Autophagy represents a catabolic process in which cellular protein and organelles are engulfed into autophagosomes, digested in lysosomes and reutilized for the cellular metabolism. In neoplastic conditions, autophagy may act either as a tumour suppressor avoiding the accumulation of damaged proteins and organelles or as a mechanism of cell survival promoting the tumour growth. Although enhanced autophagy has been reported in hypoxic areas of solid tumors, there are only few ultrastructural reports concerning the relationships between autophagy and tumor grade. In the present study, we have performed an ultrastructural investigation aimed to document autophagy in a cohort of advanced gastric carcinomas of tubular type, correlating the observed findings with low and high tumor grade. Among 71 surgically resected cases of advanced gastric carcinomas, we have selected twelve low-grade and thirteen high-grade tubular adenocarcinomas. Autophagic vacuoles (AV) were only occasionally found in low-grade tubular carcinomas, while they constituted a frequent finding in high-grade ones (p < 0.01). Moreover, in high-grade tubular adenocarcinomas, our data revealed a morphologic association between autophagy and nuclear changes, such as multinucleation, micronucleation and nuclear buds, largely considered as ultrastructural aspects of mitotic instability. However, an increased autophagy was associated with organelle-poor cytoplasm or a senescent phenotype, characterized by lipofuscin granules and cytoplasmic vacuoles. In the light of our observations, it may be suggested that autophagy should be considered a phenomenon mainly related to the cellular differentiation and tumor progression
Autophagy in advanced low- and high-grade tubular adenocarcinomas of the stomach: An ultrastructural investigation
Caruso, Rosario AlbertoPrimo
;Angelico, Giuseppe;Irato, Eleonora;de Sarro, Rosalba;Tuccari, Giovanni;Ieni, Antonio
Ultimo
2018-01-01
Abstract
Autophagy represents a catabolic process in which cellular protein and organelles are engulfed into autophagosomes, digested in lysosomes and reutilized for the cellular metabolism. In neoplastic conditions, autophagy may act either as a tumour suppressor avoiding the accumulation of damaged proteins and organelles or as a mechanism of cell survival promoting the tumour growth. Although enhanced autophagy has been reported in hypoxic areas of solid tumors, there are only few ultrastructural reports concerning the relationships between autophagy and tumor grade. In the present study, we have performed an ultrastructural investigation aimed to document autophagy in a cohort of advanced gastric carcinomas of tubular type, correlating the observed findings with low and high tumor grade. Among 71 surgically resected cases of advanced gastric carcinomas, we have selected twelve low-grade and thirteen high-grade tubular adenocarcinomas. Autophagic vacuoles (AV) were only occasionally found in low-grade tubular carcinomas, while they constituted a frequent finding in high-grade ones (p < 0.01). Moreover, in high-grade tubular adenocarcinomas, our data revealed a morphologic association between autophagy and nuclear changes, such as multinucleation, micronucleation and nuclear buds, largely considered as ultrastructural aspects of mitotic instability. However, an increased autophagy was associated with organelle-poor cytoplasm or a senescent phenotype, characterized by lipofuscin granules and cytoplasmic vacuoles. In the light of our observations, it may be suggested that autophagy should be considered a phenomenon mainly related to the cellular differentiation and tumor progressionFile | Dimensione | Formato | |
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autophagy 2017.pdf
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