Robust pleiotropy-decomposed polygenic scores identify distinct contributions to elevated coronary artery disease polygenic risk
Hu J, Ye Y, Zhang C, Ruan Y, Natarajan P, Zhao H. Robust pleiotropy-decomposed polygenic scores identify distinct contributions to elevated coronary artery disease polygenic risk. PLOS Computational Biology 2025, 21: e1013191. PMID: 40570042, PMCID: PMC12212871, DOI: 10.1371/journal.pcbi.1013191.Peer-Reviewed Original ResearchConceptsPolygenic risk scoresCAD-PRSUK BiobankCoronary artery disease polygenic risk scoreSummary-level dataCAD-related traitsSamples of European ancestryCoronary artery diseaseHigh-risk individualsPotential genetic heterogeneityCurrent smokingPolygenic scoresPolygenic riskTargeted interventionsEuropean ancestryRisk scorePleiotropic regionsRisk predictionGenetic heterogeneityBiological functionsPleiotropySignificant interactionPhenotypic heterogeneityBlood pressureDisease interpretationThe subfornical organ is a nucleus for gut-derived T cells that regulate behaviour
Yoshida T, Nguyen M, Zhang L, Lu B, Zhu B, Murray K, Mineur Y, Zhang C, Xu D, Lin E, Luchsinger J, Bhatta S, Waizman D, Coden M, Ma Y, Israni-Winger K, Russo A, Wang H, Song W, Al Souz J, Zhao H, Craft J, Picciotto M, Grutzendler J, Distasio M, Palm N, Hafler D, Wang A. The subfornical organ is a nucleus for gut-derived T cells that regulate behaviour. Nature 2025, 643: 499-508. PMID: 40437096, DOI: 10.1038/s41586-025-09050-7.Peer-Reviewed Original ResearchMeningeal T cellsCentral nervous systemT cellsSubfornical organCD4 T cellsInnate immune compartmentGut-brain axisSteady-state brainGut microbiotaSpecialized immune cellsCentral nervous system homeostasisAdaptive immune systemBiological functionsImmune compartmentGut-derived T cellsImmune cellsWhite adiposeImmune systemNervous systemAdipose tissueComposition of adipose tissueGastrointestinal tissuesWell-characterizedHomeostasisBrain
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