Publications by authors named "Arthur Gilly"
Understanding the genetic basis of neuro-related proteins is essential for dissecting the molecular basis of human behavioural traits and the disease aetiology of neuropsychiatric disorders. Here the SCALLOP Consortium conducted a genome-wide association meta-analysis of over 12,000 individuals for 184 neuro-related proteins in human plasma. The analysis identified 125 cis-regulatory protein quantitative trait loci (cis-pQTL) and 164 trans-pQTL.
View Article and Find Full Text PDFOsteoarthritis is a prevalent, complex disease of the joints, and affects multiple intra-articular tissues. Here, we have examined genome-wide DNA methylation profiles of primary infrapatellar fat pad and matched blood samples from 70 osteoarthritis patients undergoing total knee replacement surgery. Comparing the DNA methylation profiles between these tissues reveal widespread epigenetic differences.
View Article and Find Full Text PDFPerturbation of lipid homoeostasis is a major risk factor for cardiovascular disease (CVD), the leading cause of death worldwide. We aimed to identify genetic variants affecting lipid levels, and thereby risk of CVD, in Greenlanders. Genome-wide association studies (GWAS) of six blood lipids, triglycerides, LDL-cholesterol, HDL-cholesterol, total cholesterol, as well as apolipoproteins A1 and B, were performed in up to 4473 Greenlanders.
View Article and Find Full Text PDFObjectives: Global cardiometabolic disease prevalence has grown rapidly over the years, making it the leading cause of death worldwide. Proteins are crucial components in biological pathways dysregulated in disease states. Identifying genetic components that influence circulating protein levels may lead to the discovery of biomarkers for early stages of disease or offer opportunities as therapeutic targets.
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- Human plasma proteins are crucial as clinical biomarkers and potential drug targets, and studying their genetic variants can help us understand their abundance.
- The study conducted a meta-analysis across nearly 23,000 individuals to identify genetic variants associated with 92 plasma proteins linked to cardiometabolic conditions, discovering 503 significant variants.
- Notably, sex differences were observed in 23.5% of the identified variants, and further analysis suggested causal links between certain proteins and various health traits, providing insight into their roles in cardiometabolic diseases.
Genetic prediction of common complex disease risk is an essential component of precision medicine. Currently, genome-wide association studies (GWASs) are mostly composed of European-ancestry samples and resulting polygenic scores (PGSs) have been shown to poorly transfer to other ancestries partly due to heterogeneity of allelic effects between populations. Fixed-effects (FETA) and random-effects (RETA) trans-ancestry meta-analyses do not model such ancestry-related heterogeneity, while ancestry-specific (AS) scores may suffer from low power due to low sample sizes.
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- Understanding the genetic foundation of neuro-related proteins is vital for exploring human behavior and neuropsychiatric disorders.
- The SCALLOP Consortium analyzed genetic data from over 12,500 individuals, identifying numerous cis- and trans-regulatory loci affecting neuro-related proteins.
- Their findings also suggest potential causal relationships between these proteins and traits like sleep, smoking, mental health, and highlight new opportunities for drug repurposing and therapeutic targets.
Understanding the genetic basis of neuro-related proteins is essential for dissecting the disease etiology of neuropsychiatric disorders and other complex traits and diseases. Here, the SCALLOP Consortium conducted a genome-wide association meta-analysis of over 12,500 individuals for 184 neuro-reiated proteins in human plasma. The analysis identified 117 cis-regulatory protein quantitative trait loci (cis-pQTL) and 166 trans-pQTL.
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- The study focused on identifying genetic variants linked to Maturity Onset Diabetes of the Young (MODY) in the Greenlandic Inuit population, which has a unique genetic makeup.
- Researchers analyzed a large cohort of 4,497 individuals, discovering a novel variant in a MODY gene that appears to be prevalent in this group but not found elsewhere.
- This variant significantly impacts diabetes risk and related traits, explaining about 18% of diabetes cases in Greenland, highlighting the importance of understanding genetic diversity for personalized medicine.
Article Synopsis
- Cardiometabolic diseases like type 2 diabetes and cardiovascular disease significantly impact public health, and understanding the genetic control of proteins linked to these diseases may reveal their underlying biology.
- Researchers conducted a protein quantitative trait locus (pQTL) analysis on 248 serum proteins in nearly 3,000 individuals from two Greek cohorts, identifying 301 pQTL variants associated with 170 proteins, including 12 rare variants.
- They found specific proteins tied to cardiometabolic traits, such as Mep1b linked to HDL levels, and created a Mep1b knockout mouse model, highlighting the value of studying isolated populations for genetic research.
Objective: Deep sequencing offers unparalleled access to rare variants in human populations. Understanding their role in disease is a priority, yet prohibitive sequencing costs mean that many cohorts lack the sample size to discover these effects on their own. Meta-analysis of individual variant scores allows the combination of rare variants across cohorts and study of their aggregated effect at the gene level, boosting discovery power.
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- SARS-CoV-2 uses the ACE2 protein to enter human cells, making ACE2 crucial for COVID-19 infection and treatment; its levels vary significantly across different individuals but are not fully understood genetically.
- In a large study involving over 28,000 individuals, researchers found genetic factors influencing plasma ACE2 levels and discovered 10 genetic loci linked to ACE2, explaining 30% of its heritability.
- The study also indicated that higher ACE2 levels are causally associated with increased severity of COVID-19, hospitalization, and risk of infection, along with genetic links to vascular diseases and other complex health conditions.
Article Synopsis
- - The study investigates the genetic factors underlying congenital heart disease by screening nearly 3,900 mouse gene mutations for cardiac issues, finding 705 lines with conditions like arrhythmia and myocardial hypertrophy.
- - Out of these, 486 genes are newly linked to heart dysfunction, including variants of unknown relevance (VUR), with specific mutations in five genes (Casz1, Dnajc18, Pde4dip, Rnf38, Tmem161b) leading to notable structural heart defects.
- - Using data from the UK Biobank, the research further confirms the role of the DNAJC18 gene in heart function, highlighting its loss as linked to changes in cardiac performance, thus identifying new potential targets for understanding
Article Synopsis
- The study investigates how genetic variations influence blood-related traits in two isolated populations from the Mediterranean, focusing on individuals from Crete and the Pomak villages in Greece.
- Researchers performed a genome-wide association scan, identifying five rare non-coding genetic variants significantly impacting blood cell counts and distribution.
- A notable portion of the populations carries harmful mutations in the Haemoglobin Subunit Beta (HBB) gene, with distinct mutations prevalent in each group, highlighting the genetic diversity and its effects on various health-related traits.
Article Synopsis
- The study investigates the genetic factors influencing 184 proteins related to neurological disorders by analyzing data from over 2,800 individuals, aiming to better understand how these proteins are linked to diseases.
- Researchers identified 214 genetic variants associated with 107 proteins, finding that most variants are cis-acting and revealing 114 new variants not previously documented.
- The team used Mendelian randomization to establish causal links between specific proteins and neurological conditions, suggesting potential for repurposing existing drugs for Alzheimer’s, Parkinson’s, and schizophrenia.
Osteoarthritis affects over 300 million people worldwide. Here, we conduct a genome-wide association study meta-analysis across 826,690 individuals (177,517 with osteoarthritis) and identify 100 independently associated risk variants across 11 osteoarthritis phenotypes, 52 of which have not been associated with the disease before. We report thumb and spine osteoarthritis risk variants and identify differences in genetic effects between weight-bearing and non-weight-bearing joints.
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- The human proteome serves as a bridge between complex diseases and their genetic and environmental factors, providing critical targets for drug development and biomarkers.
- Researchers conducted high-depth whole-genome sequencing on 1,328 individuals to analyze 257 protein biomarkers related to cardiometabolic health, revealing 131 significant gene associations.
- They identified rare genetic variants affecting protein production and created polygenic scores that can account for up to 45% of the variation in protein levels, uncovering potential biomarkers and drug targets linked to disease risks.
The present study describes the geographically isolated Pomak population and its particular dietary patterns in relationship to cardiovascular risk factors. We collected a population-based cohort in a cross-sectional study, with detailed anthropometric, biochemical, clinical, and lifestyle parameter information. Dietary patterns were derived through principal component analysis based on a validated food-frequency questionnaire, administered to 1702 adult inhabitants of the Pomak villages on the Rhodope mountain range in Greece.
View Article and Find Full Text PDFMost genome-wide association studies are based on samples of European descent. We assess whether the genetic determinants of blood lipids, a major cardiovascular risk factor, are shared across populations. Genetic correlations for lipids between European-ancestry and Asian cohorts are not significantly different from 1.
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- Copy number variants (CNVs) are significant in human diseases, but detecting them accurately is challenging due to the computational demand of current methods.
- Using a regression tree-based method, researchers identified 1,320 CNVs from whole-genome sequencing data in 6,898 samples, with many events previously documented in the Database of Genomic Variants.
- The study revealed associations between deletions and protein levels, including a complex relationship with CCL3 protein levels and a newly identified association between a rare NOMO1 deletion and its respective protein levels, highlighting the clinical relevance of CNVs.
Transposable elements (TEs) are mobile parasitic sequences that have been repeatedly coopted during evolution to generate new functions and rewire gene regulatory networks. Yet, the contribution of active TEs to the creation of heritable mutations remains unknown. Using TE accumulation lines in Arabidopsis thaliana we show that once initiated, transposition produces an exponential spread of TE copies, which rapidly leads to high mutation rates.
View Article and Find Full Text PDFIn bone, sclerostin is mainly osteocyte-derived and plays an important local role in adaptive responses to mechanical loading. Whether circulating levels of sclerostin also play a functional role is currently unclear, which we aimed to examine by two-sample Mendelian randomization (MR). A genetic instrument for circulating sclerostin, derived from a genomewide association study (GWAS) meta-analysis of serum sclerostin in 10,584 European-descent individuals, was examined in relation to femoral neck bone mineral density (BMD; n = 32,744) in GEFOS and estimated bone mineral density (eBMD) by heel ultrasound (n = 426,824) and fracture risk (n = 426,795) in UK Biobank.
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- Very low-depth sequencing is a promising, cost-effective method for analyzing rare genetic variations in complex traits, but its genotype quality and analytical power still need thorough investigation.
- In a study involving 1,239 individuals from an isolated population, researchers established a reliable process for calling and imputing genotypes from very low-depth whole-genome sequencing, achieving high concordance with traditional high-depth methods.
- The findings revealed that 1× depth sequencing could identify a greater number of true low-frequency variants and produced more significant association signals for quantitative traits compared to conventional genotyping approaches.
Article Synopsis
- The original article had a mistake in Fig. 2, where the labels "rare" and "common" were switched.
- This error has been fixed in both the PDF and HTML formats of the article.
- Readers can now find the correct information in the updated versions.