AI Article Synopsis
- Schwann cells are crucial for nerve function, but how they maintain balance is not well understood; this study highlights the role of a protein called Seh1 in their stability.
- As mice age, Seh1 levels drop, leading to immune activation and cell death when it's lost, resulting in fewer Schwann cells and nerve issues.
- Seh1 helps keep the genome stable by connecting two other proteins, and without it, harmful elements can activate cell death in Schwann cells, suggesting that changes in nucleoporins could contribute to nerve diseases.
Article Abstract
Schwann cells play critical roles in peripheral neuropathies; however, the regulatory mechanisms of their homeostasis remain largely unknown. Here, we show that nucleoporin Seh1, a component of nuclear pore complex, is important for Schwann cell homeostasis. Expression of Seh1 decreases as mice age. Loss of Seh1 leads to activated immune responses and cell necroptosis. Mice with depletion of Seh1 in Schwann cell lineage develop progressive reduction of Schwann cells in sciatic nerves, predominantly non-myelinating Schwann cells, followed by neural fiber degeneration and malfunction of the sensory and motor system. Mechanistically, Seh1 safeguards genome stability by mediating the interaction between SETDB1 and KAP1. The disrupted interaction after ablation of Seh1 derepresses endogenous retroviruses, which triggers ZBP1-dependent necroptosis in Schwann cells. Collectively, our results demonstrate that Seh1 is required for Schwann cell homeostasis by maintaining genome integrity and suggest that decrease of nucleoporins may participate in the pathogenesis of periphery neuropathies.
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| http://dx.doi.org/10.1016/j.celrep.2023.112802 | DOI Listing |
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