期刊
MARINE ENVIRONMENTAL RESEARCH
卷 107, 期 -, 页码 35-44出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.marenvres.2015.04.001
关键词
Anti-ageing; Age-pigment; Autophagy; Caloric-restriction; Cell network model; Cytoprotection; Hormesis; Lipid peroxidation; Lipofuscin; Lysosome; Lysosomal membrane stability; Mollusc; mTOR; Protein aggregates; Reactive oxygen species; Stress tolerance
资金
- Department of Science and Innovative Technology (DSIT), University of Eastern Piedmont, Alessandria, Italy
- Plymouth Marine Laboratory Fellowship (PML, Plymouth, UK)
The aim of this investigation was to test the hypothesis that fasting-induced augmented lysosomal autophagic turnover of cellular proteins and organelles will reduce potentially harmful lipofuscin (age-pigment) formation in cells by more effectively removing oxidatively damaged proteins. An animal model (marine snail - common periwinkle, Littorina littorea) was used to experimentally test this hypothesis. Snails were deprived of algal food for 7 days to induce an augmented autophagic response in their hepatopancreatic digestive cells (hepatocyte analogues). This treatment resulted in a 25% reduction in the cellular content of lipofuscin in the digestive cells of the fasting animals in comparison with snails fed ad libitum on green alga (Ulva lactuca). Similar findings have previously been observed in the digestive cells of marine mussels subjected to copper-induced oxidative stress. Additional measurements showed that fasting significantly increased cellular health based on lysosomal membrane stability, and reduced lipid peroxidation and lysosomal/cellular triglyceride. These findings support the hypothesis that fasting-induced augmented autophagic turnover of cellular proteins has an anti-oxidative cytoprotective effect by more effectively removing damaged proteins, resulting in a reduction in the formation of potentially harmful proteinaceous aggregates such as lipofuscin. The inference from this study is that autophagy is important in mediating hormesis. An increase was demonstrated in physiological complexity with fasting, using graph theory in a directed cell physiology network (digraph) model to integrate the various biomarkers. This was commensurate with increased health status, and supportive of the hormesis hypothesis. The potential role of enhanced autophagic lysosomal removal of damaged proteins in the evolutionary acquisition of stress tolerance in intertidal molluscs is discussed and parallels are drawn with the growing evidence for the involvement of autophagy in hormesis and anti-ageing processes. (C) 2015 Elsevier Ltd. All rights reserved.
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