14 research outputs found

    Identification of a novel susceptibility locus at 13q34 and refinement of the 20p12.2 region as a multi-signal locus associated with bladder cancer risk in individuals of european ancestry

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    Candidate gene and genome-wide association studies (GWAS) have identified 15 independent genomic regions associated with bladder cancer risk. In search for additional susceptibility variants, we followed up on four promising single-nucleotide polymorphisms (SNPs) that had not achieved genome-wide significance in 6911 cases and 11 814 controls (rs6104690, rs4510656, rs5003154 and rs4907479, P < 1 7 10(-6)), using additional data from existing GWAS datasets and targeted genotyping for studies that did not have GWAS data. In a combined analysis, which included data on up to 15 058 cases and 286 270 controls, two SNPs achieved genome-wide statistical significance: rs6104690 in a gene desert at 20p12.2 (P = 2.19 7 10(-11)) and rs4907479 within the MCF2L gene at 13q34 (P = 3.3 7 10(-10)). Imputation and fine-mapping analyses were performed in these two regions for a subset of 5551 bladder cancer cases and 10 242 controls. Analyses at the 13q34 region suggest a single signal marked by rs4907479. In contrast, we detected two signals in the 20p12.2 region-the first signal is marked by rs6104690, and the second signal is marked by two moderately correlated SNPs (r(2) = 0.53), rs6108803 and the previously reported rs62185668. The second 20p12.2 signal is more strongly associated with the risk of muscle-invasive (T2-T4 stage) compared with non-muscle-invasive (Ta, T1 stage) bladder cancer (case-case P 64 0.02 for both rs62185668 and rs6108803). Functional analyses are needed to explore the biological mechanisms underlying these novel genetic associations with risk for bladder cancer

    Identification of a novel susceptibility locus at 13q34 and refinement of the 20p12.2 region as a multi-signal locus associated with bladder cancer risk in individuals of european ancestry

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    Feasibility and Product Maturity of Compost Developed from Poultry Waste in Temperate Agroclimate of Kashmir Region

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    Present work was carried out in the Department of LPM, FVSc and AH (SKUAST- Kashmir) to assess the feasibility and compost maturity in terms of temperature and bio-mineral (Nitrogen, Phosphorus and Potassium) changes due to composting of poultry waste under the temperate agro-climatic conditions of Kashmir Valley. Poultry waste in the form of poultry carcass (including feathers) and litter manure was used for this study. Four treatment groups with four replicates each were formulated as: G1: Poultry carcass; litter manure, G2: Poultry carcass; litter manure; Paddy straw, G3: Poultry carcass; litter manure; effective microbes (Lactobacillus plantarum, Lactobacillus casei, Saccharomyces cerevisiae and Rhodopseudomonas palustris) and G4: Poultry carcass; litter manure; Paddy straw; effective microbes. During the primary stage of composting the group G4 had attained a significantly (P<0.05) highest peak temperature (0C) of 59.0±5.04 and 59.50±5.04 respectively during winter and summer seasons. Significantly (P<0.05) highest nitrogen content of 24.7 g/Kg was observed in group G4 at the end of secondary stage during summer season. The phosphorus content in end product of composting was significantly (P<0.05) highest (1.0 g/Kg) in group G4 during summer season. Similarly significantly (P<0.05) highest K content of 10.23 g/Kg was observed in group G4 during summer season. It was concluded that the addition of paddy straw and effective microbes assistant the composting process and yield better bio-mineral values and higher temperature gain

    APOBEC-mediated Mutagenesis as a Likely Cause of FGFR3 S249C Mutation Over-representation in Bladder Cancer

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    International audienceFGFR3 is one of the most frequently mutated genes in bladder cancer and a driver of an oncogenic dependency. Here we report that only the most common recurrent FGFR3 mutation, S249C (TCC→TGC), represents an APOBEC-type motif and is probably caused by the APOBEC-mediated mutagenic process, accounting for its over-representation. We observed significant enrichment of the APOBEC mutational signature and overexpression of AID/APOBEC gene family members in bladder tumors with S249C compared to tumors with other recurrent FGFR3 mutations. Analysis of replication fork directionality suggests that the coding strand of FGFR3 is predominantly replicated as a lagging strand template that could favor the formation of hairpin structures, facilitating mutagenic activity of APOBEC enzymes. In vitro APOBEC deamination assays confirmed S249 as an APOBEC target. We also found that the FGFR3 S249C mutation was common in three other cancer types with an APOBEC mutational signature, but rare in urothelial tumors without APOBEC mutagenesis and in two diseases probably related to aging. PATIENT SUMMARY: We propose that APOBEC-mediated mutagenesis can generate clinically relevant driver mutations even within suboptimal motifs, such as in the case of FGFR3 S249C, one of the most common mutations in bladder cancer. Knowledge about the etiology of this mutation will improve our understanding of the molecular mechanisms of bladder cancer

    Interferons and viruses induce a novel primate-specific isoform dACE2 and not the SARS-CoV-2 receptor ACE2

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    https://kent-islandora.s3.us-east-2.amazonaws.com/node/10691/83863-thumbnail.jpgSevere acute respiratory syndrome coronavirus 2 (SARS-CoV-2), which causes COVID-19, utilizes angiotensin-converting enzyme 2 (ACE2) for entry into target cells. ACE2 has been proposed as an interferon-stimulated gene (ISG). Thus, interferon-induced variability in ACE2 expression levels could be important for susceptibility to COVID-19 or its outcomes. Here, we report the discovery of a novel, transcriptionally independent truncated isoform of ACE2, which we designate as deltaACE2 (dACE2). We demonstrate that dACE2, but not ACE2, is an ISG. In The Cancer Genome Atlas, the expression of dACE2 was enriched in squamous tumors of the respiratory, gastrointestinal and urogenital tracts. In vitro, dACE2, which lacks 356 amino-terminal amino acids, was non-functional in binding the SARS-CoV-2 spike protein and as a carboxypeptidase. Our results suggest that the ISG-type induction of dACE2 in IFN-high conditions created by treatments, an inflammatory tumor microenvironment or viral co-infections is unlikely to increase the cellular entry of SARS-CoV-2 and promote infection. &nbsp; Preprint available here on biorxiv:&nbsp;https://doi.org/10.1101/2020.07.19.210955</p

    Modification of Occupational Exposures on Bladder Cancer Risk by Common Genetic Polymorphisms

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    Few studies have demonstrated gene/environment interactions in cancer research. Using data on high-risk occupations for 2258 case patients and 2410 control patients from two bladder cancer studies, we observed that three of 16 known or candidate bladder cancer susceptibility variants displayed statistically significant and consistent evidence of additive interactions; specifically, the GSTM1 deletion polymorphism (Pinteraction ≤ .001), rs11892031 (UGT1A, Pinteraction = .01), and rs798766 (TMEM129-TACC3-FGFR3, Pinteraction = .03). There was limited evidence for multiplicative interactions. When we examined detailed data on a prevalent occupational exposure associated with increased bladder cancer risk, straight metalworking fluids, we also observed statistically significant additive interaction for rs798766 (TMEM129-TACC3-FGFR3, Pinteraction= .02), with the interaction more apparent in patients with tumors positive for FGFR3 expression. All statistical tests were two-sided. The interaction we observed for rs798766 (TMEM129-TACC3-FGFR3) with specific exposure to straight metalworking fluids illustrates the value of integrating germline genetic variation, environmental exposures, and tumor marker data to provide insight into the mechanisms of bladder carcinogenesis

    Genetic regulation of OAS1 nonsense-mediated decay underlies association with COVID-19 hospitalization in patients of European and African ancestries

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    The chr12q24.13 locus encoding OAS1-OAS3 antiviral proteins has been associated with coronavirus disease 2019 (COVID-19) susceptibility. Here, we report genetic, functional and clinical insights into this locus in relation to COVID-19 severity. In our analysis of patients of European (n = 2,249) and African (n = 835) ancestries with hospitalized versus nonhospitalized COVID-19, the risk of hospitalized disease was associated with a common OAS1 haplotype, which was also associated with reduced severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) clearance in a clinical trial with pegIFN-lambda 1. Bioinformatic analyses and in vitro studies reveal the functional contribution of two associated OAS1 exonic variants comprising the risk haplotype. Derived human-specific alleles rs10774671-A and rs1131454-A decrease OAS1 protein abundance through allele-specific regulation of splicing and nonsense-mediated decay (NMD). We conclude that decreased OAS1 expression due to a common haplotype contributes to COVID-19 severity. Our results provide insight into molecular mechanisms through which early treatment with interferons could accelerate SARS-CoV-2 clearance and mitigate against severe COVID-19.N
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