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A human gut-BBB-brain microphysiological model for studying neurodegenerative diseases

Deng, Y.; Wang, W.-P.; Wang, F.; Ma, G.; Lin, J.; Yan, C.; Zhou, Y.; Wang, L.; Gong, X.; Sun, L.; Zhao, J.; Pei, G.; Zhang, L.; Wang, W.

2026-02-25 neuroscience
10.64898/2026.02.24.707716 bioRxiv
Show abstract

The gut-brain axis has emerged as a crucial factor in neurodegeneration, with growing evidence linking gut dysbiosis and metabolic dysfunction to Alzheimers disease (AD) progression. Unfortunately, the lack of human-relevant in vitro models limits our ability to effectively explore the mechanism of this axis. To address this gap, we have developed a human induced pluripotent stem cell (iPSC)-derived gut-blood-brain barrier (BBB)-brain microphysiological system that enables systematic investigation of gut-brain interaction in the context of AD under controlled conditions. Our findings reveal that the interaction between gut and brain organoids can promote the maturation of brain organoids, making them more similar to their physiological characteristics in vivo. Additionally, co-culture gut and brain organoids better recapitulates the pathological features of AD. We also discovered that gut organoids of AD can trigger neurodegenerative disease manifestations in healthy brain organoids. In summary, our microphysiological system provides a novel and versatile in vitro platform for studying the interaction between the gut and brain in neurodegenerative diseases.

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