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. 2023 Dec;624(7992):611-620.
doi: 10.1038/s41586-023-06783-1. Epub 2023 Oct 31.

CHIT1-positive microglia drive motor neuron ageing in the primate spinal cord

Shuhui Sun #  1   2   3   4 Jiaming Li #  5   6 Si Wang #  7   8   9   10 Jingyi Li #  1   3   4   6   9 Jie Ren #  3   5   6   9   11 Zhaoshi Bao #  12   13 Le Sun #  14 Xibo Ma #  15   16   17 Fangshuo Zheng  10 Shuai Ma  1   3   4   6   9 Liang Sun  9   18 Min Wang  2   19 Yan Yu  1   6 Miyang Ma  1   6 Qiaoran Wang  5   6 Zhiyuan Chen  15   16 He Ma  15   17 Xuebao Wang  2   6 Zeming Wu  1   3   4 Hui Zhang  1   6 Kaowen Yan  1   3   4 Yuanhan Yang  1   6 Yixin Zhang  2   6 Sheng Zhang  1   6 Jinghui Lei  7   8 Zhao-Qian Teng  2   3   4   6 Chang-Mei Liu  2   3   4   6 Ge Bai  20 Yan-Jiang Wang  9   21   22 Jian Li  9   18 Xiaoqun Wang  14   23 Guoguang Zhao  24   25   26 Tao Jiang  12   13   27 Juan Carlos Izpisua Belmonte  28 Jing Qu  29   30   31   32   33 Weiqi Zhang  34   35   36   37 Guang-Hui Liu  38   39   40   41   42   43   44
Affiliations

CHIT1-positive microglia drive motor neuron ageing in the primate spinal cord

Shuhui Sun et al. Nature. 2023 Dec.

Abstract

Ageing is a critical factor in spinal-cord-associated disorders1, yet the ageing-specific mechanisms underlying this relationship remain poorly understood. Here, to address this knowledge gap, we combined single-nucleus RNA-sequencing analysis with behavioural and neurophysiological analysis in non-human primates (NHPs). We identified motor neuron senescence and neuroinflammation with microglial hyperactivation as intertwined hallmarks of spinal cord ageing. As an underlying mechanism, we identified a neurotoxic microglial state demarcated by elevated expression of CHIT1 (a secreted mammalian chitinase) specific to the aged spinal cords in NHP and human biopsies. In the aged spinal cord, CHIT1-positive microglia preferentially localize around motor neurons, and they have the ability to trigger senescence, partly by activating SMAD signalling. We further validated the driving role of secreted CHIT1 on MN senescence using multimodal experiments both in vivo, using the NHP spinal cord as a model, and in vitro, using a sophisticated system modelling the human motor-neuron-microenvironment interplay. Moreover, we demonstrated that ascorbic acid, a geroprotective compound, counteracted the pro-senescent effect of CHIT1 and mitigated motor neuron senescence in aged monkeys. Our findings provide the single-cell resolution cellular and molecular landscape of the aged primate spinal cord and identify a new biomarker and intervention target for spinal cord degeneration.

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References

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