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Interactions between the haematopoietic stem cell and the myeloid microenvironment in aplastic anaemiaNovitzky, Nicolas 10 July 2017 (has links)
In patients with aplastic anaemia that respond to immunosuppressive therapy, quantitative, morphological and functional haematologic derangement have been reported. To explain these findings, abnormalities in the marrow stroma or the stem cell have been postulated. To define the relative contribution of each of the latter, the integrity of the bone marrow from sixteen patients that responded to anti-lymphocyte globulin and high dose methyl prednisolone was compared to normal individuals. Bone marrow mononuclear cells were divided into two fractions. From the first, stroma was cultured in aMEM containing 12.5% of both horse and foetal calf serum and 10-5 M hydrocortisone at 37° C in 5% CO2 in 90% humidity. The medium was changed weekly. Upon confluence, these stromal layers were studied morphologically and with cytospin preparations stained with Sudan black, 0 red oil, alkaline and acid phosphatases. The remainder was monocyte and lymphocyte depleted, CD 34+ progenitors were selected with paramagnetic beads and the population morphologically and immunophenotypically defined. To determine the functional status, control or patient CD 34+ progenitors, were suspended for two hours on normal or aplastic stroma for adherence to take place. The non-adhesive fraction was decanted by standardised washing and cultured for fourteen days in the presence of PHA-conditioned medium in the CFU-gm assay. Strama-adherent progenitors were covered with 0.3% agar and cultured for five days. Aggregates with more than twenty cells were scored (CFU-bl). The remaining CD 34+ cells were cultured in the mixed colony assay with combinations of recombinant cytokines belonging to the G protein super-family and the tyrosine kinase group in dose response studies. Light density cells from patients with treated aplasia contained significantly fewer CD 34+ cells than those present in the control suspensions (mean 0.65%, SD 0.35% vs 1.62%, SD 1.4%; p= 0.002). Normal and aplastic stroma became confluent at three and four weeks. There was no difference on the morphology or the cytochemical stains between the two groups. Functionally, aplastic bone marrow stroma supported CFU-bl formation no differently from normal layers. However, CD 34+ precursors from the patients cultured on control stroma resulted in significantly fewer CFU-bl (p= 0.0002,) and CFU-gm (p= 0.0009). This work provides original evidence supporting the reduced clonogenicity of the corresponding populations of CFU-bl from patients with aplasia is unrelated to attachment to the stroma, but intrinsic to the CD 34+ cells. Moreover, this study shows for the first time that exposure of these progenitors to growth factors belonging to the G protein and tyrosine kinase receptor families have defective responses, correctable only at supra physiological concentrations, while effects on combinations containing c-kit ligand, appear preserved. Following immunosuppressive therapy, the bone marrow is repopulated by a hypoproliferative progenitor cell population which responds suboptimally to physiological cytokine stimulation. This suggests that abnormal interactions between receptors and their ligands or alterations in the signal transduction for cell division by the cytokines belonging to the G superfamily lead to suboptimal growth.
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Expressão de genes de repressão gênica em tumor primário em relação à presença ou ausência de células metastáticas ocultas na medula óssea em pacientes com câncer de mama / Expression of genes involved in transcriptional repression in the primary tumor of breast cancer patients in the presence or absence of occult metastatic cells in the bone marrowAbreu, Ana Paula Santana de 25 August 2006 (has links)
Estudos sugerem que a presença de células metastáticas ocultas em medula óssea pode ser fator prognóstico em câncer de mama. Além disso, é possível que um perfil gênico tumoral específico, caracterizado por repressão da expressão gênica, esteja associado à detecção de células tumorais na medula óssea. O silenciamento de genes é controlado pela desacetilação de histonas e metilação de DNA, esta última catalisada por enzimas DNA metil transferases. Outro alvo de metil-transferases são as histonas, e histona H3 quando sofre metilação em lisina 9, gera sítio de ligação a proteínas HP1 (Heterocromatin protein-1 ou cromobox). Membros da família HP1 (HP1Hsalfa, HP1Hsbeta e HP1HsY) participam da formação da heterocromatina e da regulação da expressão de genes. Logo, nosso objetivo foi determinar no tumor primário de mama, a expressão de HP1Hsalfa, HP1Hsbeta e HP1Hsy , que participam da repressão gênica, em relação à presença ou ausência de células metastáticas ocultas na medula óssea. Neste estudo foram incluídas 37 pacientes de forma prospectiva, atendidas no Instituto Brasileiro de Controle do Câncer (IBCC) no período de junho de 2004 a julho de 2005, com diagnóstico histopatológico de carcinoma invasivo de mama, estádio clínico (EC) I (16,2%), II (51,4%) ou III (32,4%), segundo a classificação patológica. A idade mediana das pacientes foi 63 anos (41 a 90) e 62.2% delas encontravam-se na pós-menopausa, sendo que 24.3% relatava história familiar para câncer de mama. O tipo histológico predominante foi carcinoma ductal invasivo (89.2% dos casos), sendo, o restante, representado por carcinoma lobular invasivo (10.8%). Foram coletadas amostras de tumor primário de mama e de aspirado de medula óssea de cada paciente. A presença de células metastáticas ocultas (CMO) na medula óssea (MO) foi detectada através da expressão de citoqueratina 19 (CK19) pelo método de nested RT-PCR. A expressão relativa dos genes HP1Hsalfa, HP1Hsbeta e HP1Hsy foi determinada no tumor primário, usando-se a técnica de RT-PCR em tempo real. Presença de CMO foi detectada na MO de 20 pacientes (54.1%). Não observamos diferença na expressão de HP1Hs? (1,93 ± 2,25 MO- vs 3,84 ± 5,53 MO+), HP1Hs? (6,74 ± 6,31 MO- vs 6,49 ± 5,86 MO+) e HP1Hs? (24,58 ± 11,14 MO- vs 24,91 ± 15,88 MO+) entre as amostras tumorais de pacientes com presença (MO+) ou ausência (MO-) de micrometástase medular. Também não observamos variação da expressão de genes HP1 em relação ao comprometimento linfonodal, dimensão e grau histológico do tumor, expressão tumoral de receptores de estrógeno e estado menopausal da paciente. A expressão de HP1Hsalfa em tumores de pacientes com câncer de mama ERBB2 negativos, entretanto, foi maior do que em tumores ERBB2 positivos. Nossos dados indicam que em tumores de mama, a expressão de HP1Hsalfa, HP1Hsbeta e HP1Hsy não parece se associar à presença de células ocultas em medula óssea / Studies suggest that the presence of occult metastatic cells (OMC) in the bone marrow (BM) may be a prognostic factor in breast cancer. Besides, it is possible that a specific tumor gene profile, characterized by repression of gene expression, may be associated to the presence of tumoral cells in the bone marrow. Gene silencing is controlled by histone deacetylation and DNA methylation, the last one catalized by enzymes DNA methyltransferases (DNMTs). Histones are another target of methyltransferases, and methylation of histone H3 on lysine-9 generate a binding site for HP1 proteins (Heterocromatin protein-1 or chromobox). Members of the HP1 family (HP1Hsalfa, HP1Hsbeta e HP1Hsy) take part in heterochromatin formation and gene expression regulation. Hence, our aim was to determine in the primary tumor of the breast, the expression of HP1Hsalfa, HP1Hsbeta e HP1Hsy, which participate in gene repression, in the presence or absence of occult metastatic cells in the bone marrow. In this study, 37 patients treated at Instituto Brasileiro de Controle do Câncer, from June 2004 to July 2005, with invasive breast cancer histopathologically confirmed, pathological clinical stages I (16,2%), II (51,4%) or III (32,4), were included. The median age of the patients was 63 years (41 to 90), 62.2% were post-menopausal and 24.3% reported family history of breast cancer. Invasive ductal carcinoma was diagnosed in most patients (89.2%), and invasive lobular carcinoma was detected in the other patients (10.8%). Tumor samples and bone marrow aspirates were obtained from each patient. The presence of CMO in BM was detected by keratin-19 (CK19) expression by nested RT-PCR. The relative expression of the genes HP1Hsalfa, HP1Hsbeta e HP1Hsy was determined by real-time RT-PCR. Occult metastatic cells (OMC) in BM were detected in 20 patients (54.1%). No differences were observed in the expression of HP1Hs? (1,93 ± 2,25 BM- vs 3,84 ± 5,53 BM+), HP1Hsalfa (6,74 ± 6,31 BM- vs 6,49 ± 5,86 BM+) and HP1Hsbeta (24,58 ± 11,14 BM- vs 24,91 ± 15,88 BM+) between tumor samples of BM+ patients and BM- patients. Variations of HP1 gene expression were neither observed according to lymph node involvement, tumor size, histological grade, estrogen receptor status and menopausal status. However, HP1Hsbeta expression in ERBB2-negative tumors was higher than in ERBB2-positive tumors. Our data indicate that in breast cancer tumors, expression of HP1Hsalfa, HP1Hsbeta e HP1Hsy does not seem to be associated with the presence of occult metastatic cells in the bone marrow
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Expressão de genes de repressão gênica em tumor primário em relação à presença ou ausência de células metastáticas ocultas na medula óssea em pacientes com câncer de mama / Expression of genes involved in transcriptional repression in the primary tumor of breast cancer patients in the presence or absence of occult metastatic cells in the bone marrowAna Paula Santana de Abreu 25 August 2006 (has links)
Estudos sugerem que a presença de células metastáticas ocultas em medula óssea pode ser fator prognóstico em câncer de mama. Além disso, é possível que um perfil gênico tumoral específico, caracterizado por repressão da expressão gênica, esteja associado à detecção de células tumorais na medula óssea. O silenciamento de genes é controlado pela desacetilação de histonas e metilação de DNA, esta última catalisada por enzimas DNA metil transferases. Outro alvo de metil-transferases são as histonas, e histona H3 quando sofre metilação em lisina 9, gera sítio de ligação a proteínas HP1 (Heterocromatin protein-1 ou cromobox). Membros da família HP1 (HP1Hsalfa, HP1Hsbeta e HP1HsY) participam da formação da heterocromatina e da regulação da expressão de genes. Logo, nosso objetivo foi determinar no tumor primário de mama, a expressão de HP1Hsalfa, HP1Hsbeta e HP1Hsy , que participam da repressão gênica, em relação à presença ou ausência de células metastáticas ocultas na medula óssea. Neste estudo foram incluídas 37 pacientes de forma prospectiva, atendidas no Instituto Brasileiro de Controle do Câncer (IBCC) no período de junho de 2004 a julho de 2005, com diagnóstico histopatológico de carcinoma invasivo de mama, estádio clínico (EC) I (16,2%), II (51,4%) ou III (32,4%), segundo a classificação patológica. A idade mediana das pacientes foi 63 anos (41 a 90) e 62.2% delas encontravam-se na pós-menopausa, sendo que 24.3% relatava história familiar para câncer de mama. O tipo histológico predominante foi carcinoma ductal invasivo (89.2% dos casos), sendo, o restante, representado por carcinoma lobular invasivo (10.8%). Foram coletadas amostras de tumor primário de mama e de aspirado de medula óssea de cada paciente. A presença de células metastáticas ocultas (CMO) na medula óssea (MO) foi detectada através da expressão de citoqueratina 19 (CK19) pelo método de nested RT-PCR. A expressão relativa dos genes HP1Hsalfa, HP1Hsbeta e HP1Hsy foi determinada no tumor primário, usando-se a técnica de RT-PCR em tempo real. Presença de CMO foi detectada na MO de 20 pacientes (54.1%). Não observamos diferença na expressão de HP1Hs? (1,93 ± 2,25 MO- vs 3,84 ± 5,53 MO+), HP1Hs? (6,74 ± 6,31 MO- vs 6,49 ± 5,86 MO+) e HP1Hs? (24,58 ± 11,14 MO- vs 24,91 ± 15,88 MO+) entre as amostras tumorais de pacientes com presença (MO+) ou ausência (MO-) de micrometástase medular. Também não observamos variação da expressão de genes HP1 em relação ao comprometimento linfonodal, dimensão e grau histológico do tumor, expressão tumoral de receptores de estrógeno e estado menopausal da paciente. A expressão de HP1Hsalfa em tumores de pacientes com câncer de mama ERBB2 negativos, entretanto, foi maior do que em tumores ERBB2 positivos. Nossos dados indicam que em tumores de mama, a expressão de HP1Hsalfa, HP1Hsbeta e HP1Hsy não parece se associar à presença de células ocultas em medula óssea / Studies suggest that the presence of occult metastatic cells (OMC) in the bone marrow (BM) may be a prognostic factor in breast cancer. Besides, it is possible that a specific tumor gene profile, characterized by repression of gene expression, may be associated to the presence of tumoral cells in the bone marrow. Gene silencing is controlled by histone deacetylation and DNA methylation, the last one catalized by enzymes DNA methyltransferases (DNMTs). Histones are another target of methyltransferases, and methylation of histone H3 on lysine-9 generate a binding site for HP1 proteins (Heterocromatin protein-1 or chromobox). Members of the HP1 family (HP1Hsalfa, HP1Hsbeta e HP1Hsy) take part in heterochromatin formation and gene expression regulation. Hence, our aim was to determine in the primary tumor of the breast, the expression of HP1Hsalfa, HP1Hsbeta e HP1Hsy, which participate in gene repression, in the presence or absence of occult metastatic cells in the bone marrow. In this study, 37 patients treated at Instituto Brasileiro de Controle do Câncer, from June 2004 to July 2005, with invasive breast cancer histopathologically confirmed, pathological clinical stages I (16,2%), II (51,4%) or III (32,4), were included. The median age of the patients was 63 years (41 to 90), 62.2% were post-menopausal and 24.3% reported family history of breast cancer. Invasive ductal carcinoma was diagnosed in most patients (89.2%), and invasive lobular carcinoma was detected in the other patients (10.8%). Tumor samples and bone marrow aspirates were obtained from each patient. The presence of CMO in BM was detected by keratin-19 (CK19) expression by nested RT-PCR. The relative expression of the genes HP1Hsalfa, HP1Hsbeta e HP1Hsy was determined by real-time RT-PCR. Occult metastatic cells (OMC) in BM were detected in 20 patients (54.1%). No differences were observed in the expression of HP1Hs? (1,93 ± 2,25 BM- vs 3,84 ± 5,53 BM+), HP1Hsalfa (6,74 ± 6,31 BM- vs 6,49 ± 5,86 BM+) and HP1Hsbeta (24,58 ± 11,14 BM- vs 24,91 ± 15,88 BM+) between tumor samples of BM+ patients and BM- patients. Variations of HP1 gene expression were neither observed according to lymph node involvement, tumor size, histological grade, estrogen receptor status and menopausal status. However, HP1Hsbeta expression in ERBB2-negative tumors was higher than in ERBB2-positive tumors. Our data indicate that in breast cancer tumors, expression of HP1Hsalfa, HP1Hsbeta e HP1Hsy does not seem to be associated with the presence of occult metastatic cells in the bone marrow
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