Mistranslation occurs when an amino acid not specified by the standard genetic code is incorporated during translation. Since the ribosome does not read the amino acid, tRNA variants aminoacylated with a non-cognate amino acid or containing a non-cognate anticodon dramatically increase the frequency of mistranslation. In a systematic genetic analysis, we identified a suppression interaction between tRNASerUGG, G26A, which mistranslates proline codons by inserting serine, and eco1-1, a temperature sensitive allele of the gene encoding an acetyltransferase required for sister chromatid cohesion. The suppression was partial with a tRNA that inserts alanine at proline codons and not apparent for a tRNA that inserts serine at arginine codons. Sequencing of the eco1-1 allele revealed a mutation that would convert the highly conserved serine 213 within β7 of the GCN5-related N-acetyltransferase core to proline. Mutation of P213 in eco1-1 back to the wild-type serine restored function of the enzyme at elevated temperature. Our results indicate the utility of mistranslating tRNA variants to identify functionally relevant mutations and identify eco1 as a reporter for mistranslation. We propose that mistranslation could be used as a tool to treat genetic disease.
Mistranslation occurs when an amino acid not specified by the standard genetic code is incorporated during translation. Since the ribosome does not read the amino acid, tRNA variants aminoacylated with a non-cognate amino acid or containing a non-cognate anticodon dramatically increase the frequency of mistranslation. In a systematic genetic analysis, we identified a suppression interaction between tRNA Ser UGG, G26A, which mistranslates proline codons by inserting serine, and eco1-1, a temperature sensitive allele of the gene encoding an acetyltransferase required for sister chromatid cohesion. The suppression was partial with a tRNA that inserts alanine at proline codons and not apparent for a tRNA that inserts serine at arginine codons. Sequencing of the eco1-1 allele revealed a mutation that would convert the highly conserved serine 213 within β7 of the GCN5-related N-acetyltransferase core to proline. Mutation of P213 in eco1-1 back to the wild-type serine restored function of the enzyme at elevated temperature. Our results indicate the utility of mistranslating tRNA variants to identify functionally relevant mutations and identify eco1 as a reporter for mistranslation. We propose that mistranslation could be used as a tool to treat genetic disease.
Background This study aims to evaluate the impact of socioeconomic status (SES) on the risk of congenital heart disease (CHD) since previous studies have yielded inconsistent results. Methods We conducted a population-based retrospective cohort study, including all singleton live and still births in Ontario hospitals from April 1, 2012, to March 31, 2018. We used linked records from the Better Outcomes Registry & Network Information System, the Canadian Institute for Health Information databases, and the Ontario Marginalization Index (ON_Marg). ON_Marg was estimated at a dissemination area level using Canadian Census 2016 data and categorized into quintiles. Multivariable logistic regression models were performed to examine the relationships between four ON_Marg indices (material deprivation, dependency, ethnic concentration, residential instability), as proxies for maternal SES and the risk of infant CHD. We adjusted for maternal age at birth, assisted reproductive technology, obesity, pre-existing health conditions, substance use during pregnancy, mental health conditions before and during pregnancy, rural residence, and infant’s sex in the analysis. Results Among the cohort of 776,799 singletons, 9,359 infants had a diagnosis of CHD. Of those, 3,069 were severe CHD and 493 cases were single ventricle CHD. The prevalence of all infant CHD types was higher for males relative to females. Compared to mothers living in neighbourhoods with the lowest material deprivation, mothers with highest material deprivation had a 27% (adjusted OR = 1.27; 95% CI: 1.18–1.37) higher odds of having an infant diagnosed with CHD. Mothers living in neighbourhoods with the highest minority ethnic and immigrant concentration tend to have infants with 11% lower odds of CHD (adjusted OR = 0.89; 95% CI: 0.82–0.97) as compared to those living in the least ethnically diverse communities. Maternal dependency and residential stability quintiles were not significantly associated with the risk of CHD. Conclusion Higher maternal material deprivation was associated with increasing odds of infant CHD, whereas neighbourhood minority ethnic concentration was inversely associated with the odds of infant CHD. Our study further confirms that poverty is associated with CHD development. Future investigations might focus on the causal pathways between social deprivation, immigrant status, ethnicity, and the risk of infant CHD.
3308 Background: Animal models enable us to understand disease progression and provide us with reagents to test various therapeutic strategies. We have previously developed a mouse model of myelodysplasia/acute myelogenous leukemia (MDS/AML) progression using mutant NRASD12 and overexpression of human hBCL-2 (Omidvar et al Cancer Res 67:11657-67, 2007). Expanded leukemic stem cells (LSC) were identified as Lin-/Sca1+/KIT+ (LSK) populations, with increased myeloid colony growth and were transplantable. Increased hBCL-2 and RAS-GTP complex were observed in both MDS/AML diseases. The MDS-like disease had increased apoptosis, whilst the AML-like mice had liver apoptosis patterns similar to wild type. The single NRASD12 line also had increased apoptosis. In this present study using a BCL-2 homology domain 3 (BH3) mimetic ABT-737 (Abbott), we have evaluated the effects of targeting BCL-2 in our preclinical models. Methods & Results: Treatment with the inhibitor shows a reduction of LSK cells, reduced progenitor numbers in colony assays and clearance of the liver infiltrations in both MDS and AML models. Gene expression profiling of the MDS mice shows regulation of 399 genes upon treatment including 58 genes expressed by the single mutant RAS mice and not expressed in the untreated AML mice. 78 genes were shared between single NRASD12 and diseased mice and not the treated mice. These studies potentially identify the contribution of NRASD12 genes to disease progression. By confocal microscopy we observed that in the MDS mice the majority of the RAS and BCL-2 co-localized to the plasma membrane, where active pro-apoptotic RAS is normally located, whereas in the AML disease RAS and BCL-2 co-localized in the mitochondria, where BCL-2 is normally found (Omidvar et al 2007). After treatment with the inhibitor the AML co-localization of RAS and BCL-2 shifted to the plasma membrane where single NRASD12 is normally localized. Furthermore, increased RAS-GTP levels was detected in both Sca1+ and Mac1+ enriched spleen cells and interestingly an increase in BCL-2 expression was observed in peripheral blood and in spleen cells after treatment; this increase in BCL-2 was associated with a decrease in the phosphorylation of serine 70 and an increase in phosphorylation of threonine 56 of BCL-2. ABT-737 treatment led to increased phosphorylated ERK resembling RAS and reduced MEK and AKT phosphorylation, changes detected by western blots and the nanoimmunoassay (NIA, NanoPro, Cell Biosciences) that might account for the increased apoptosis, measured by TUNEL and In vivo imaging by single-photon emission computed tomography (SPECT) using Tc-99m-labelled AnnexinV (SPECT). In contrast, although treated MDS mice had increased apoptosis they did not have an increase in overall expression of BCL-2 or in RAS-GTP levels. Treatment of both MDS and AML models with this inhibitor significantly extended lifespan from diagnosis with mean survival of 28 days untreated vs 80 days treated (p=0.0003) and mean survival from birth of 39 untreated vs 85 days treated (p<0.0001) respectively Conclusions: Genomics, proteomics and imaging have been employed in the MDS/AML models to characterize disease progression and follow response to treatment to the BH3 mimetic ABT-737 in order to gain molecular insights in the evaluation of the efficacy. ABT-737 appears to target LSCs, induce apoptosis, regulating RAS and BCL-2 signalling pathways, which translated into significantly increased survival. Disclosures: Padua: Vivavacs SAS: Consultancy, Equity Ownership, Membership on an entity's Board of Directors or advisory committees. Auboeuf:GenoSplice technology: Consultancy, Equity Ownership, Membership on an entity's Board of Directors or advisory committees. de la Grange:GenoSplice technology: Employment, Equity Ownership, Membership on an entity's Board of Directors or advisory committees, Patents & Royalties. Fenaux:Celgene: Honoraria, Research Funding; Novartis: Honoraria, Research Funding; Janssen Cilag: Honoraria, Research Funding; ROCHE: Honoraria, Research Funding; AMGEN: Honoraria, Research Funding; GSK: Honoraria, Research Funding; Merck: Honoraria, Research Funding; Cephalon: Honoraria, Research Funding. Tu:Cell Biosciences Inc;: Employment. Yang:Cell Biosciences Inc;: Employment. Weissman:Amgen, Systemix, Stem cells Inc, Cellerant: Consultancy, Employment, Equity Ownership, Membership on an entity's Board of Directors or advisory committees. Felsher:Cell Bioscience:. Chomienne:Vivavacs SAS: Consultancy, Equity Ownership, Membership on an entity's Board of Directors or advisory committees.
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