Limited effects of m6A modification on mRNA partitioning into stress granules

Khong, Anthony; Matheny, Tyler; Huynh, Thao Ngoc; Babl, Vincent; Parker, Roy

doi:10.1038/s41467-022-31358-5

Cited by 41 publications

(56 citation statements)

References 35 publications

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“…The SG transcriptome is highly enriched for m6A-modified mRNAs relative to total cellular mRNA, with a strong correlation between the extent of m6A modification and partitioning to SGs. ,, However, >97% of transcripts contain four or fewer m6A sites, and these sites are modified at rates of less than 100% . More recent bioinformatic analyses suggest that mRNA length has a stronger impact on SG partitioning than the presence of m6A sites . In terms of mechanism, m6A modifications are catalyzed by a writer complex comprising METTL3, METTL14, and WTAP and are recognized by the YTH domain-containing proteins YTHDF1/2/3, which variably colocalize with SGs following stress treatments. ,,,, It should be noted that genetic depletion of writer complex components significantly reduces the accumulation of m6A-modified mRNAs in SGs, although SG formation is not impaired. , While these data are based on the detection of mRNAs in bulk, a more quantitative evaluation of 11 different mRNAs did not reveal any significant differences in SG partitioning between wild-type cells and a mettl3 knockout .…”

Section: Regulation Of Stress Granule Dynamicsmentioning

confidence: 99%

“…In terms of mechanism, m6A modifications are catalyzed by a writer complex comprising METTL3, METTL14, and WTAP and are recognized by the YTH domain-containing proteins YTHDF1/2/3, which variably colocalize with SGs following stress treatments. ,,,, It should be noted that genetic depletion of writer complex components significantly reduces the accumulation of m6A-modified mRNAs in SGs, although SG formation is not impaired. , While these data are based on the detection of mRNAs in bulk, a more quantitative evaluation of 11 different mRNAs did not reveal any significant differences in SG partitioning between wild-type cells and a mettl3 knockout . Variable observations have also been obtained from analyses of YTHDF genetic knockdowns, ranging from a significant impairment of SG localization by m6A-modified mRNAs to no detectable effect, potentially due to differences in experimental approaches. , Overall, Khong et al posit that RNA targeting to SGs results from the cumulative contribution of multiple factors and that m6A modification plays a relatively minor role. Interestingly, SG RBPs such as G3BP1/2, RBM42, CAPRIN1, and USP10 preferentially bind unmethylated sequences over m6A-modified RNAs, , suggesting distinct mechanisms for methylation-dependent and -independent transcript recruitment into SGs.…”

Section: Regulation Of Stress Granule Dynamicsmentioning

confidence: 99%

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A New Phase of Networking: The Molecular Composition and Regulatory Dynamics of Mammalian Stress Granules

et al. 2023

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Stress granules (SGs) are cytosolic biomolecular condensates that form in response to cellular stress. Weak, multivalent interactions between their protein and RNA constituents drive their rapid, dynamic assembly through phase separation coupled to percolation. Though a consensus model of SG function has yet to be determined, their perceived implication in cytoprotective processes ( e.g. , antiviral responses and inhibition of apoptosis) and possible role in the pathogenesis of various neurodegenerative diseases ( e.g. , amyotrophic lateral sclerosis and frontotemporal dementia) have drawn great interest. Consequently, new studies using numerous cell biological, genetic, and proteomic methods have been performed to unravel the mechanisms underlying SG formation, organization, and function and, with them, a more clearly defined SG proteome. Here, we provide a consensus SG proteome through literature curation and an update of the user-friendly database RNAgranuleDB to version 2.0 (). With this updated SG proteome, we use next-generation phase separation prediction tools to assess the predisposition of SG proteins for phase separation and aggregation. Next, we analyze the primary sequence features of intrinsically disordered regions (IDRs) within SG-resident proteins. Finally, we review the protein- and RNA-level determinants, including post-translational modifications (PTMs), that regulate SG composition and assembly/disassembly dynamics.

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Section: Regulation Of Stress Granule Dynamicsmentioning

confidence: 99%

Section: Regulation Of Stress Granule Dynamicsmentioning

confidence: 99%

A New Phase of Networking: The Molecular Composition and Regulatory Dynamics of Mammalian Stress Granules

et al. 2023

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“…[165,166] An argue study indicates that mRNA length, rather than m 6 A modifications, has a promotion effect on mRNA partitioning in SGs. [167] Additionally, m 6 A modifications were shown to repress RNA binding to G3BP1/2, ubiquitin-specific protease 10 (USP10), Caprin-1, and RNA-binding motif 4 (RBM4) which are linked to the formation of SGs. [168] Thus, the inconsistent observations above implicate that the role of m6A in SGs formation is still a debatable issue.…”

Section: Rna and Dna Modificationsmentioning

confidence: 99%

Emerging Implications of Phase Separation in Cancer

et al. 2022

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In eukaryotic cells, biological activities are executed in distinct cellular compartments or organelles. Canonical organelles with membrane‐bound structures are well understood. Cells also inherently contain versatile membrane‐less organelles (MLOs) that feature liquid or gel‐like bodies. A biophysical process termed liquid–liquid phase separation (LLPS) elucidates how MLOs form through dynamic biomolecule assembly. LLPS‐related molecules often have multivalency, which is essential for low‐affinity inter‐ or intra‐molecule interactions to trigger phase separation. Accumulating evidence shows that LLPS concentrates and organizes desired molecules or segregates unneeded molecules in cells. Thus, MLOs have tunable functional specificity in response to environmental stimuli and metabolic processes. Aberrant LLPS is widely associated with several hallmarks of cancer, including sustained proliferative signaling, growth suppressor evasion, cell death resistance, telomere maintenance, DNA damage repair, etc. Insights into the molecular mechanisms of LLPS provide new insights into cancer therapeutics. Here, the current understanding of the emerging concepts of LLPS and its involvement in cancer are comprehensively reviewed.

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“…These findings collectively suggest that m 6 A modification might modulate SGs targeting of RNAs. However, a recent study has found that m 6 A modifications have limited effects on mRNA recruited into SGs ( 39 ). Thus, the relationship of m 6 A modification with SGs targeting remains to be elucidated.…”

Section: Components and Functions Of Sgsmentioning

confidence: 99%

Stress granules dynamics: benefits in cancer

Lee

Namkoong

2022

BMB Rep

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Stress granules (SGs) are stress-induced subcellular compartments, which carry out a particular function to cope with stress. These granules protect cells from stress-related damage and cell death through dynamic sequestration of numerous ribonucleoproteins (RNPs) and signaling proteins, thereby promoting cell survival under both physiological and pathological condition. During tumorigenesis, cancer cells are repeatedly exposed to diverse stress stimuli from the tumor microenvironment, and the dynamics of SGs is often modulated due to the alteration of gene expression patterns in cancer cells, leading to tumor progression as well as resistance to anticancer treatment. In this mini review, we provide a brief discussion about our current understanding of the fundamental roles of SGs during physiological stress and the effect of dysregulated SGs on cancer cell fitness and cancer therapy. [

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Limited effects of m6A modification on mRNA partitioning into stress granules

Cited by 41 publications

References 35 publications

A New Phase of Networking: The Molecular Composition and Regulatory Dynamics of Mammalian Stress Granules

A New Phase of Networking: The Molecular Composition and Regulatory Dynamics of Mammalian Stress Granules

Emerging Implications of Phase Separation in Cancer

Stress granules dynamics: benefits in cancer

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