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4 results on '"Rogers JT"'

1. Manganese causes neurotoxic iron accumulation via translational repression of amyloid precursor protein and H-Ferritin

Author

Venkataramani, V, Doeppner, TR, Willkommen, D, Cahill, CM, Xin, Y, Ye, G, Liu, Y, Southon, A, Aron, A, Au-Yeung, HY, Huang, X, Lahiri, DK, Wang, F, Bush, AI, Wulf, GG, Stroebel, P, Michalke, B, Rogers, JT, Venkataramani, V, Doeppner, TR, Willkommen, D, Cahill, CM, Xin, Y, Ye, G, Liu, Y, Southon, A, Aron, A, Au-Yeung, HY, Huang, X, Lahiri, DK, Wang, F, Bush, AI, Wulf, GG, Stroebel, P, Michalke, B, and Rogers, JT

Abstract

For more than 150 years, it is known that occupational overexposure of manganese (Mn) causes movement disorders resembling Parkinson's disease (PD) and PD-like syndromes. However, the mechanisms of Mn toxicity are still poorly understood. Here, we demonstrate that Mn dose- and time-dependently blocks the protein translation of amyloid precursor protein (APP) and heavy-chain Ferritin (H-Ferritin), both iron homeostatic proteins with neuroprotective features. APP and H-Ferritin are post-transcriptionally regulated by iron responsive proteins, which bind to homologous iron responsive elements (IREs) located in the 5'-untranslated regions (5'-UTRs) within their mRNA transcripts. Using reporter assays, we demonstrate that Mn exposure repressed the 5'-UTR-activity of APP and H-Ferritin, presumably via increased iron responsive proteins-iron responsive elements binding, ultimately blocking their protein translation. Using two specific Fe2+ -specific probes (RhoNox-1 and IP-1) and ion chromatography inductively coupled plasma mass spectrometry (IC-ICP-MS), we show that loss of the protective axis of APP and H-Ferritin resulted in unchecked accumulation of redox-active ferrous iron (Fe2+ ) fueling neurotoxic oxidative stress. Enforced APP expression partially attenuated Mn-induced generation of cellular and lipid reactive oxygen species and neurotoxicity. Lastly, we could validate the Mn-mediated suppression of APP and H-Ferritin in two rodent in vivo models (C57BL6/N mice and RjHan:SD rats) mimicking acute and chronic Mn exposure. Together, these results suggest that Mn-induced neurotoxicity is partly attributable to the translational inhibition of APP and H-Ferritin resulting in impaired iron metabolism and exacerbated neurotoxic oxidative stress. OPEN SCIENCE BADGES: This article has received a badge for *Open Materials* because it provided all relevant information to reproduce the study in the manuscript. The complete Open Science Disclosure form for this article can be

Published
2018

4. Socially-mediated differences in brain monoamines in rainbow trout: effects of trace metal contaminants

Author

Sloman, Kathrine A, Lepage, Olivier, Rogers, JT, Wood, Chris M, Winberg, Svante, Sloman, Kathrine A, Lepage, Olivier, Rogers, JT, Wood, Chris M, and Winberg, Svante

Abstract

Monoaminergic systems play a crucial role in linking behaviour and physiology. Here the physiological and behavioural effects of metal exposure in relation to monoaminergic systems were considered by exposing rainbow trout dyads, demonstrating stable dominance relationships, to cadmium or lead. Fish exposed to 4 mug l(-1) cadmium accumulated more cadmium at the gill than fish held in control water. Fish exposed to 7 mug l(-1) cadmium had higher gill, liver and kidney cadmium concentrations. No significant lead accumulation was seen after exposure to 46 mug l(-1) for 48 h but exposure to 325 mug l(-1) lead caused an increase in gill, liver and kidney lead concentrations. Brain accumulation of both cadmium and lead was only seen after exposure to the highest concentrations. Exposure to 4 or 7 mug l(-1) cadmium, or 46 or 325 mug l(-1) lead for 48 h did not disrupt established dominance hierarchies. As expected with this stable behavioural situation, in control pairs, animals of different social status displayed different physiological profiles. Subordinate fish had higher concentrations of circulating plasma cortisol and telencephalic 5-hydroxyindoleacetic acid/5-hydroxytryptamine (serotonin) (5-HIAA/5-HT) ratios. However, these physiological profiles were affected by metal exposure, with a trend towards higher serotonergic activity in dominant fish. Dominants exposed to 325 mug l(-1) lead had significantly higher hypothalamic 5-HIAA/5-HT ratios when compared with subordinates. The results demonstrate that if stable social hierarchies are established in control water they may not be affected by exposure to cadmium and lead although physiological changes may be evident.

Published
2005

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