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Single‐cell <scp>RNA</scp>‐seq uncovers novel metabolic functions of Schwann cells beyond myelination

Stéphanie Eid, Mohamed H. Noureldein, Bhumsoo Kim, Lucy M. Hinder, Faye E. Mendelson, John M. Hayes, Junguk Hur, Eva L. Feldman

2023Journal of Neurochemistry25 citationsDOIOpen Access PDF

Abstract

Schwann cells (SCs) support peripheral nerves under homeostatic conditions, independent of myelination, and contribute to damage in prediabetic peripheral neuropathy (PN). Here, we used single-cell RNA sequencing to characterize the transcriptional profiles and intercellular communication of SCs in the nerve microenvironment using the high-fat diet-fed mouse, which mimics human prediabetes and neuropathy. We identified four major SC clusters, myelinating, nonmyelinating, immature, and repair in healthy and neuropathic nerves, in addition to a distinct cluster of nerve macrophages. Myelinating SCs acquired a unique transcriptional profile, beyond myelination, in response to metabolic stress. Mapping SC intercellular communication identified a shift in communication, centered on immune response and trophic support pathways, which primarily impacted nonmyelinating SCs. Validation analyses revealed that neuropathic SCs become pro-inflammatory and insulin resistant under prediabetic conditions. Overall, our study offers a unique resource for interrogating SC function, communication, and signaling in nerve pathophysiology to help inform SC-specific therapies.

Topics & Concepts

Schwann cellBiologyCell biologyNeuroscienceNeuriteImmune systemFunction (biology)ImmunologyGeneticsIn vitroNeuroinflammation and Neurodegeneration MechanismsAdipose Tissue and MetabolismNerve injury and regeneration
Single‐cell <scp>RNA</scp>‐seq uncovers novel metabolic functions of Schwann cells beyond myelination | Litcius