Dane Marijan scite author profile

Physiological amyloid aggregation occurs within the nuclei of stress‐treated cells. These structures, termed Amyloid bodies (A‐bodies), assemble through the rapid accumulation of proteins into dense membrane‐less organelles, which possess the same biophysical properties as plaques observed in many amyloid‐based diseases. Here, we demonstrate that A‐body proteomic compositions vary significantly between stimuli, as constituent proteins can be sequestered by one or more stressors. Stimulus exposure alone was insufficient to induce aggregation, demonstrating that this pathway is not regulated solely by stress‐induced conformational changes of the A‐body targets. We propose that different environmental conditions induce the formation of A‐body subtypes containing distinct protein residents. This selective immobilization of proteins may have evolved as a finely tuned mechanism for surviving divergent stressors.

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Evolutionary conservation of systemic and reversible amyloid aggregation

Lacroix

Pereira

Yoo

et al. 2021

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In response to environmental stress, human cells have been shown to form reversible amyloid aggregates within the nucleus, termed amyloid bodies (A-bodies). These protective physiological structures share many of the biophysical characteristics associated with the pathological amyloids found in Alzheimer's and Parkinson's disease. Here, we show that A-bodies are evolutionarily conserved across the eukaryotic domain, with their detection in D. melanogaster and S. cerevisiae marking the first examples of these functional amyloids being induced outside of a cultured cell setting. The conditions triggering amyloidogenesis varied significantly among the species tested, with results indicating that A-body formation is a severe, but sub-lethal, stress response pathway that is tailored to an organism's environmental norms. RNA-sequencing analyses demonstrate that the regulatory low-complexity long non-coding RNAs that drive A-body aggregation are both conserved and essential in human, mouse, and chicken cells. Thus, the identification of these natural and reversible functional amyloids in a variety of evolutionarily diverse species, highlights the physiological significance of this protein conformation and will be informative in advancing our understanding of both functional and pathological amyloid aggregation events.

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Local translation in nuclear condensate amyloid bodies

Theodoridis

Bokros

Marijan

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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Biomolecular condensates concentrate molecules to facilitate basic biochemical processes, including transcription and DNA replication. While liquid-like condensates have been ascribed various functions, solid-like condensates are generally thought of as amorphous sites of protein storage. Here, we show that solid-like amyloid bodies coordinate local nuclear protein synthesis (LNPS) during stress. On stimulus, translationally active ribosomes accumulate along fiber-like assemblies that characterize amyloid bodies. Mass spectrometry analysis identified regulatory ribosomal proteins and translation factors that relocalize from the cytoplasm to amyloid bodies to sustain LNPS. These amyloidogenic compartments are enriched in newly transcribed messenger RNA by Heat Shock Factor 1 (HSF1). Depletion of stress-induced ribosomal intergenic spacer noncoding RNA (rIGSRNA) that constructs amyloid bodies prevents recruitment of the nuclear protein synthesis machinery, abolishes LNPS, and impairs the nuclear HSF1 response. We propose that amyloid bodies support local nuclear translation during stress and that solid-like condensates can facilitate complex biochemical reactions as their liquid counterparts can.

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Dane Marijan

Stress‐specific aggregation of proteins in the amyloid bodies

Evolutionary conservation of systemic and reversible amyloid aggregation

Local translation in nuclear condensate amyloid bodies

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