长双歧杆菌
益生元
微生物群
双歧杆菌
肠道微生物群
生物
肠道菌群
生理学
摄食行为
肽聚糖
短双歧杆菌
肠-脑轴
医学
心理干预
免疫学
益生菌
免疫
成年男性
脂多糖
年轻人
失调
内科学
作者
C. Cuesta-Marti,Eduardo Ponce España,Friederike Uhlig,Iris Stoltenborg,Luiza Adela Wasiewska,Lamiah Kareem,Dara Hedayatpour,Loreto Olavarría-Ramírez,Cristina Rosell-Cardona,Thomaz F. S. Bastiaanssen,G. Tofani,Benjamín Valderrama,Klára Vlčková,Suzanne L. Dickson,Aonghus Lavelle,Catherine Stanton,R. Paul Ross,John F. Cryan,Timothy G. Dinan,Gerard Clarke
标识
DOI:10.1038/s41467-026-68968-2
摘要
Abstract An unhealthy diet disrupts feeding behavior and the gut microbiota, but whether early-life dietary effects persist, or can be restored later in life, remains unclear. We investigated whether microbiota-targeted interventions (FOS + GOS or Bifidobacterium longum APC1472) could restore early-life high-fat/high-sugar (HFHS) diet-induced feeding alterations in adult female and male mice. HFHS exposure exclusively in early-life induced persistent, sex-specific feeding alterations in adult mice, despite normalized body weight. Early-life HFHS diet reduced hypothalamic cells expressing feeding-related markers (POMC, GHSR, PNOC, NOD2) in adult mice. Females were more vulnerable, with reduced LEPR + cells and disrupted arginine/tryptophan metabolism, while males showed impaired peptidoglycan sensing and steroid metabolism. We show that microbiota interventions restore these effects via distinct mechanisms. FOS + GOS induced extensive microbiome compositional shifts and sex-specific restoration of gut-brain pathways, while B. longum APC1472 induced greater behavioral restoration with minimal microbiome compositional changes. These findings highlight sex-specific vulnerabilities and mechanism-dependent therapeutic potential of microbiota-based interventions after exposure to early-life unhealthy diets.
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