Alterações metabólicas e o papel da mitocôndria no processo de tumorigênese de astrocitomas humanos / Metabolic alterations and the role of mitochondria in tumorigenic process of human astrocytomas

AUTOR(ES)

Renata de Luizi Correia

DATA DE PUBLICAÇÃO

2010

RESUMO

Mitochondria has a key role in cell survival and death. Mitochondrial DNA (mtDNA) alterations, for example, amplification, homoplasmic mutation, deletion and depletion, and their clinical and pathological implications have been analyzed in human malignancies. In order to search for mitochondrial alterations associated to tumorigenesis, this study aimed to analyze the expression levels of genes involved in energetic metabolism, and in mitochondrial replication and transcription, to quantify the number of mitochondrial organelle and mtDNA copy number in astrocytomas of different grades of malignancy (23 WHO grade I, 26 grade II, 18 grade III and 84 grade IV or GBM) related to non-neoplastic brain tissue (22 samples). The relative expression level of the selected genes as well as the relative and absolute quantification of mtDNA were performed by real-time PCR. Relative expression increase of glycolytic pathway key genes, change of citric acid cycle genes and hipoexpression of oxidative phosphorylation genes were detected, and confirmed the presence of Warburg effect. The reduced mtDNA copy number was associated to the grade of malignancy of diffusely infiltrating astrocytoma, being GBM the most depleted, and not related to parallel decrease in the number of organelle. The mean mtDNA copy number for non neoplastic tissue, astrocytoma grade I, grade II, grade III and GBM were respectively 1.28, 0.26, 0.45, 0.42 and 0.17. The increased relative gene expression of mitochondrial transcription factor A (TFAM), B1 (TFB1M), B2 (TFB2M) and the catalytic subunit of mitochondrial polymerase (POLG) were observed in all grades of astrocytoma, except TFB2M in grade II astrocytoma. Although a strong correlation was observed among the mitochondrial transcription factors, only the expression level of POLG correlated inversely to the mtDNA copy number. The overexpression of TFAM was associated with long-term survival in the GBM patients and interpreted as compensatory. TFAM and POLG overexpressions were related to better prognosis in GBM patients. Although our findings concerning the impairment of intermediary metabolism and depletion of mtDNA in astrocytomas confirmed previous reports, their role in initiation or maintenance of malignant transformation were not fully understood. Further investigations are needed to clarify these issues.

ASSUNTO(S)

sobrevida mitochondrial dna polg dna mitocondrial astrocitoma polg survival astrocytomas fatores de transcrição mitocondrial mitochondrial transcription factors tfam tfam

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