Efeito da caquexia associada ao câncer em componentes da matriz extracelular do tecido adiposo. / Effects of cancer cachexia on the components of the adipose tissue extracellular matrix.

Michele Joana Alves

25 November 2011

A profunda perda de tecido adiposo é considerada um marcador na caquexia associada ao câncer. O objetivo do estudo foi avaliar os efeitos da caquexia associada ao câncer em componentes da matriz extracelular do tecido adiposo subcutâneo (TAS) de pacientes. Pacientes do Hospital Universitário (HU) foram divididos em dois grupos: portadores de tumor com caquexia (TC) e controles (C). Amostras de TAS foram analisadas quanto aos aspectos morfológicos, morfométricos, ultraestruturais, moleculares por RT-PCR em tempo real para os genes: COL1A1, COL3A1, COL6A1, FN1 e MMP2, e por imunohistoquímica para colágeno (III, VI), fibronectina e metaloproteinase 2 (MMP2). O presente estudo relata alterações das características morfológicas dos adipócitos, bem como na expressão gênica do COL6A1, FN1 e MMP2 no TC. A imunopositividade observada estava modificada para colágeno III, VI, fibronectina e na MMP2. Conclusão: A caquexia associada ao câncer afeta profundamente o tecido adiposo conduzindo à fibrose tecidual. / Profound loss of adipose tissue is a hallmark of cancer cachexia. Nevertheless, the changes caused by cancer cachexia regarding the adipose tissue extracellular matrix have not yet been fully described. The aim of the study was to evaluate the effects of cancer cachexia upon extracellular matrix components of the subcutaneous adipose tissue (TAS) of cancer patients. Patients of the Hospital University (HU) were divided into two groups: tumour cachexia (TC) and control (C). Samples were analysed for morphological aspects, ultrastructurals, morphometric, molecular analyses by real time RT-PCR for gene COL3A1, COL1A1, COL6A1, FN1 and MMP2, and immunohistochemistry for collagen (III, VI), fibronectin and metalloproteinase 2 (MMP2). This study shows modifications of the morphological characteristics of the adipocytes as well as in gene expression of COL6A1, FN1 and MMP2 in TC. The imunopositivity also was modified to collagen III, VI, fibronectin and MMP2. Conclusion: cancer cachexia affects deeply the adipose tissue, leading to the emergence of tissue fibrosis.

Células cultivadas de tumor

Matriz extracelular

Metabolismo

Neoplasias

Reação em cadeia por polimerase

Tecido adiposo

Adipose tissue

Cultured tumor cells

Extracellular matrix

Metabolism

Neoplasms

Polymerase chain reaction

Regulação da expressão de SH3BGRL2, D53, PRAME, DAP12 e calcineurina A beta por BCR-ABL e consequências biológicas dessa regulação na LMC. / BCR-ABL-mediated regulation of SH3BGRL2, D53, PRAME, DAP12 e Calcineurin A beta and biological consequences of this regulation on CML.

Carvalho, Daniel Diniz de

23 November 2009

Sabe-se que TRAIL é capaz de matar células tumorais de forma seletiva e que TRAIL tem sua expressão reduzida em diversos tumores, porém pouco se sabe sobre os mecanismos responsáveis pela sua inibição. Tendo em vista que a expressão de TRAIL pode ser regulada pelo Ácido Retinóico; que PRAME é capaz de inibir a via do ácido retinóico através da proteína EZH2 e que nós observamos anteriormente que a expressão de TRAIL esta diminuída em pacientes com LMC, nós decidimos investigar a associação entre PRAME, EZH2 e TRAIL na LMC. Nós demonstramos que PRAME, mas não EZH2, tem sua expressão aumentada em células BCR-ABL+ e sua expressão está associada com a progressão da LMC. Alem disto, existe uma correlação positiva entre PRAME e BCR-ABL e negativa entre PRAME e TRAIL nestes pacientes. A inibição da expressão de PRAME ou EZH2 por RNAi induziu um aumento da expressão de TRAIL. Estes dados revelam um novo mecanismo de regulação responsável por diminuir a expressão de TRAIL, e geram novos possíveis alvos para a terapia da LMC e, possivelmente, também para outros tumores. / TRAIL was shown to selectively kill tumor cells. Not surprisingly, TRAIL is down-regulated in a variety of tumor cells, but the mechanism responsible for TRAIL inhibition remains elusive. Because TRAIL can be regulate by retinoic acid; PRAME was shown to inhibit transcription of retinoic acid receptor target genes through the polycomb protein EZH2; and we have found that TRAIL is inversely correlated with BCR-ABL in CML patients, we decided to investigate the association of PRAME, EZH2 and TRAIL in BCR-ABL-positive leukemia. Here, we demonstrate that PRAME, but not EZH2, is up-regulated in BCR-ABL cells and is associated with the progression of disease in CML patients. In addition, PRAME expression is positively correlated with BCR-ABL and negatively with TRAIL in these patients. Importantly, knocking down of PRAME or EZH2 by RNA interference restores TRAIL expression. Our data reveal a novel regulatory mechanism responsible for lowering TRAIL expression and provide the basis of alternative targets for combined therapeutic strategies for CML.

PRAME

PRAME

Apoptose

Apoptosis

BCR-ABL

BCR-ABL

Células cultivadas de tumor

Chronic Myeloid Leukemia

Cultured tumor cells

Expressão gênica (Regulação)

EZH2

EZH2

Gene expression (Regulation)

Leucemia Mielóide Crônica

TRAIL

TRAIL

Clinical and Experimental Studies in Peritoneal Metastases from Gastric Cancer

Hultman, Bo

January 2013

Gastric cancer (GC) is one of leading causes of death in the world, and peritoneal metastases (PM) are a major site of recurrence. PM from GC implies a poor prognosis, with median overall survival (mOS) approximately 3 months and no survival at five years. The aims of this thesis were to explore the incidence and evaluate prognostic factors for mOS of PM from GC in a defined population; to investigate the outcome of a new multimodal treatment; to analyse the treatment costs, and to investigate differences in drug sensitivity between individual patient samples and between various tumours. The incidence of loco-regional advanced GC was 3.8 per 100,000 person-years. Synchronous loco-regional GC in combination with synchronous distant metastasis was a negative prognostic factor while chemotherapy and good performance status, and radiotherapy plus chemotherapy were positive prognostic factors . There were no significant differences in mOS for the group of patients included during the period 2000-2004 versus 2005-2009, and this lack of improvement in mOS during the past decade justifies new treatment approaches. In a Phase II study of patients treated with neoadjuvant systemic chemotherapy followed by cytoreductive surgery + hyperthermic intraperitoneal chemotherapy, mOS was 14.3 months and for patients with macroscopically radical surgery mOS was 19.1 months. The mean overall cost of the loco-regional treatment was $145,700 compared to $59,300 with systemic chemotherapy treatment. In an ex vivo chemo-sensitivity test, it was determined that GC samples were equivalent to colorectal cancer in chemo-sensitivity to standard drugs and targeted drugs, whereas ovarian cancer samples were more sensitive. The individual GC samples varied considerably in sensitivity to increasing concentrations of the drugs, arguing for individualized drug selection. The incidence of loco-regional advanced GC was more common than previously reported and there were no improvements in mOS over the past decade. The mOS for patients with neoadjuvant systemic chemotherapy followed by macroscopically radical cytoreductive surgery + hyperthermic intraperitoneal chemotherapy was better than in recent reports on treatment with systemic chemotherapy. Treatment of advanced GC patients is costly irrespective of treatment modality. The GC samples varied considerably between individuals in terms of sensitivity to increasing concentrations of the drugs and were comparable to colorectal cancer in chemo-sensitivity.

gastric cancer

peritoneal metastases

peritoneal carcinomatosis

epidemiology

prognostic factor

survival

neoadjuvant chemotherapy

cytoreductive surgery

HIPEC

health economy

costs

systemic chemotherapy

cultured tumor cells

fluorometric analysis

cancer drug tests

chemo-sensitivity

anti tumor drugs.

Regulação da expressão de SH3BGRL2, D53, PRAME, DAP12 e calcineurina A beta por BCR-ABL e consequências biológicas dessa regulação na LMC. / BCR-ABL-mediated regulation of SH3BGRL2, D53, PRAME, DAP12 e Calcineurin A beta and biological consequences of this regulation on CML.

Daniel Diniz de Carvalho

23 November 2009

Sabe-se que TRAIL é capaz de matar células tumorais de forma seletiva e que TRAIL tem sua expressão reduzida em diversos tumores, porém pouco se sabe sobre os mecanismos responsáveis pela sua inibição. Tendo em vista que a expressão de TRAIL pode ser regulada pelo Ácido Retinóico; que PRAME é capaz de inibir a via do ácido retinóico através da proteína EZH2 e que nós observamos anteriormente que a expressão de TRAIL esta diminuída em pacientes com LMC, nós decidimos investigar a associação entre PRAME, EZH2 e TRAIL na LMC. Nós demonstramos que PRAME, mas não EZH2, tem sua expressão aumentada em células BCR-ABL+ e sua expressão está associada com a progressão da LMC. Alem disto, existe uma correlação positiva entre PRAME e BCR-ABL e negativa entre PRAME e TRAIL nestes pacientes. A inibição da expressão de PRAME ou EZH2 por RNAi induziu um aumento da expressão de TRAIL. Estes dados revelam um novo mecanismo de regulação responsável por diminuir a expressão de TRAIL, e geram novos possíveis alvos para a terapia da LMC e, possivelmente, também para outros tumores. / TRAIL was shown to selectively kill tumor cells. Not surprisingly, TRAIL is down-regulated in a variety of tumor cells, but the mechanism responsible for TRAIL inhibition remains elusive. Because TRAIL can be regulate by retinoic acid; PRAME was shown to inhibit transcription of retinoic acid receptor target genes through the polycomb protein EZH2; and we have found that TRAIL is inversely correlated with BCR-ABL in CML patients, we decided to investigate the association of PRAME, EZH2 and TRAIL in BCR-ABL-positive leukemia. Here, we demonstrate that PRAME, but not EZH2, is up-regulated in BCR-ABL cells and is associated with the progression of disease in CML patients. In addition, PRAME expression is positively correlated with BCR-ABL and negatively with TRAIL in these patients. Importantly, knocking down of PRAME or EZH2 by RNA interference restores TRAIL expression. Our data reveal a novel regulatory mechanism responsible for lowering TRAIL expression and provide the basis of alternative targets for combined therapeutic strategies for CML.

PRAME

Apoptose

BCR-ABL

Células cultivadas de tumor

Expressão gênica (Regulação)

EZH2

Leucemia Mielóide Crônica

TRAIL

PRAME

Apoptosis

BCR-ABL

Chronic Myeloid Leukemia

Cultured tumor cells

EZH2

Gene expression (Regulation)

TRAIL