MSC-derived exosomes deliver ZBTB4 to mediate transcriptional repression of ITIH3 in astrocytes in spinal cord injury

BMSC-secreted exosomes (BMSC-Exos) have shown potential for promoting behavioral recovery following spinal cord injury (SCI). However, its role in blocking astrocyte activation remains unclear. Thus, this study aimed to determine whether BMSC-Exos impair the function of astrocytes following SCI in m...

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Bibliographic Details
Published in:Brain research bulletin 2024-06, Vol.212, p.110954-110954, Article 110954
Main Authors: Wu, Hongzi, Wang, Qiang, Liao, Yi, Wang, Shaobo
Format: Article
Language:English
Subjects:
Astrocytes
Bone marrow mesenchymal stem cells-secreted exosomes
ITIH3
Spinal cord injury
ZBTB4
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Summary:BMSC-secreted exosomes (BMSC-Exos) have shown potential for promoting behavioral recovery following spinal cord injury (SCI). However, its role in blocking astrocyte activation remains unclear. Thus, this study aimed to determine whether BMSC-Exos impair the function of astrocytes following SCI in mice and to seek the mechanism. BMSC-Exos were collected by ultracentrifugation and identified. The SCI mice were developed by laminectomy combined with spinal cord shock, followed by BMSC-Exos or nerve growth factor (positive control) treatment. HE staining, Nissl staining, and TUNEL were conducted to analyze the pathological structural damage and neuronal damage in the mouse spinal cord. Bioinformatics was used to screen altered molecules under the BMSC-Exos treatment. Effects of BMSC-Exos and changes in ZBTB4 and ITIH3 expression on neuronal damage induced by activated astrocytes in the co-culture system were analyzed by CCK-8 and flow cytometry. Nerve growth factor and BMSC-Exos promoted motor function recovery, alleviated nerve injury, and reduced apoptosis in mice with SCI. ZBTB4 was enriched in BMSC-Exos and lowly expressed in SCI. Downregulation of ZBTB4 diminished the therapeutic effects of BMSC-Exos against SCI. ITIH3 was a downstream target of ZBTB4. Neurotoxic activation of astrocytes induced neuronal injury, which was alleviated by BMSC-Exos. However, ZBTB4 knockdown overturned the effects of BMSC-Exos in vitro and combined ITIH3 knockdown alleviated the accentuating effects of ZBTB4 knockdown on neuronal injury. BMSC-Exos protected against astrocyte-induced neuronal injury by delivering ZBTB4 to repress ITIH3, ultimately improving motor function in mice with SCI. [Display omitted] •BMSC-Exos and NGF promote postoperative motor function recovery in SCI mice.•ZBTB4 is enriched in BMSC-Exos and lowly expressed in the spinal cord of SCI mice.•BMSC-Exos delivery of ZBTB4 promotes recovery of motor function in SCI mice.•ZBTB4 represses ITIH3 transcription through DNA methylation.•ITIH3 promotes activation of astrocytes and thus induces neurotoxicity.
ISSN:0361-9230
1873-2747
DOI:10.1016/j.brainresbull.2024.110954