Double stranded DNA breaks and genome editing trigger loss of ribosomal protein RPS27A

Riepe, Celeste; Zelin, Elena; Frankino, Phillip A.; Meacham, Zuriah A.; Fernandez, Samantha G.; Ingolia, Nicholas T.; Corn, Jacob E.

doi:10.1111/febs.16321

Cited by 18 publications

(20 citation statements)

References 41 publications

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“…Ribosomal proteins are important for the assembly of ribosomal subunits and also function as RNA chaperones (X. Xu, Xiong, and Sun 2016). The specific down regulation of ribosomal genes observed here suggests that there a may be a global inhibition of protein translation in response to DNA damage as has been reported following a CRISPR-Cas9 induced DSB in mammalian cells (Riepe et al 2021).…”

Section: Resultssupporting

confidence: 70%

“…While the purpose of this study was to determine the specific phosphorylation events that govern the DDR in T. brucei, analysis of the proteome revealed that ribosomal proteins are down regulated following a DNA break. A similar phenomenon is seen in human cells where phosphorylation of eIF2a halts translation following a DSBs via ribosome remodelling (Riepe et al 2021), whilst mouse embryonic fibroblasts exposed to global DNA damage results in transcriptional silencing in the nucleolus (Kruhlak et al 2007).…”

Section: Discussionmentioning

confidence: 66%

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Single locus phosphoproteomics reveals phosphorylation of RPA-1 is required for generation of single-strand DNA following a break at a subtelomeric locus

McLaughlin

Dujeancourt-Henry

Chaze

et al. 2022

Preprint

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Damage to the genetic material of the cell poses a universal threat to all forms of life. Central to the DNA damage response (DDR) is a phosphorylation signalling cascade that leads to the co-ordination of the cellular response to a DNA break. Identifying the proteins that are phosphorylated is crucial to understanding the mechanisms underlying this DDR. We have used SILAC-based quantitative phosphoproteomics to profile changes in phosphorylation site abundance following a single double strand break (DSB) at a chromosome internal locus and the subtelomeric bloodstream form expression site in Trypanosoma brucei. We report >6500 phosphorylation sites, including a core set of 211 DSB responsive phosphorylation sites. Along with phosphorylation of canonical DNA damage factors, we find that there is a striking distinction between the proteins phosphorylated in response to a chromosome internal DSB and one at the active BES and describe a single phosphorylation event on Replication factor A (RPA) 1 that is required for efficient resection at a bloodstream form expression site.

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Section: Resultssupporting

confidence: 70%

Section: Discussionmentioning

confidence: 66%

Single locus phosphoproteomics reveals phosphorylation of RPA-1 is required for generation of single-strand DNA following a break at a subtelomeric locus

McLaughlin

Dujeancourt-Henry

Chaze

et al. 2022

Preprint

View full text Add to dashboard Cite

show abstract

“…The exact reason is not clear and beyond the scope of this study but may be related to the cellular response following induction of dsDNA breaks. 42 Then we investigated whether the Cas9 dosage titration can improve the GFP transfection efficiency while maintaining a relatively robust TCR KO efficiency (Figure S6D). Our result showed that a reduction of Cas9 to 35 and 17.5 pmol during a single nucleofection enhanced the total GFP+ population to $60% (Figure S6D The second strategy was based on sequential delivery of CRISPR-Cas9 RNP and pmaxGFP (24 h later) to generate GFP+TCR/CD3 neg T cells (Figure S5A, middle).…”

Section: Non-viral Transfection Of a Transgene Of Interest In The Tcr...mentioning

confidence: 99%

Universal allogeneic CAR T cells engineered with Sleeping Beauty transposons and CRISPR-CAS9 for cancer immunotherapy

Tipanee¹,

Samara-Kuko²,

Gevaert³

et al. 2022

Molecular Therapy

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“…If this were the case, it would not be the first occurrence of a direct link between translation and DNA repair. A recent study reports that DNA double strand breaks can trigger the proteasomal degradation of a specific ribosomal protein in eukaryotes, with a direct impact on ribosome composition (66). Translational reprogramming in response to DNA damage can thus be an advantageous property selected during evolution.…”

Section: Discussionmentioning

confidence: 99%

Aminoglycoside tolerance inVibrio choleraeengages translational reprogramming associated to queuosine tRNA modification

Fruchard

Babosan

Carvalho

et al. 2022

Preprint

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Tgt is the enzyme modifying the guanine (G) in tRNAs with GUN anti-codon to queuosine (Q). tgt is required for optimal growth of Vibrio cholerae in the presence of sub-lethal aminoglycoside concentrations. We further explored here the role of the Q in the efficiency of codon decoding upon tobramycin exposure. We characterized its impact on the overall bacterial proteome, and elucidated the molecular mechanisms underlying the effects of Q modification in antibiotic translational stress response. Using molecular reporters, we showed that Q impacts the efficiency of decoding at tyrosine TAT and TAC codons. Proteomics analyses revealed that the anti-SoxR factor RsxA is better translated in the absence of tgt. RsxA displays a codon bias towards tyrosine TAT and its overabundance leads to decreased expression of genes belonging to SoxR oxidative stress regulon. We also identified conditions that regulate tgt expression. We propose that regulation of Q modification in response to environmental cues leads to translational reprogramming of genes bearing a biased tyrosine codon usage. In silico analysis further identified candidate genes possibly subject to such translational regulation, among which DNA repair factors. Such transcripts, fitting the definition of modification tunable transcripts, are plausibly central in the bacterial response to antibiotics.

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Double stranded DNA breaks and genome editing trigger loss of ribosomal protein RPS27A

Cited by 18 publications

References 41 publications

Single locus phosphoproteomics reveals phosphorylation of RPA-1 is required for generation of single-strand DNA following a break at a subtelomeric locus

Single locus phosphoproteomics reveals phosphorylation of RPA-1 is required for generation of single-strand DNA following a break at a subtelomeric locus

Universal allogeneic CAR T cells engineered with Sleeping Beauty transposons and CRISPR-CAS9 for cancer immunotherapy

Aminoglycoside tolerance inVibrio choleraeengages translational reprogramming associated to queuosine tRNA modification

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