Translational plasticity facilitates the accumulation of nonsense genetic variants in the human population

Jagannathan, Sujatha; Bradley, Robert K.

doi:10.1101/038687

Cited by 11 publications

(20 citation statements)

References 43 publications

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“…As well as novel instances of NMD-escape, it is also possible a subset of these middle exon mutations are in fact undergoing partial (or full) NMD degradation, but remain at sufficiently high transcript abundance to be detected. Translational plasticity has also been described as additional feature impacting NMD efficiency, with a diverse range of mechanisms such as stop codon read through, alternative translation initiation and alternative splicing, being reported as driving NMD escape in the germline setting (29). Furthermore, the highly dysregulated nature of cancer cell transcriptomes may further explain the partial "leakiness" in NMD patterns we observe in this study.…”

Section: Discussionmentioning

confidence: 57%

Escape from nonsense mediated decay associates with anti-tumor immunogenicity

Litchfield

Reading

Lim

et al. 2019

Preprint

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Frameshift insertion/deletions (fs-indels) are an infrequent but potentially highly immunogenic mutation subtype. Although fs-indel transcripts are susceptible to degradation through the non-sense mediated decay (NMD) pathway, we hypothesise that some fs-indels escape degradation and lead to an increased abundance of tumor specific neoantigens, that are highly distinct from self. We analysed matched DNA and RNA sequencing data from TCGA, and five separate melanoma cohorts treated with immunotherapy. Using allele-specific expression analysis we show that expressed fs-indels were enriched in genomic positions predicted to escape NMD, and associated with higher protein expression, consistent with degradation escape ("NMD-escape").Across four independent cohorts, fs-indel NMD-escape mutations were found to be significantly associated with clinical benefit to checkpoint inhibitor (CPI) therapy (Pmeta=0.0039), a stronger association than either nsSNV (Pmeta=0.073) or fs-indel (Pmeta=0.064) count. NMD-escape mutations were additionally shown to have independent predictive power in the "low-TMB" setting, and may serve as a biomarker to rescue patients judged ineligible for CPI based on overall TMB, but still with a high chance of response (low-TMB cohort: NMD-escapepositive % clinical benefit=53%, NMD-escape-negative % clinical benefit=16%, P=0.0098). Furthermore, in an adoptive cell therapy (ACT) treated cohort, NMD-escape mutation count was the most significant biomarker associated with clinical benefit (P=0.021). Analysis of functional T-cell reactivity screens from recent personalized vaccine and CPI studies shows direct evidence of fs-indel derived neoantigens eliciting patient antitumor immune response (n=15). We additionally observe a subset of fs-indel mutations, with highly elongated neo open reading frames, which are found to be significantly enriched for immunogenic reactivity in these patient studies (P=0.0032). Finally, consistent with the potency of NMD-escape derived neo-antigens and ongoing immune-editing, NMD-escape fs-indels appear to be under negative selective pressure in untreated TCGA cases. Given the strongly immunogenic potential, and relatively rare nature of NMD-escape fs-indels, these alterations may be attractive candidates in immunotherapy biomarker optimisation and neoantigen ACT or vaccine strategies.

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Section: Discussionmentioning

confidence: 57%

Escape from nonsense mediated decay associates with anti-tumor immunogenicity

Litchfield

Reading

Lim

et al. 2019

Preprint

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“…However, there are several examples of transcripts with start‐proximal nonsense codons that are not subject to NMD due to efficient reinitiation of translation at downstream start codons (Buisson et al, ; Hulsebos et al, ; Paulsen et al, ; Pereira et al, ; Stump et al, ; Stump et al, ; Zhang & Maquat, ), leading to the proposal of a “boundary” within each transcript where reinitiation is efficient (Pereira et al, ). In support of this model, by analyzing common nonsense variants in the human population, we observed a statistically significant enrichment of downstream in‐frame methionine within 50 codons of the nonsense variants (Jagannathan & Bradley, ). Specifically, we found that 57% of rare and 85% of common nonsense variants contained a downstream in‐frame methionine within 50 codons of the variant, compared with only 52% of synonymous variants (Jagannathan & Bradley, ).…”

Section: Gene‐specific Modifiers Of Nmd Efficiencymentioning

confidence: 67%

“…Analyses of publicly available functional genomics data sets to assess the NMD efficiency of a subset of highly common nonsense mutations (i.e. , those that have not been purged by negative selection during evolution) led to the estimation that 52.7% of these common nonsense variants escape NMD (Jagannathan & Bradley, ). Reporter‐based molecular validation further showed that translation reinitiation and stop codon readthrough, among other post‐transcriptional mechanisms, contribute to NMD escape, enabling protein production from the nonsense alleles (Jagannathan & Bradley, ).…”

Section: Gene‐specific Modifiers Of Nmd Efficiencymentioning

confidence: 99%

How to get away with nonsense: Mechanisms and consequences of escape from nonsense‐mediated RNA decay

et al. 2019

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Nonsense-mediated RNA decay (NMD) is an evolutionarily conserved RNA quality control process that serves both as a mechanism to eliminate aberrant transcripts carrying premature stop codons, and to regulate expression of some normal transcripts. For a quality control process, NMD exhibits surprising variability in its efficiency across transcripts, cells, tissues, and individuals in both physiological and pathological contexts. Whether an aberrant RNA is spared or degraded, and by what mechanism, could determine the phenotypic outcome of a disease-causing mutation. Hence, understanding the variability in NMD is not only important for clinical interpretation of genetic variants but also may provide clues to identify novel therapeutic approaches to counter genetic disorders caused by nonsense mutations. Here, we discuss the current knowledge of NMD variability and the mechanisms that allow certain transcripts to escape NMD despite the presence of NMD-inducing features.This article is categorized under:RNA Turnover and Surveillance > Turnover/Surveillance

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“…The advent of sequencing studies of large human cohorts has generated a robust pipeline of PTV discovery, which has led to the identification of a number of large-effect associations to diseases or diseaserelated traits (Dewey et al 2016). However, most of the PTVs identified through such studies to date are present in the genomes of apparently healthy individuals (MacArthur et al 2012), suggesting that their phenotypic impact, if any, may not be obvious (Rivas et al 2015;Jagannathan and Bradley 2016).…”

Section: Introductionmentioning

confidence: 99%

The burden of deleterious variants in a non-human primate biomedical model

Ramensky

Jasinska

Deverasetty

et al. 2019

Preprint

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Genome sequencing studies of nonhuman primate (NHP) pedigree and population samples are discovering variants on a large and rapidly growing scale. These studies are increasing the utility of several NHP species as model systems for human disease. In particular, by identifying homozygous protein truncating variants (hPTVs) in genes hypothesized to play a role in causing human diseases, it may be possible to elucidate mechanisms for the phenotypic impact of such variants through investigations that are infeasible in humans. The Caribbean vervet (Chlorocebus aethiops sabaeus) is uniquely valuable for this purpose, as the dramatic expansion of its population following severe bottlenecks has enabled PTVs that passed through the bottleneck to attain a relatively high frequency. Using whole genome sequence (WGS) data from 719 monkeys of the Vervet Research Colony (VRC) extended pedigree, we found 2,802 protein-truncating alleles in 1,747 protein-coding genes present in homozygous state in at least one monkey. Polymorphic sites for 923 SNV hPTVs were also observed in natural Caribbean populations from which the VRC descends. The vervet genome browser (VGB) includes information on these PTVs, together with a catalog of phenotypes and biological samples available for monkeys who carry them. We describe initial explorations of the possible impact of vervet PTVs on early infant mortality.

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Translational plasticity facilitates the accumulation of nonsense genetic variants in the human population

Cited by 11 publications

References 43 publications

Escape from nonsense mediated decay associates with anti-tumor immunogenicity

Escape from nonsense mediated decay associates with anti-tumor immunogenicity

How to get away with nonsense: Mechanisms and consequences of escape from nonsense‐mediated RNA decay

The burden of deleterious variants in a non-human primate biomedical model

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