Ageing increases vulnerability to aß42 toxicity in Drosophila
Age is the major risk factor for many neurodegenerative diseases, including Alzheimer's Disease (AD), for reasons that are not clear. The association could indicate that the duration or degree of exposure to toxic proteins is important for pathology, or that age itself increases susceptibility...
| Published in: | PLoS ONE |
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| Main Authors: | , , , , , |
| Format: | Article in Journal/Newspaper |
| Language: | English |
| Published: |
2012
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| Subjects: | |
| Online Access: | https://researchonline.gcu.ac.uk/en/publications/fc60b3c8-1fc7-4e65-b9be-79bb07fe0cab https://doi.org/10.1371/journal.pone.0040569 https://researchonline.gcu.ac.uk/ws/files/51906823/Rogers_I._2012_Ageing_increases_vulnerability_to_a_42_toxicity_in_Drosophila.pdf |
| Summary: | Age is the major risk factor for many neurodegenerative diseases, including Alzheimer's Disease (AD), for reasons that are not clear. The association could indicate that the duration or degree of exposure to toxic proteins is important for pathology, or that age itself increases susceptibility to protein toxicity. Using an inducible Drosophila model of AD, we investigated these possibilities by varying the expression of an Aß42 transgene in neurons at different adult ages and measuring the effects on Aß42 levels and associated pathological phenotypes. Acute induction of Arctic Aß42 in young adult flies resulted in rapid expression and clearance of mRNA and soluble Arctic Aß42 protein, but in irreversible expression of insoluble Arctic Aß42 peptide. Arctic Aß42 peptide levels accumulated with longer durations of induction, and this led to a dose-dependent reduction in negative geotaxis and lifespan. For a standardised level of mRNA expression, older flies had higher levels of Arctic Aß42 peptide and associated toxicity, and this correlated with an age-dependent reduction in proteasome activity. Equalising Aß42 protein at different ages shortened lifespan in correlation with the duration of exposure to the peptide, suggesting that Aß42 expression accumulates damage over time. However, the relative reduction in lifespan compared to controls was greater in flies first exposed to the peptide at older ages, suggesting that ageing itself also increases susceptibility to Aß42 toxicity. Indeed older flies were more vulnerable to chronic Aß42 toxicity even with a much lower lifetime exposure to the peptide. Finally, the persistence of insoluble Aß42 in both young and old induced flies suggests that aggregated forms of the peptide cause toxicity in later life. Our results suggest that reduced protein turnover, increased duration of exposure and increased vulnerability to protein toxicity at later ages in combination could explain the late age-of-onset of neurodegenerative phenotypes. |
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