Fatores que influenciaram nos resultados das coletas de células progenitoras hematopoéticas em crianças portadoras de neuroblastoma avançado / Factors influencing results of peripheral hematologic progenitor cells harvesting in children with advanced Neuroblastoma

Borba, Claudio Carneiro

10 May 2016

Objetivos: Avaliar os resultados das coletas de células hematopoéticas CD34+, por aférese, em crianças portadoras de neuroblastoma tratadas no Serviço de Oncologia e Hematologia do Instituto da Criança do Hospital das Clínicas da Faculdade de Medicina da Universidade de São Paulo; estudar os fatores (idade, peso, estimulação com quimioterapia, dose do G-CSF, uso terapêutico de 131I-MIBG e tempo entre exposição à quimioterapia prévia) que influenciaram na mobilização e no rendimento da coleta de células CD34+ no sangue periférico e associar a quantidade de células CD34+ obtidas com a evolução clínica do paciente. Métodos: Trata-se de um estudo retrospectivo de pacientes com neuroblastoma submetidos à coleta de células-tronco hematopoéticas entre janeiro de1989 e junho 2012. Resultados: Avaliados 45 prontuários de crianças com idade mediana de 3,1 anos (0-12 anos), 26 (57%) apresentavam metástase em medula óssea ao diagnóstico. O tempo entre diagnóstico e o início da mobilização foi em média 19,7 ± 12 meses (mediana de 15,8 meses). Dos pacientes estudados, 11/45 (24,4%) receberam 131I-MIBG terapêutico antes da mobilização. Somente cinco pacientes (11,1%) receberam quimioterapia associada ao G-CSF para mobilização; as demais 40 crianças (88,9%) receberam exclusivamente G-CSF na dose média 26,5 ± 5,3 ug/kg/dia (mediana 28 ug/kg/dia). Não houve correlação entre o número máximo de células CD34+ no sangue periférico com a idade (p=0,9), com o peso (p=0,63), com a dose do G-CSF (p=0,46) ou com o intervalo entre o diagnóstico e o início da mobilização (p=0,09). A mediana da quantificação de células CD34+/uL no sangue periférico foi de 36,6 células, média de 45,2 ± 42,6 (mínimo 1,7 e máximo 236,3). Pacientes que haviam recebido 131I-MIBG previamente à mobilização apresentaram menor número de células CD34+/uL no sangue periférico (p=0,04). Em 26 pacientes (57,8%) foi possível coletar mais de 2,0x106 células CD34+/Kg na primeira coleta e em 19 pacientes (42,2%) foram necessárias mais de uma coleta, sendo que, oito pacientes (17,8%) apresentaram falha de mobilização. Os pacientes que apresentaram menor quantidade de células CD34+/uL no sangue periférico (<= 12) não conseguiram número maior ou igual a 2,0x106 células CD34+/Kg em 81,8% das coletas. O número mediano de células infundidas foi de 2,66 x106 células CD34+/Kg (média 3,38 ±1,6; mínimo 1,8; máximo 8,74 x106 CD34+/Kg). Os pacientes apresentaram contagem de leucócitos maior que 1000/mm3 e de plaquetas maior 50000/mm3 por dois dias consecutivos em média, no dia 13 ± 10 e no dia 46 ± 33, respectivamente, após infusão. Conclusões: A coleta de células-tronco hematopoéticas por aférese foi factível em todos os pacientes do estudo. Não houve influência significativa da idade, do peso, da dose do G-CSF e do tempo entre diagnóstico e inicio da mobilização, no número máximo de células. O uso prévio à coleta de 131I-MIBG terapêutico parece influenciar negativamente no pico de células CD34+ no sangue periférico (p=0,04). A contagem de células CD34+ no sangue periférico é importante fator preditivo do resultado das coletas de células progenitoras hematopoéticas CD34+ por aférese / Objectives: To evaluate the results of peripheral hematopoietic CD34+ stem cells harvesting in children with neuroblastoma treated at Serviço de Oncologia e Hematologia do Instituto da Criança do Hospital das Clínicas da Faculdade de Medicina da Universidade de São Paulo; regarding age, weight, stimulation with chemotherapy, G-CSF dose, time between diagnosis and the mobilization beginning and therapeutic 131I-MIBG use and the influence in mobilization and peripheral harvesting of autologous hematopoietic stem cells and to associate the amount of CD34+ cells obtained with the patient\'s clinical evolution. Methods: Between January 1989 and June 2012, children with neuroblastoma underwent to mobilization and peripheral hematopoietic stem cell harvesting and were retrospectively analyzed. Results: The charts of 45 children were reviewed. Median age was 3.1 years (0-12years), and 26 (57%) had metastases in bone marrow at diagnosis. Average time between diagnosis and mobilization was 19.7 ± 12 months (median, 15.8 months). 11/45 (24.4%) received therapeutic 131I-MIBG prior to mobilization. The average G-CSF dose was 26.5 ± 5.3mg/kg/day (mean 28mg/kg/day). There was no correlation between the absolute number of peripheral CD34+ cells and age (p=0.9), weight (p=0.63), G-CSF dose (p=0.46) or the range between diagnosis and early mobilization (p=0.09). The median quantification of CD34+ cells/uL in peripheral blood was 36.6, average 45.2 ±42.6 (minimum 1.7 and maximum 236.3 CD34+ cells/uL). Patients who had received therapeutic 131I-MIBG prior to mobilization, showed fewer absolute amount of CD34+/uL cells in peripheral blood (p=0.04). In 26 patients (57.8%) it was possible to harvest more than 2.0 x106 CD34+ cells/kg at first apheresis and in 19 patients (42.2%) more than one collection were necessary, and eight patients (17.8 %) failure to mobilize. Patients presenting less than 12 CD34+ cells/uL in peripheral blood on the harvesting day failed to reach more then 2.0x106 cells CD34+/kg in 81.8% of the apheresis procedures. It was infused a median number of 2.66 x106 CD34+ cells/kg (mean 1.6 ± 3.38; min 1.8; max 8.74 x106 CD34+ cells/kg). After the stem cells infusion, patients had white blood cells count greater than 1000/mm3 and platelet greater than 50,000/mm3 for two consecutive days on average after 13 ±10 and 46 ± 33 days, respectively. Conclusions: The hematopoietic stem cells harvesting was feasible in all patients included in this report. The G-CSF dose, age, weight and the period between harvesting and diagnosis showed no influence in mobilization and harvesting of autologous hematopoietic stem cells, however the absolute number of peripheral blood CD34+ cells/uL is an important predictive factor for the harvesting outcome. Additionally our findings support for the first time the notion that the use of therapeutic 131I-MIBG could have a negative impact in mobilization of peripheral blood stem cells in children with neuroblastoma

3-iodobenzilguanidina

3-iodobenzylguanidine

Células-tronco

Células-tronco hematopoéticas

Child

Criança

Granulocyte colony-stimulating factor

Hematopoietic stem-cells

Hematopoietic stem-cells mobilization

Neuroblastoma

Neuroblastoma

Stem-cells

Fatores que influenciaram nos resultados das coletas de células progenitoras hematopoéticas em crianças portadoras de neuroblastoma avançado / Factors influencing results of peripheral hematologic progenitor cells harvesting in children with advanced Neuroblastoma

Claudio Carneiro Borba

10 May 2016

Objetivos: Avaliar os resultados das coletas de células hematopoéticas CD34+, por aférese, em crianças portadoras de neuroblastoma tratadas no Serviço de Oncologia e Hematologia do Instituto da Criança do Hospital das Clínicas da Faculdade de Medicina da Universidade de São Paulo; estudar os fatores (idade, peso, estimulação com quimioterapia, dose do G-CSF, uso terapêutico de 131I-MIBG e tempo entre exposição à quimioterapia prévia) que influenciaram na mobilização e no rendimento da coleta de células CD34+ no sangue periférico e associar a quantidade de células CD34+ obtidas com a evolução clínica do paciente. Métodos: Trata-se de um estudo retrospectivo de pacientes com neuroblastoma submetidos à coleta de células-tronco hematopoéticas entre janeiro de1989 e junho 2012. Resultados: Avaliados 45 prontuários de crianças com idade mediana de 3,1 anos (0-12 anos), 26 (57%) apresentavam metástase em medula óssea ao diagnóstico. O tempo entre diagnóstico e o início da mobilização foi em média 19,7 ± 12 meses (mediana de 15,8 meses). Dos pacientes estudados, 11/45 (24,4%) receberam 131I-MIBG terapêutico antes da mobilização. Somente cinco pacientes (11,1%) receberam quimioterapia associada ao G-CSF para mobilização; as demais 40 crianças (88,9%) receberam exclusivamente G-CSF na dose média 26,5 ± 5,3 ug/kg/dia (mediana 28 ug/kg/dia). Não houve correlação entre o número máximo de células CD34+ no sangue periférico com a idade (p=0,9), com o peso (p=0,63), com a dose do G-CSF (p=0,46) ou com o intervalo entre o diagnóstico e o início da mobilização (p=0,09). A mediana da quantificação de células CD34+/uL no sangue periférico foi de 36,6 células, média de 45,2 ± 42,6 (mínimo 1,7 e máximo 236,3). Pacientes que haviam recebido 131I-MIBG previamente à mobilização apresentaram menor número de células CD34+/uL no sangue periférico (p=0,04). Em 26 pacientes (57,8%) foi possível coletar mais de 2,0x106 células CD34+/Kg na primeira coleta e em 19 pacientes (42,2%) foram necessárias mais de uma coleta, sendo que, oito pacientes (17,8%) apresentaram falha de mobilização. Os pacientes que apresentaram menor quantidade de células CD34+/uL no sangue periférico (<= 12) não conseguiram número maior ou igual a 2,0x106 células CD34+/Kg em 81,8% das coletas. O número mediano de células infundidas foi de 2,66 x106 células CD34+/Kg (média 3,38 ±1,6; mínimo 1,8; máximo 8,74 x106 CD34+/Kg). Os pacientes apresentaram contagem de leucócitos maior que 1000/mm3 e de plaquetas maior 50000/mm3 por dois dias consecutivos em média, no dia 13 ± 10 e no dia 46 ± 33, respectivamente, após infusão. Conclusões: A coleta de células-tronco hematopoéticas por aférese foi factível em todos os pacientes do estudo. Não houve influência significativa da idade, do peso, da dose do G-CSF e do tempo entre diagnóstico e inicio da mobilização, no número máximo de células. O uso prévio à coleta de 131I-MIBG terapêutico parece influenciar negativamente no pico de células CD34+ no sangue periférico (p=0,04). A contagem de células CD34+ no sangue periférico é importante fator preditivo do resultado das coletas de células progenitoras hematopoéticas CD34+ por aférese / Objectives: To evaluate the results of peripheral hematopoietic CD34+ stem cells harvesting in children with neuroblastoma treated at Serviço de Oncologia e Hematologia do Instituto da Criança do Hospital das Clínicas da Faculdade de Medicina da Universidade de São Paulo; regarding age, weight, stimulation with chemotherapy, G-CSF dose, time between diagnosis and the mobilization beginning and therapeutic 131I-MIBG use and the influence in mobilization and peripheral harvesting of autologous hematopoietic stem cells and to associate the amount of CD34+ cells obtained with the patient\'s clinical evolution. Methods: Between January 1989 and June 2012, children with neuroblastoma underwent to mobilization and peripheral hematopoietic stem cell harvesting and were retrospectively analyzed. Results: The charts of 45 children were reviewed. Median age was 3.1 years (0-12years), and 26 (57%) had metastases in bone marrow at diagnosis. Average time between diagnosis and mobilization was 19.7 ± 12 months (median, 15.8 months). 11/45 (24.4%) received therapeutic 131I-MIBG prior to mobilization. The average G-CSF dose was 26.5 ± 5.3mg/kg/day (mean 28mg/kg/day). There was no correlation between the absolute number of peripheral CD34+ cells and age (p=0.9), weight (p=0.63), G-CSF dose (p=0.46) or the range between diagnosis and early mobilization (p=0.09). The median quantification of CD34+ cells/uL in peripheral blood was 36.6, average 45.2 ±42.6 (minimum 1.7 and maximum 236.3 CD34+ cells/uL). Patients who had received therapeutic 131I-MIBG prior to mobilization, showed fewer absolute amount of CD34+/uL cells in peripheral blood (p=0.04). In 26 patients (57.8%) it was possible to harvest more than 2.0 x106 CD34+ cells/kg at first apheresis and in 19 patients (42.2%) more than one collection were necessary, and eight patients (17.8 %) failure to mobilize. Patients presenting less than 12 CD34+ cells/uL in peripheral blood on the harvesting day failed to reach more then 2.0x106 cells CD34+/kg in 81.8% of the apheresis procedures. It was infused a median number of 2.66 x106 CD34+ cells/kg (mean 1.6 ± 3.38; min 1.8; max 8.74 x106 CD34+ cells/kg). After the stem cells infusion, patients had white blood cells count greater than 1000/mm3 and platelet greater than 50,000/mm3 for two consecutive days on average after 13 ±10 and 46 ± 33 days, respectively. Conclusions: The hematopoietic stem cells harvesting was feasible in all patients included in this report. The G-CSF dose, age, weight and the period between harvesting and diagnosis showed no influence in mobilization and harvesting of autologous hematopoietic stem cells, however the absolute number of peripheral blood CD34+ cells/uL is an important predictive factor for the harvesting outcome. Additionally our findings support for the first time the notion that the use of therapeutic 131I-MIBG could have a negative impact in mobilization of peripheral blood stem cells in children with neuroblastoma

3-iodobenzilguanidina

Células-tronco

Células-tronco hematopoéticas

Criança

Neuroblastoma

3-iodobenzylguanidine

Child

Granulocyte colony-stimulating factor

Hematopoietic stem-cells

Hematopoietic stem-cells mobilization

Neuroblastoma

Stem-cells

Análise da expressão gênica global de células estromais mesenquimais e de células tronco hematopoéticas isoladas da medula óssea de pacientes com diabetes mellitus do tipo 1 / Global gene expression analysis of mesenchymal stromal cells and hematopoietic stem cells isolated from bone marrow of type 1 diabetes patients

Kalil William Alves de Lima

25 February 2013

O diabetes mellitus do tipo 1 (T1D) é uma doença autoimune mediada por células T e caracterizada pela destruição seletiva das células ? pancreáticas produtoras de insulina. Células estromais mesenquimais (MSCs) e células tronco hematopoéticas (HSCs) são os principais componentes do nicho hematopoético na medula óssea. Estas células vêm sendo utilizadas nos últimos anos em transplantes autólogos para tratamento do T1D. O objetivo geral do presente trabalho foi avaliar o perfil de expressão gênica global de MSCs e HSCs de pacientes com T1D e compará-lo com células isoladas de indivíduos saudáveis através da técnica de microarray e programas específicos de bioinformática. As MSCs e HSCs foram isoladas da medula óssea de pacientes com T1D antes e após o tratamento com imunossupressão em altas doses seguida pelo transplante autólogo de células tronco hematopoéticas (AHSCT). As MSCs apresentaram valor elevado de expressão absoluta de diversas moléculas potencialmente relacionadas com suas funções de suporte à hematopoese. MSCs de pacientes diabéticos apresentaram perfil de expressão gênica global distinto das isoladas de indivíduos saudáveis, com hiper-regulação da sinalização via proteína G e hiporregulação da atividade transcricional. O receptor ?3 adrenérgico, assim como a sinalização simpática, foram hiper-expressos nas células dos pacientes. Genes que codificam moléculas que suportam a hematopoese e regulados pelo sistema nervoso simpático, VCAM1 e CXCL12, foram hiporregulados em nossa análise. Após o AHSCT, houve atenuação do perfil de expressão diferencial das MSCs dos pacientes, entretanto elas permaneceram com hiperatividade da sinalização via proteína G e déficit da atividade transcricional. As HSCs apresentaram altos níveis de expressão absoluta de diversas integrinas e receptores de citocinas e fatores de crescimento, potencialmente relacionados com funções na hematopoese. HSCs de pacientes com T1D apresentaram perfil de expressão gênica global distinto das de indivíduos saudáveis, com hiper-regulação de genes associados com a atividade transcricional. Os fatores de transcrição TCFL2 e p53, que têm papel fundamental na regulação do ciclo celular das HSCs, foram diferencialmente expressos entre as HSCs de pacientes diabéticos e controles. Assim, nossos resultados de expressão gênica global apontaram alterações intrínsecas nas HSCs e MSCs de pacientes diabéticos que podem estar relacionadas com a falha terapêutica dos transplantes autólogos. A implicação dessas alterações no desenvolvimento e patogênese do T1D permanece desconhecida e a realização de ensaios funcionais poderá esclarecer o significado biológico das mesmas. / Type 1 diabetes mellitus (T1D) is a T cell-mediated autoimmune disease, characterized by selective destruction of insulin-producing pancreatic ? cells. Mesenchymal stromal cells (MSCs) and hematopoietic stem cells (HSCs) are the main components of hematopoietic niches. In the last years, these cells are being used in autologous transplantation settings for T1D treatment. The main goal of this study was to evaluate the global gene expression profile of MSCs and HSCs from T1D patients, by using microarrays and bioinformatics specific programs. MSCs and HSCs were isolated from bone marrow of T1D patients before and after treatment with high dose immunossupression followed by hematopoietic stem cell transplantation. MSCs showed high absolute expression values of several molecules potentially related to their function of hematopoiesis support. MSCs from T1D patients exhibited distinct gene expression profile from control MSCs and presented up-regulation of the G protein-coupled receptor signaling pathway and down-regulation of transcriptional activity. The ?3 adrenergic receptor, as well the sympathetic nervous system signaling were up-regulated on patient´s cells. Genes that codify molecules which support hematopoeisis and are regulated by the symphatic nervous system, VCAM1 and CXCL12, were downregulated on our analysis. After AHSCT, there was an attenuation of the differential expression profile of MSCs from T1D patients, however they remained with G proteincoupled receptor signaling pathway hyperactivity and transcriptional activity deficit. HSCs exhibited high absolute expression values of integrins, cytokine receptors and growth factors, molecules potencially related to hematopoietic functions. HSCs from T1D patients showed distinct expression profile from control HSCs and demonstrated up-regulation of genes related to transcriptional activity. The transcription factors TCFL2 and p53, which have important role in regulating HSC cycle, were differentially expressed between HSCs from T1D patients and controls. Thus, our global gene expression analysis has revealed intrinsic alterations on MSCs and HSCs from T1D patients that could be related to the autologous transplant therapeutic failures. The implications of these alterations on the development and pathogenesis of T1D remain unknown and functional assays could unravel their biological meaning.

Autoimunidade

Células tronco hematopoéticas

Células tronco mesenquimais

Diabetes mellitus do tipo 1

Expressão gênica

Terapia celular

Autoimmunity

Cell therapy

Gene expression

Hematopoietic stem cells

Mesenchymal stem cells

Type 1 diabetes mellitus

3D micropatternable hydrogel systems to examine crosstalk effects between mesenchymal stem cells, osteoblasts, and adipocytes

Hammoudi, Taymour Marwan

15 November 2012

Poor skeletal health results from aging and metabolic diseases such as obesity and diabetes and involves impaired homeostatic balance between marrow osteogenesis and adipogenesis. Tissue engineering provides researchers with the ability to generate improved, highly controlled and tailorable in vitro model systems to better understand mechanisms of homeostasis, disease, and healing and regeneration. Model systems that allow assembly of modules of MSCs, osteoblasts, and adipocytes in a number of configurations to engage in signaling crosstalk offer the potential to study integrative physiological aspects and complex interactions in the face of changes in local and systemic microenvironments. Thus, the overall goal of this dissertation was to examine integrative physiological aspects between MSCs, osteoblasts, and adipocytes that exist within the marrow microenvironment. To investigate the effects of intercellular signaling in different microenvironmental contexts, methods were developed to photolithographically pattern and assemble cell-laden PEG-based hydrogels with high spatial fidelity and tissue-scale thickness for long-term 3D co-culture of multiple cell types. This platform was applied to study effects of crosstalk between MSCs, osteoblasts and adipocytes on markers of differentiation in each cell type. Additionally, responses of MSCs to systemic perturbations in glucose concentration were modulated by mono-, co-, and tri-culture with these cell types in a model of diabetes-induced skeletal disease. Together, these studies provided valuable insight into unique and differential effects of intercellular signaling within the niche environment of MSCs and their terminally differentiated progeny during homeostatic and pathological states, and offer opportunities further study of integrative physiological interactions between mesenchymal lineage cells.

Biomaterials

Hydrogels

Tissue engineering

Model systems

Systems biology

Multivariate analysis

Stem cells

Mesenchymal stem cells

Photolithography

Tri-culture

Micropatterning

Three-dimensional

Co-culture

Adipocytes

Osteoblasts

Regenerative medicine

Biomedical engineering

Mesenchymal stem cells Differentiation

Connective tissues

Transcriptional Regulation of Retinal Progenitor Cells Derived from Human Induced Pluripotent Stem Cells.

Sridhar, Akshayalakshmi

22 August 2013

Indiana University-Purdue University Indianapolis (IUPUI) / In order to develop effective cures for diseases and decipher disease pathology, the need exists to cultivate a better understanding of human development. Existing studies employ the use of animal models to study and model human development and disease phenotypes but the evolutionary differences between humans and other species slightly limit the applicability of such animal models to effectively recapitulate human development. With the development of human pluripotent stem cells (hPSCs), including Human induced Pluripotent stem cells (hiPSCs) and Human Embryonic Stem cells (hESCs), human development can now be mirrored and recapitulated in vitro. These stem cells are pluripotent, that is, they possess the potential to generate any cell type of the body including muscle cells, nerve cells or blood cells. One of the major focuses of this study is to use hiPSCs to better understand and model human retinogenesis. The retina develops within the first three months of human development, hence rendering it inaccessible to investigation via traditional methods. However, with the advent of hiPSCs, retinal cells can be generated in a culture dish and the mechanisms underlying the specification of a retinal fate can be determined. Additionally, in order to use hiPSCs for successful cell replacement therapy, non-xenogeneic conditions need to be employed to allow for fruitful transplantation tests. Hence, another emphasis of this study has been to direct hiPSCs to generate retinal cells under non-xenogeneic conditions to facilitate their use for future translation purposes.

Stem cells

Multipotent stem cells

Genetic engineering

Embryonic stem cells

Regenerative medicine -- Research

Retina -- Molecular aspects

Retina -- Differentiation

Developmental biology

Development and Commercialization of Menstrual Blood Stem Cells Banking

Sethia, Pavan P.

02 May 2011

No description available.

Cellular Biology

Femme

Menstrual Blood Stem Cells Banking

Celle

STEP

Mesenchymal Stem Cells

MSC

Multipotent

Cryopreservation

LifeCell

cord blood banking

Hygina

Cryo-Cell

Entrepreneurial Biotechnology

CWRU

Adult Stem Cells

Menstruation

Human Wharton’s jelly cells-isolation and characterization in different growth conditions

Seshareddy, Kiran Babu

January 1900

Master of Science / Department of Anatomy and Physiology / Mark L. Weiss / Wharton's jelly is a non-controversial source of mesenchymal stromal cells. Isolation of the cells is non-invasive and painless. The cells have been shown to have a wide array of therapeutic applications. They have improved symptoms when transplanted in a variety of animal disease models, can be used in tissue engineering applications to grow living tissue ex vivo for transplantation, and can be used as drug delivery vehicles in cancer therapy. The cells have also been shown to be non-immunogenic and immune suppressive. This thesis focuses on optimizing isolation protocols, culture protocols, cryopreservation, and characterization of cells in different growth conditions. Results from the experiments indicate that isolation of cells by enzyme digestion yields cells consistently, a freezing mixture containing 90% FBS and 10% DMSO confers maximum viability, and the expression of mesenchymal stromal cell consensus markers does not change with passage and cryopreservation. The results of the experiments also show that cells grow at a higher rate in 5% oxygen culture conditions compared to 21% oxygen culture conditions, serum does not have an effect on growth of the cells, serum and oxygen do not have effects on the expression of mesenchymal stromal cell consensus markers and the cells are stable without nuclear abnormalities when grown in 5% oxygen and serum free conditions for six passages after first establishing in serum conditions.

Human Wharton's jelly cells

Mesenchymal Stromal Cells

Mesenchymal Stem Cells

Freezing stem cells

Umbilical Cord Matrix Stromal Cells

Biology, Anatomy (0287)

Biology, Cell (0379)

Characterising the cell biology of leukemic stem cells in acute myeloid leukemia

Cornforth, Terri Victoria

January 2013

Acute Myeloid leukemia (AML) is an aggressive haematological malignancy that mainly affects the elderly. Relapse is common and is thought to be due to the presence of chemotherapy resistant leukemic stem cells (LSC). Within the CD34+ disease (>5% of the blast cells expressing CD34) , two subtypes have been identified; an LMPP/GMPlike expanded type and a MPP/CMP-like expanded type, the former is the most common, accounting for around 80% of CD34+ AML. Both the GMP-like and LMPPlike expanded populations show LSC activity. To improve our understanding of the disease and gain better insight in to how to develop treatments, the molecular basis of the disease needs to be investigated. I investigated miRNAs in the GMP/LMPP-like expanded AML. miRNAs are small non-coding RNAs involved in the regulation of mRNA. In recent years miRNAs have been shown to be implicated in many different diseases. To investigate the role miRNAs play in AML, miRNA expression was profiled in leukemic and normal bone marrow. Bioinformatic analysis was then used to examine the different miRNA expression profiles between normal and leukemic marrow. Our study showed that miRNAs are dysregulated in AML. miRNAs from the miR-17-92 and its paralogous cluster miR-106b-92 were amongst the miRNAs to be found down regulated in AML As had been seen previously at an mRNA level, on an miRNA level the LSC populations more closely resembled more mature progenitor populations than HSC and MPP populations, however the LSC populations did display an aberrant stem cell-like miRNA signature.

616.99

The emergence and early fate decisions of stem and progenitor cells in the haematopoietic system

Lutteropp, Michael

January 2012

The alternative road map describes the separation of lympho-myeloid and myeloid-megakaryocyte-erythroid (myeloid-Mk-E) lineages as the earliest haematopoietic commitment event. However, a number of aspects of this lineage restriction process remain poorly understood. Herein this work identified a lympho-myeloid restricted progenitor in the embryo, which resembles the adult LMPP, and demonstrated that lymphoid lineage restriction is initiated prior to definitive haematopoiesis, much earlier than previously appreciated. In vivo fate mapping showed that lympho-myeloid progenitors significantly contribute to steady state myelopoiesis in the embryo. The early thymic progenitor (ETP) as most primitive cell in the thymus was characterised and demonstrated to sustain B, T and myeloid but not Mk potentials at the single cell level. The ETP therefore largely resembles the cellular properties of lympho-myeloid progenitors in bone marrow and foetal liver, which points to these cells as candidate thymus seeding progenitors (TSP). Furthermore the existence of a putative Mk progenitor was explored within the LSKCD150⁺CD48⁺Gata1^pos compartment of a Gata1 reporter mouse providing the basis for a future prospective characterisation. Finally, this work evaluated the earliest lineage restriction of von Willebrand factor (Vwf)-EGFP⁺ and EGFP^- haematopoietic stem cells (HSCs) through in vitro paired daughter fate mapping. Single Vwf⁺ HSCs showed heterogeneous Mk priming and more frequently sustained Mk potential after cell division. Moreover, analysis of lineage priming between daughter cells revealed the asymmetric expression of key lineage determinants and stem cell regulators, which might be employed as reporters for future fate mapping studies.

616.02774

Regulation of stemness and differentiation in colorectal cancer

Gandhi, Shaan-Chirag Chandrahas

January 2010

The cancer stem cell (CSC) model of carcinogenesis and progression posits that within a tumor lies a subpopulation of cells that solely possess the ability to initiate a tumor and to differentiate into tumor cell lineages. Although the behavior of such cells is known, the challenge is to identify factors that characterize the CSC subpopulation. In this thesis, cell lines were identified that, when grown in three-dimensions, gave rise to organized colonies containing lumens originating from differentiating cells (“lumen lines”) and to densely-packed, spherical colonies originating from non-differentiating cells (“dense lines”). A microarray comparison of the pair identified genes upregulated in dense lines, including CD55 and BMI1, and in lumen lines, including CDX1 (Chapter 3). CD55 was used to isolate CD55high CSCs via flow cytometry that are able to self-renew, differentiate, initiate more colonies, proliferate more rapidly and exhibit an increased G2/M cell cycle population as opposed to unfractionated cells. Furthermore, the CD55high cells were able to give rise to more differentiated, lumen colonies in vitro, indicating that CD55 enriches for cells possessing a capacity to differentiate, and were able to enrich the CD24highCD44high putative CSC population further (Chapter 4). CDNA induction of BMI1 and CDX1 expression led to increased clonogenicity/proliferation and decreased clonogenicity/proliferation, respectively, and incorporation of a CDX1 reporter construct into the SW1222 cell line identified CDX1+ cells as a low-expressing population of CD55 (Chapter 5). Finally, co-culture of cell lines in an in vivo-like environment with intestinal myofibroblasts promoted the CSC population by enhancing clonogenicity, proliferation and expression of CD55 (Chapter 6). The results of this thesis implicate CD55 as a potent marker of colorectal cancer stemness, link the expression of BMI1 and CDX1 to cancer stemness and differentiation, respectively, and identify a role for the in vivo stem cell niche in maintaining the CSC population.

616.994