RNA is a critical element for the sizing and the composition of phase-separated RNA–protein condensates

Navarro, Marina Garcia-Jove; Kashida, Shunnichi; Chouaib, Racha; Souquère, Sylvie; Pierron, Gérard; Weil, Dominique; Gueroui, Zoher

doi:10.1038/s41467-019-11241-6

Cited by 186 publications

(140 citation statements)

References 74 publications

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“…Thus, for assemblies like SGs, which contain a high local concentration of RNA molecules, RNA‐RNA interactions and RNA structure seem to be general features of importance for their formation. Detailed information about the roles of RNA in forming SGs and other RNP granules can be found in recent reviews (Garcia‐Jove Navarro et al, 2019; Van Treeck & Parker, 2018).…”

Section: Stress Granule Formation and Regulationmentioning

confidence: 99%

The involvement of stress granules in aging and aging‐associated diseases

2020

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Stress granules (SGs) are nonmembrane assemblies formed in cells in response to stress conditions. SGs mainly contain untranslated mRNA and a variety of proteins. RNAs and scaffold proteins with intrinsically disordered regions or RNA‐binding domains are essential for the assembly of SGs, and multivalent macromolecular interactions among these components are thought to be the driving forces for SG assembly. The SG assembly process includes regulation through post‐translational modification and involvement of the cytoskeletal system. During aging, many intracellular bioprocesses become disrupted by factors such as cellular environmental changes, mitochondrial dysfunction, and decline in the protein quality control system. Such changes could lead to the formation of aberrant SGs, as well as alterations in their maintenance, disassembly, and clearance. These aberrant SGs might in turn promote aging and aging‐associated diseases. In this paper, we first review the latest progress on the molecular mechanisms underlying SG assembly and SG functioning under stress conditions. Then, we provide a detailed discussion of the relevance of SGs to aging and aging‐associated diseases.

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Section: Stress Granule Formation and Regulationmentioning

confidence: 99%

The involvement of stress granules in aging and aging‐associated diseases

2020

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“…While BMCs assemble by thermodynamic-mediated liquid-liquid phase separation, the liquid BMCs are known to transform into reversible amyloid fibers or insoluble aggregates [70]. While the details of BMC biology is still evolving, it has been shown that RNA and proteins with intrinsically disordered regions are key factors that influence the intracellular composition, size, and morphology of BMCs [71,72]. Unlike BMCs, EVs contain at least one membrane.…”

Section: Potential Role Of Extracellular Structures-biomolecular Condmentioning

confidence: 99%

Dietary Gluten and Neurodegeneration: A Case for Preclinical Studies

Mohan

Okeoma

Sestak

2020

IJMS

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Although celiac disease (CD) is an autoimmune disease that primarily involves the intestinal tract, mounting evidence suggests that a sizeable number of patients exhibit neurological deficits. About 40% of the celiac patients with neurological manifestations have circulating antibodies against neural tissue transglutaminase-6 (tTG6). While early diagnosis and strict adherence to a gluten-free diet (GFD) have been recommended to prevent neurological dysfunction, better therapeutic strategies are needed to improve the overall quality of life. Dysregulation of the microbiota-gut-brain axis, presence of anti-tTG6 antibodies, and epigenetic mechanisms have been implicated in the pathogenesis. It is also possible that circulating or gut-derived extracellular structures and including biomolecular condensates and extracellular vesicles contribute to disease pathogenesis. There are several avenues for shaping the dysregulated gut homeostasis in individuals with CD, non-celiac gluten sensitivity (NCGS) and/or neurodegeneration. In addition to GFD and probiotics, nutraceuticals, such as phyto and synthetic cannabinoids, represent a new approach that could shape the host microbiome towards better prognostic outcomes. Finally, we provide a data-driven rationale for potential future pre-clinical research involving non-human primates (NHPs) to investigate the effect of nutraceuticals, such as phyto and synthetic cannabinoids, either alone or in combination with GFD to prevent/mitigate dietary gluten-induced neurodegeneration.

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“…Our understanding of the biophysical and biochemical principles that govern granule diversity, assembly and disassembly has recently benefited from new conceptual frameworks. LLPS has emerged as an attractive model to explain the observed properties of membrane-less organelles, including RNP granules [11,48,[80][81][82][83]. The earliest example of maternal RNP structures shown to exhibit liquid-like behaviour were induced 'bodies' found in the Drosophila oocyte nucleus.…”

Section: Examples Of Phase Separation During Early Drosophila Developmentioning

confidence: 99%

“…RNA storage and translational control is likely a major function of RNP granules in oogenesis as they form in response to high levels of untranslated mRNAs and disperse at a time when many mRNAs are translated. While proteins are typically considered to be the key scaffolds for granule assembly, more recently RNA has also been shown to both phase separate and drive the assembly of RNP condensates [80,83,107,108].…”

Section: The Role Of Rnamentioning

confidence: 99%

“…These observations suggest a model whereby 'sticky' mRNAs promote granule nucleation by concentrating key scaffold proteins through sequence specific binding and subsequently regulate stability and material property. Testing this model in vivo requires developing techniques to selectively disrupt mRNAs while observing the effect on the RNP granules [80]. Complementarily, in vitro transcribed RNAs could be used in combination with specific scaffold proteins to reconstitute RNP granules.…”

Section: The Role Of Rnamentioning

confidence: 99%

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Granule regulation by phase separation during Drosophila oogenesis

Sankaranarayanan

Weil

2020

Emerging Topics in Life Sciences

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Drosophila eggs are highly polarised cells that use RNA–protein complexes to regulate storage and translational control of maternal RNAs. Ribonucleoprotein granules are a class of biological condensates that form predominantly by intracellular phase separation. Despite extensive in vitro studies testing the physical principles regulating condensates, how phase separation translates to biological function remains largely unanswered. In this perspective, we discuss granules in Drosophila oogenesis as a model system for investigating the physiological role of phase separation. We review key maternal granules and their properties while highlighting ribonucleoprotein phase separation behaviours observed during development. Finally, we discuss how concepts and models from liquid–liquid phase separation could be used to test mechanisms underlying granule assembly, regulation and function in Drosophila oogenesis.

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RNA is a critical element for the sizing and the composition of phase-separated RNA–protein condensates

Cited by 186 publications

References 74 publications

The involvement of stress granules in aging and aging‐associated diseases

The involvement of stress granules in aging and aging‐associated diseases

Dietary Gluten and Neurodegeneration: A Case for Preclinical Studies

Granule regulation by phase separation during Drosophila oogenesis

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