<p>Astrogliosis is increasingly recognized as a critical component of Alzheimer’s disease (AD) pathology, but its precise mechanistic contribution to the interplay among amyloid-β (Aβ), tau, and neurodegeneration remains unclear. Glial fibrillary acidic protein (GFAP), a widely used biomarker of astrocytic activation, shows strong associations with both Aβ and tau pathologies; however, its causal and modulatory involvement in disease progression has yet to be fully delineated. In this study, we investigated whether plasma GFAP functions as a mediator and/or moderator of the relationships linking Aβ deposition, tau accumulation, and neurodegenerative changes in AD. Ninety-two older adults from the KBASE cohort underwent multimodal imaging including Aβ-PET, tau-PET, FDG-PET, and MRI-based hippocampal volumetry, along with blood sampling for plasma GFAP assessment. Elevated plasma GFAP levels were associated with increased Aβ and tau burden, reduced cerebral glucose metabolism, and smaller hippocampal volume, as well as poorer cognitive performance. Mediation analyses demonstrated that GFAP significantly explained the relationships between Aβ and tau, and between tau and metabolic dysfunction. Moderation analyses further revealed that GFAP strengthened the Aβ-tau association, while mitigating tau-related metabolic decline. Overall, these results support a dual role of GFAP as both a conduit and regulator of disease progression</p>

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Plasma GFAP as a mediator and moderator of Aβ, tau, and neurodegeneration in Alzheimer’s disease

  • Jun Sung Kim,
  • Dahyun Yi,
  • Min Soo Byun,
  • Hyejin Ahn,
  • Gijung Jung,
  • Hyeji Choi,
  • Jun-Young Lee,
  • Koung Mi Kang,
  • Chul-Ho Sohn,
  • Yun-Sang Lee,
  • Yu Kyeong Kim,
  • Bo Kyung Sohn,
  • Dong Young Lee,
  • Seokyung Hahn,
  • Woo Jin Kim,
  • Jun Ho Lee,
  • Sung Wook Park,
  • Haejung Joung,
  • Han Na Lee,
  • Kiyoung Sung,
  • Dong Kyun Han,
  • Seung Min Han,
  • Min Jung Kim,
  • Seo Hee Park,
  • Mimi Kim,
  • Woojin Cha,
  • Hyeryeon Yeom,
  • Min Jeong Kim,
  • Donghee Kim,
  • Kyungtae Kim,
  • Jeongmin Choi,
  • Han Sol Bae,
  • Dohyun Woo,
  • Seunghyuk Ha,
  • Eun Suk Song,
  • Yoon Hee Kim,
  • Sangyong Park,
  • In Ah Hwang,
  • Yeji Lee,
  • Yura Choi,
  • Chung hee Gwag,
  • Yoonseok Oh,
  • Jong Inn Woo,
  • Jee-Eun Park,
  • Hyo Jung Choi,
  • Hyejin Ahn,
  • Jee Wook Kim,
  • Young Min Choe,
  • Musung Keum,
  • Gi Jeong Cheon,
  • Dong Woo Lee,
  • Yoon Young Chang,
  • Inhee Mook-Jung,
  • Murim Choi,
  • Yu Jin Lee,
  • Hyun Jung Kim,
  • Mun Young Chang,
  • Seung Hoon Lee,
  • Joon Hyung Jung,
  • Nayeong Kong,
  • Min Jae Kim,
  • Gihwan Byeon,
  • Kang Ko,
  • So Yeon Jeon,
  • Kwangsoo Kim,
  • Jisoo Pae,
  • Hansoo Park,
  • Jong-Min Lee,
  • Seok Woo Moon,
  • Hyewon Baek,
  • Yoon-Keun Kim,
  • Jong-Won Kim,
  • Seung-Ho Ryu,
  • Shin Gyeom Kim,
  • Sang Eun Kim,
  • Hyeong Gon Yu

摘要

Astrogliosis is increasingly recognized as a critical component of Alzheimer’s disease (AD) pathology, but its precise mechanistic contribution to the interplay among amyloid-β (Aβ), tau, and neurodegeneration remains unclear. Glial fibrillary acidic protein (GFAP), a widely used biomarker of astrocytic activation, shows strong associations with both Aβ and tau pathologies; however, its causal and modulatory involvement in disease progression has yet to be fully delineated. In this study, we investigated whether plasma GFAP functions as a mediator and/or moderator of the relationships linking Aβ deposition, tau accumulation, and neurodegenerative changes in AD. Ninety-two older adults from the KBASE cohort underwent multimodal imaging including Aβ-PET, tau-PET, FDG-PET, and MRI-based hippocampal volumetry, along with blood sampling for plasma GFAP assessment. Elevated plasma GFAP levels were associated with increased Aβ and tau burden, reduced cerebral glucose metabolism, and smaller hippocampal volume, as well as poorer cognitive performance. Mediation analyses demonstrated that GFAP significantly explained the relationships between Aβ and tau, and between tau and metabolic dysfunction. Moderation analyses further revealed that GFAP strengthened the Aβ-tau association, while mitigating tau-related metabolic decline. Overall, these results support a dual role of GFAP as both a conduit and regulator of disease progression