2025
The 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-characterizedHomeostasisBrainBidirectional relationship between epigenetic age and stroke, dementia, and late-life depression
Rivier C, Szejko N, Renedo D, Clocchiatti-Tuozzo S, Huo S, de Havenon A, Zhao H, Gill T, Sheth K, Falcone G. Bidirectional relationship between epigenetic age and stroke, dementia, and late-life depression. Nature Communications 2025, 16: 1261. PMID: 39893209, PMCID: PMC11787333, DOI: 10.1038/s41467-024-54721-0.Peer-Reviewed Original ResearchThis study shows a bidirectional link between accelerated epigenetic aging and brain health events like stroke, dementia, and depression, supporting new prevention strategies for aging-related conditions.The left amygdala is genetically sexually-dimorphic: multi-omics analysis of structural MRI volumes
Gui Y, Zhou G, Cui S, Li H, Lu H, Zhao H. The left amygdala is genetically sexually-dimorphic: multi-omics analysis of structural MRI volumes. Translational Psychiatry 2025, 15: 17. PMID: 39843917, PMCID: PMC11754786, DOI: 10.1038/s41398-025-03223-8.Peer-Reviewed Original ResearchConceptsLeft amygdala volumePolygenic risk scoresLeft amygdalaSex differencesBrain volumeMental disordersAmygdala volumeBrain anatomyEffect of polygenic risk scoresStudy of sex differencesExamined sex differencesPsychiatric Genomics ConsortiumMechanisms of sex differencesSex-specific genetic correlationsGenetic correlation analysisAmygdalaStructural MRI volumesSexually-dimorphicGenetic correlationsBrainDisordersRNA-seq dataGenomics ConsortiumCell-type compositionKnowledge of genetic basis
2024
Joint modeling of human cortical structure: Genetic correlation network and composite-trait genetic correlation
Shen J, Zhang Y, Zhu Z, Cheng Y, Cai B, Zhao Y, Zhao H. Joint modeling of human cortical structure: Genetic correlation network and composite-trait genetic correlation. NeuroImage 2024, 297: 120739. PMID: 39009250, PMCID: PMC11367654, DOI: 10.1016/j.neuroimage.2024.120739.Peer-Reviewed Original ResearchGenetic networksComplex traitsGenetic architecture of complex traitsArchitecture of complex traitsGenome-wide association analysisGenetic correlationsGenetic architectureGenetic variationAssociation analysisGenetic basisPhenotypic similarityGenetic effectsFunctional variationRight hemisphereBrain regionsUK BiobankCortical thicknessTraitsCortical measuresCorrelation networkSignificant pairsHeritabilitySimilarity matrixBrainBrain lobes
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