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. 2024 Nov;21(11):2135-2146.
doi: 10.1038/s41592-024-02455-8. Epub 2024 Oct 22.

Differentiating visceral sensory ganglion organoids from induced pluripotent stem cells

Kyusik Ahn #  1   2 Hwee-Seon Park #  1   3 Sieun Choi #  4 Hojeong Lee  1   5 Hyunjung Choi  1   2   3 Seok Beom Hong  1   2 Jihui Han  1   2 Jong Won Han  1   2 Jinchul Ahn  6 Jaehoon Song  1   2 Kyunghyuk Park  3 Bukyung Cha  3 Minseop Kim  4 Hui-Wen Liu  6 Hyeonggyu Song  4 Sang Jeong Kim  1   5   7 Seok Chung  8   9   10 Jong-Il Kim  11   12 Inhee Mook-Jung  13   14   15
Affiliations

Differentiating visceral sensory ganglion organoids from induced pluripotent stem cells

Kyusik Ahn et al. Nat Methods. 2024 Nov.

Abstract

The ability to generate visceral sensory neurons (VSN) from induced pluripotent stem (iPS) cells may help to gain insights into how the gut-nerve-brain axis is involved in neurological disorders. We established a protocol to differentiate human iPS-cell-derived visceral sensory ganglion organoids (VSGOs). VSGOs exhibit canonical VSN markers, and single-cell RNA sequencing revealed heterogenous molecular signatures and developmental trajectories of VSGOs aligned with native VSN. We integrated VSGOs with human colon organoids on a microfluidic device and applied this axis-on-a-chip model to Alzheimer's disease. Our results suggest that VSN could be a potential mediator for propagating gut-derived amyloid and tau to the brain in an APOE4- and LRP1-dependent manner. Furthermore, our approach was extended to include patient-derived iPS cells, which demonstrated a strong correlation with clinical data.

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