The formation of cytotoxic intracellular protein aggregates is a pathological signature of multiple neurodegenerative diseases. The principle aggregating protein in Parkinson’s disease (PD) and atypical Parkinson’s diseases is α-synuclein (α-syn), which occurs in neural cytoplasmic inclusions. Several factors have been found to trigger α-syn aggregation, including raised calcium, iron, and copper. Transcriptional inducers have been explored to upregulate expression of endogenous metal-binding proteins as a potential neuroprotective strategy. The vitamin-D analogue, calcipotriol, induced increased expression of the neuronal vitamin D-dependent calcium-binding protein, calbindin-D28k, and this significantly decreased the occurrence of α-syn aggregates in cells with transiently raised intracellular free Ca, thereby increasing viability. More recently, the induction of endogenous expression of the Zn and Cu binding protein, metallothionein, by the glucocorticoid analogue, dexamethasone, gave a specific reduction in Cu-dependent α-syn aggregates. Fe accumulation has long been associated with PD. Intracellularly, Fe is regulated by interactions between the Fe storage protein ferritin and Fe transporters, such as poly(C)-binding protein 1. Analysis of the transcriptional regulation of Fe binding proteins may reveal potential inducers that could modulate Fe homoeostasis in disease. The current review highlights recent studies that suggest that transcriptional inducers may have potential as novel mechanism-based drugs against metal overload in PD.
This review demonstrates the importance of uncovering the mechanisms that underlie chemotherapy-induced neuroinflammation. It builds upon the well-established connection between chemotherapeutic-agents and neurotoxicity along with widespread peripheral toxicities. This article summarises the major studies which have linked chemotherapyinduced neurodegeneration with direct evidence of neuroinflammation. Cancer and chemotherapy-related adverse effects impact a large proportion of the population. A better understanding of the link between chemotherapy, neurotoxicity and specifically the mechanisms of neuroinflammation, will allow the development of strategies to improve the management of side effects, and overall to reduce the burden on cancer patients receiving chemotherapy. This review has developed a summary schematic of the relationship between different chemotherapeutic agents and inflammatory markers within the central nervous 1 Denotes equal contribution to work 2 system and links this correlation with some major ailments associated with chemotherapy use.
Intracellular aggregates of α-synuclein are the pathological hallmark of Parkinson's disease (PD) and dementia with Lewy bodies (DLB), being linked to neurotoxicity. Multiple triggers of α-synuclein aggregation have been implicated, including raised copper. The potential protective role of the endogenous copper-/zinc-binding proteins, metallothioneins (MT), has been explored in relation to copper-induced α-synuclein aggregation. Up-regulated endogenous expression of MT was induced in SHSY-5Y cells by the synthetic glucocorticoid analogue, dexamethasone. After treatment to induce endogenous MT expression, immunofluorescence confocal microscopy was used to quantify protein aggregates in cells with/without copper treatment. MT induction resulted in significant (p < 0.01), dose-dependent up-regulation of MT expression and significant reduction in Cu-dependent α-synuclein intracellular aggregates (p < 0.01) that could be suppressed by MT-specific siRNA. Ubiquitous (MT-2) and brain-specific (MT-3) isoforms were investigated by transient transfection of the GFP-fusion proteins, observing equivalent α-synuclein aggregate suppression by each. These studies indicate MT induction could have potential in PD/DLB neuroprotective therapy by suppressing α-synuclein aggregation.
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