls. MSCs expanded from patients diagnosed with acute leukemia were observed to have heterogeneous morphological characteristics compared to the healthy controls. Immunohistochemistry and flow data confirmed the typical cell surface immunophenotype of CD90+ CD105+ CD73+ CD34- CD45-, although MSCs from two patients with AML revealed reduced surface expression of CD105 and CD90 antigens respectively. Differentiation assays demonstrated the potential of MSCs from AML patients and healthy donors to differentiate into bone, fat and cartilage. However, the ability of MSCs from AML samples to support hematopoietic function of CD34+ progenitors was found to be impaired while the key hematopoietic genes were found to be differentially expressed on AML-MSCs compared to nMSCs. These studies indicate that there exist differences in the biologic profile of MSCs from AML patients compared to MSCs derived from healthy donors. The results described in the thesis provide a formulation for additional studies that may allow us to identify new targets for improved treatment of AML.

Acute Myeloid Leukemia

Bone Marrow niche

Mesenchymal Stromal cells

The Role of ATM in Promoting Normal T cell Development and Preventing T Cell Leukemogenesis

Matei, Irina

24 September 2009

The immune system recognizes and eliminates an enormous array of pathogens due to the diverse antigen receptor repertoire of T and B lymphocytes. However, the development of lymphocytes bearing receptors with unique specificities requires the generation of programmed double strand breaks (DSB) coupled with bursts of proliferation, rendering lymphocytes susceptible to mutations and oncogenic transformation. Thus, mechanisms responsible for monitoring global genomic integrity, such as those coordinated by the ATM (ataxia-telangiectasia mutated) kinase, must be activated during lymphocyte development to limit the oncogenic potential of antigen receptor locus recombination. I show that ATM deficiency compromises TCRα recombination and the post-mitotic survival of T-cell receptor αβ (TCRαβ+) CD4+CD8+ (DP) thymocytes, providing a molecular and developmental basis for the immunodeficiency characteristic of ATM loss. Moreover, I show that in early thymocyte progenitors undergoing TCRβ recombination, ATM loss leads to cell cycle defects and developmental arrest, likely facilitating the acquisition of mutations that contribute to leukemogenesis. Using ATM deficiency as a murine model of T cell precursor acute lymphoblastic leukemia (T-ALL), I demonstrate that IL-7 signaling, a critical survival and proliferation signal during early stages of normal thymocyte development, is also required for leukemic maintenance. Moreover, we show for the first time that in normal and leukemic thymocyte precursors, interleukin 7 receptor (IL-7R) expression and function are controlled by Notch signaling, a key determinant of T cell fate. Collectively, these findings provide insight into the mechanisms by which ATM promotes normal lymphocyte development and protects from neoplastic transformation, while establishing the groundwork for assessing the molecular events that lead to the initiation and stepwise progression of T cell leukemogenesis.

ATM

T cell development

T cell leukemia

0379

The Orphan Nuclear Receptor EAR-2 (NR2F6) is a Leukemia Oncogene and Novel Regulator of Hematopoietic Stem Cell Homeostasis and Differentiation

Ichim, Christine Victoria

13 December 2012

The orphan nuclear receptor EAR-2 (NR2F6) is a gene that I previously found to be expressed at a higher level in clonogenic leukemia single cells than in leukemia cells that can not divide. For this thesis I undertook to perform the first investigations of the roles EAR-2 may play in normal haematopoiesis and in the pathogenesis of acute myelogenous leukaemia. Here, I show that EAR-2 is overexpressed in the bone marrow of patients with MDS, AML and CMML compared to healthy controls and that EAR-2 is a gatekeeper to hematopoietic differentiation. Over-expression of EAR-2 prevents the differentiation of cell lines, while knock down induces their spontaneous differentiation. In vitro, primary bone marrow cells that over-express EAR-2 do not differentiate into granulocytes in suspension culture, but have greatly extended replating capacity in colony assays. In vivo, overexpression of EAR-2 in a chimeric mouse model leads to a condition that resembles myelodysplastic syndrome characterised by hypercellular bone marrow, an increase in blasts, abnormal localization of immature progenitors, morphological dysplasia of the erythroid lineage and a competitive advantage over wild-type cells, that eventually leads to AML in a subset of the mice. Furthermore, animals that are transplanted with grafts of sorted bone marrow develop a rapidly fatal leukemia that is characterized by pancytopenia, enlargement of the spleen, infiltration of blasts into the spleen, liver and peripheral blood. Interestingly, development of leukemia is preceded by expansion of the stem cell compartment. Overexpression of EAR-2 increases the maintenance of KSL primitive bone marrow cells in ex vivo suspension culture, while knockdown of EAR-2 induces rapid differentiation of KSL cells into granulocytes. These data establish that EAR-2 is a novel oncogene that regulates hematopoietic cell differentiation. Furthermore, I show that EAR-2 is also a novel negative regulator of T-cell lymphopoiesis, and demonstrate that down-regulation of EAR-2 is important for the survival, proliferation and differentiation of T-cell progenitors. Overall, this work establishes that expression of EAR-2 is an important determinant of cell fate decisions in the hematopoietic system.

leukemia

stem cells

cancer

nuclear receptor

NR2F6

0992

0379

0760

Acute myeloid leukemia in the elderly : 159 Nagoya case studies

Nagura, Eiichi, Minami, Saburo, Nagata, Koichiro, Morishita, Yoshihisa, Takeyama, Hideo, Sao, Hiroshi, Suzuki, Hisamitsu/,, Naoe, Tomoki, Yokomaku, Shozo, Mizuno, Harumitsu, Murase, Takuhei, Hirabayashi, Noriyuki, Takeo, Takaaki, Tanimoto, Mitsune, Kawashima, Kohei, Saito, Hidehiko

11 1900

No description available.

Elderly leukemia

elderly AML

De novo AML

AML evolved from MDS

Radon decay in bone marrow fat cells and the possible induction of leukaemia /

Utteridge, Tammy Debra.

Unknown Date

Thesis (PhD in AppSc)--University of South Australia, 1996

Bone marrow cells.

Hematopoietic stem cells.

Leukemia, Radiation-induced.

Radiation

Molecular and gene expression studies of the genes involved in the breakpoints of the inv(16) leukaemias / Bryone Jean Kuss.

Kuss, Bryone Jean

January 1996

Appendix included in back. / Errata posted on back end cover. / Bibliography: leaves 236-268. / xxii, 268, [7] leaves, [41] 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. / A contribution to the knowledge of multidrug resistance and its role in acute leukaemia. / Thesis (Ph.D.)--University of Adelaide, Dept. of Cytogenetics and molecular genetics, 1997

Leukemia Chemotherapy Complications.

Drug resistance in cancer cells.

Multidrug resistance.

The Health Impact of Pesticide Exposure in a Cohort of Outdoor Workers

Beard, John Roland

January 2002

This thesis describes a study undertaken between 1992 and 2001 to explore the possible health impacts of human exposure to pesticides. The study followed the health outcomes of approximately 4000 outdoor workers over a period of up to sixty-one years. These workers comprised two subcohorts of approximately even size, one composed of agricultural workers with high insecticide exposures, and the other made up of outdoor staff from local councils in the same area with little or no occupational exposure to insecticides. Mortality and morbidity were compared between the two groups, and with the general Australian community. The study identifies significantly increased mortality among both exposed and control subjects when compared to the Australian population. The major cause of this increase was mortality from smoking related diseases. The study also identifies significant increases in mortality among exposed subjects for a number of conditions that do not appear to be the result of smoking patterns, both when compared to the control group and the Australian population. These include pancreatic cancer in some DDT exposed subjects and asthma, diabetes, and leukaemia in subjects working with more modern chemicals. There was also an increase in self reported chronic illness and asthma, and lower neuropsychological functioning scores among surviving exposed subjects when compared to controls. Diabetes was also reported more commonly by subjects reporting occupational use of herbicides.