Schwann cell-derived exosomes ameliorate peripheral neuropathy induced by ablation of dicer in Schwann cells

Authors

Lei Wang, Henry Ford HealthFollow
Xuerong Lu, Henry Ford HealthFollow
Alexandra Szalad, Henry Ford HealthFollow
Xian Shuang Liu, Henry Ford HealthFollow
Yi Zhang, Henry Ford HealthFollow
Xinli Wang, Henry Ford HealthFollow
William A. Golembieski, Henry Ford HealthFollow
Brianna Powell, Henry Ford HealthFollow
Mikkala Mccann, Henry Ford HealthFollow
Mei Lu, Henry Ford HealthFollow
Michael Chopp, Henry Ford HealthFollow
Zhenggang Zhang, Henry Ford HealthFollow

Recommended Citation

Wang L, Lu X, Szalad A, Liu XS, Zhang Y, Wang X, Golembieski WA, Powell B, McCann M, Lu M, Chopp M, and Zhang ZG. Schwann cell-derived exosomes ameliorate peripheral neuropathy induced by ablation of dicer in Schwann cells. Front Cell Neurosci 2024; 18:1462228.

Document Type

Article

Publication Date

1-1-2024

Publication Title

Front Cell Neurosci

Abstract

BACKGROUND: MicroRNAs (miRNAs) in Schwann cells (SCs) mediate peripheral nerve function. Ablating Dicer, a key gene in miRNA biogenesis, in SCs causes peripheral neuropathy. Exosomes from healthy SCs (SC-Exo) ameliorate diabetic peripheral neuropathy in part via miRNAs. Thus, using transgenic mice with conditional and inducible ablation of Dicer in proteolipid protein (PLP) expressing SCs (PLP-cKO), we examined whether SC-Exo could reduce peripheral neuropathy in PLP-cKO mice.

METHODS: PLP-cKO mice at the age of 16 weeks (8 week post-Tamoxifen) were randomly treated with SC-Exo or saline weekly for 8 weeks. Age-and sex-matched wild-type (WT) littermates were used as controls. Peripheral neurological functions, sciatic nerve integrity, and myelination were analyzed. Quantitative RT-PCR and Western blot analyses were performed to examine miRNA and protein expression in sciatic nerve tissues, respectively.

RESULTS: Compared to the WT mice, PLP-cKO mice exhibited a significant decrease in motor and sensory conduction velocities, thermal sensitivity, and motor coordination. PLP-cKO mice exhibited substantial demyelination and axonal damage of the sciatic nerve. Treatment of PLP-cKO mice with SC-Exo significantly ameliorated the peripheral neuropathy and sciatic nerve damage. PLP-cKO mice showed a substantial reduction in a set of Dicer-related miRNAs known to regulate myelination, axonal integrity, and inflammation such as miR-138, -146a and - 338 in the sciatic nerve. In addition, PLP-cKO mice exhibited significant reduction of myelin forming proteins, early growth response 2 (EGR2) and sex determining region Y-box10 (Sox10), but significantly increased myelination inhibitors, Notch1, c-Jun, and Sox2 and the axonal growth inhibitor phosphatase and tens in homolog (PTEN). However, SC-Exo treatment reversed the PLP-cKO altered miRNAs and proteins.

CONCLUSION: This study demonstrates that exogenous SC-Exo ameliorate peripheral neuropathy induced by Dicer ablation in PLP expressing SCs. The therapeutic benefit may be mediated by the SC-Exo altered miRNAs and their targeted genes.

PubMed ID

39285940

Volume

18

First Page

1462228

Last Page

1462228