Spatial patterning of P granules by RNA-induced phase separation of the intrinsically-disordered protein MEG-3

Smith, Jarrett; Calidas, Deepika; Schmidt, Helen; Lu, Tu; Rasoloson, Dominique; Seydoux, Géraldine

doi:10.7554/elife.21337

Cited by 209 publications

(269 citation statements)

References 37 publications

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“…In pptr-1 mutants, P granules are evenly distributed throughout the embryo, and are reduced drastically in number and size 37,38 . PPTR-1 acts on MEG-3 and MEG-4, which are intrinsically-disordered serine-rich proteins that function redundantly to stabilize the condensed phase of P granules via binding of RNA and PGL-1 39,40 . In comparison to wild type animals, meg-3/4 zygotes display a ~90% loss of P granules 39 .…”

Section: Introductionmentioning

confidence: 99%

Germ Granules Functions are Memorized by Transgenerationally Inherited Small RNAs

Lev

Toker

et al. 2019

Preprint

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In C. elegans nematodes, components of liquid-like germ granules were shown to be required for transgenerational small RNA inheritance. Surprisingly, we show here that mutants with defective germ granules (pptr-1, meg-3/4, pgl-1) can nevertheless inherit potent small RNA-based silencing responses, but some of the mutants lose this ability after many generations of homozygosity. Animals mutated in pptr-1, which is required for stabilization of P granules in the early embryo, display extremely strong heritable RNAi responses, which last for tens of generations, long after the responses in wild type animals peter out. The phenotype of mutants defective in the core germ granules proteins MEG-3 and MEG-4, depends on the genotype of the ancestors: Mutants that derive from maternal lineages that had functional MEG-3 and MEG-4 proteins exhibit enhanced RNAi inheritance for multiple generations. While functional ancestral meg-3/4 alleles correct, and even potentiates the ability of mutant descendants to inherit RNAi, defects in germ granules functions can be memorized as well; Wild type descendants that derive from lineages of mutants show impaired RNAi inheritance for many (>16) generations, although their germ granules are intact. Importantly, while P granules are maternally deposited, wild type progeny derived from meg-3/4 male mutants also show reduced RNAi inheritance. Unlike germ granules, small RNAs are inherited also from the sperm.Moreover, we find that the transgenerational effects that depend on the ancestral germ granules require the argonaute protein HRDE-1, which carries heritable small RNAs in the germline. Indeed, small RNA sequencing reveals imbalanced levels of many endogenous small RNAs in germ granules mutants. Strikingly, we find that hrde-1;meg-3/4 triple mutants inherit RNAi, although hrde-1 was previously thought to be essential for heritable silencing. We propose that germ granules sort and shape the RNA pool, and that small RNA inheritance memorizes this activity for multiple generations.

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Section: Introductionmentioning

confidence: 99%

Germ Granules Functions are Memorized by Transgenerationally Inherited Small RNAs

Lev

Toker

et al. 2019

Preprint

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“…Multivalent interactions in PFK-1.1 mediate its condensation. Liquid-liquid phase separation can be induced via multivalent protein-protein and protein-RNA interactions (Alberti et al, 2019;Banani et al, 2017;Elbaum-Garfinkle et al, 2015;Langdon et al, 2018;Li et al, 2012;Nott et al, 2015;Smith et al, 2016;Wang et al, 2018;Zhang et al, 2015). PFK exists as a homotetramer capable of self-associating into higher-order structures (Webb et al, 2017).…”

Section: Discussionmentioning

confidence: 99%

“…Multivalent interactions between proteins, or proteins and RNAs, play important roles in driving condensates into liquid-like protein droplets (Banani et al, 2017). Multivalent interactions can be mediated via folded protein domains, or intrinsically disordered regions (IDRs) with multiple interacting motifs (Alberti et al, 2019;Elbaum-Garfinkle et al, 2015;Langdon et al, 2018;Li et al, 2012;Nott et al, 2015;Smith et al, 2016;Wang et al, 2018;Zhang et al, 2015). These interactions leading to phase separation can be recapitulated in vivo and in vitro by engineering self-association domains (Bracha et al, 2018;Li et al, 2012;, underscoring the importance (and sufficiency) of multivalent interactions in the formation of condensates.…”

Section: Multivalent Interactions Underlie Pfk-11 Condensate Formationmentioning

confidence: 99%

The Glycolytic Protein Phosphofructokinase Dynamically Relocalizes into Subcellular Compartments with Liquid-like Properties in vivo

Jang

Zhao

Lagoy

et al. 2019

Preprint

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While much is known about the biochemical regulation of glycolytic enzymes, less is understood about how they are organized inside cells. Here we built a hybrid microfluidic-hydrogel device for use in Caenorhabditis elegans to systematically examine and quantify the dynamic subcellular localization of the rate-limiting enzyme of glycolysis, phosphofructokinase-1/PFK-1.1. We determine that endogenous PFK-1.1 localizes to distinct, tissue-specific subcellular compartments in vivo. In neurons, PFK-1.1 is diffusely localized in the cytosol, but capable of dynamically forming phase-separated condensates near synapses in response to energy stress from transient hypoxia. Restoring animals to normoxic conditions results in the dispersion of PFK-1.1 in the cytosol, indicating that PFK-1.1 reversibly organizes into biomolecular condensates in response to cues within the cellular environment. PFK-1.1 condensates exhibit liquid-like properties, including spheroid shapes due to surface tension, fluidity due to deformations, and fast internal molecular rearrangements. Prolonged conditions of energy stress during sustained hypoxia alter the biophysical properties of PFK-1.1 in vivo, affecting its viscosity and mobility within phase-separated condensates. PFK-1.1's ability to form tetramers is critical for its capacity to form condensates in vivo, and heterologous self-association domain such as cryptochrome 2 (CRY2) is sufficient to constitutively induce the formation of PFK-1.1 condensates. PFK-1.1 condensates do not correspond to stress granules and might represent novel metabolic subcompartments. Our studies indicate that glycolytic protein PFK-1.1 can dynamically compartmentalize in vivo to specific subcellular compartments in response to acute energy stress via multivalency as phase-separated condensates.

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“…This process is repeated during further cell divisions, such that the P granules continue to segregate into those cells that will eventually give rise to the germ cells. Now, in eLife, Geraldine Seydoux and colleagues at the Johns Hopkins University School of Medicine – including Jarrett Smith as first author – report how two RNA-binding proteins with opposing effects control where P granules form (Smith et al, 2016). …”

mentioning

confidence: 99%

“…MEX-5 and MEG-3 bind to RNA with little specificity (Pagano et al, 2007; Smith et al, 2016), but the adaptor proteins found in germ cells might make it possible for these proteins to bind to different sets of mRNAs (Weidmann et al, 2016). This selective binding could establish a gradient of specific mRNAs that runs from the front to the back of the zygote, with critical mRNAs being captured at the end of the cell that goes on to become the germ cells (Gallo et al, 2010; Lehmann, 2016; Seydoux and Braun, 2006).…”

mentioning

confidence: 99%

All about the RNA after all

Trcek

Lehmann

2017

eLife

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Spatial patterning of P granules by RNA-induced phase separation of the intrinsically-disordered protein MEG-3

Cited by 209 publications

References 37 publications

Germ Granules Functions are Memorized by Transgenerationally Inherited Small RNAs

Germ Granules Functions are Memorized by Transgenerationally Inherited Small RNAs

The Glycolytic Protein Phosphofructokinase Dynamically Relocalizes into Subcellular Compartments with Liquid-like Properties in vivo

All about the RNA after all

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