Kristen M. Berendzen scite author profile

SUMMARY During neurodegenerative disease, the toxic accumulation of aggregates and misfolded proteins is often accompanied with widespread changes in peripheral metabolism, even in cells in which the aggregating protein is not present. The mechanism by which the central nervous system elicits a distal reaction to proteotoxic stress remains unknown. We hypothesized that the endocrine communication of neuronal stress plays a causative role in the changes in mitochondrial homeostasis associated with proteotoxic disease states. We find that an aggregation-prone protein expressed in the neurons of C. elegans binds to mitochondria, eliciting a global induction of a mitochondrial-specific unfolded protein response (UPRmt), affecting whole-animal physiology. Importantly, dense core vesicle release and secretion of the neurotransmitter serotonin is required for the signal’s propagation. Collectively, these data suggest the commandeering of a nutrient sensing network to allow for cell-to-cell communication between mitochondria in response to protein folding stress in the nervous system.

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Systemic stress signalling: understanding the cell non-autonomous control of proteostasis

Taylor

Berendzen

Dillin

2014

Nat Rev Mol Cell Biol

147

127

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Proteome maintenance is crucial to cellular health and viability, and is typically thought to be controlled in a cell-autonomous manner. However, recent evidence indicates that protein-folding defects can systemically activate proteostasis mechanisms through signalling pathways that coordinate stress responses among tissues. Coordination of ageing rates between tissues may also be mediated by systemic modulation of proteostasis. These findings suggest that proteome maintenance is a systemically regulated process, a discovery that may have important therapeutic implications.

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Therapeutic potential of dichloroacetate for pyruvate dehydrogenase complex deficiency

et al. 2006

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