Transcriptome of the human C2 dorsal root ganglia in C1-2 arthrodesis surgery: insight for neck pain

背根神经节 关节融合术 转录组 医学 腰椎 体感系统 感觉系统 三叉神经节 生物信息学 表型 解剖 神经科学 神经节 三叉神经 生物 根切断术 神经解剖学 神经节切除术 慢性疼痛 RNA序列 病理 基因
作者
Asta Arendt-Tranholm,Ishwarya Sankaranarayanan,Cathryn Payne,Marisol Mancilla Moreno,Khadijah Mazhar,Natalie Yap,Abby P Chiu,Allison M Barry,Pooja J. Patel,Nikhil Nageshwar Inturi,Diana Tavares‐Ferreira,Anubhav G. Amin,Mahesh Karandikar,Jeffrey G. Jarvik,Judith A. Turner,Christoph P. Hofstetter,Michele Curatolo,Theodore J. Price
出处
期刊:Brain [Oxford University Press]
标识
DOI:10.1093/brain/awaf370
摘要

Neurons in the dorsal root ganglion (DRG) receive and transmit sensory information from the tissues they innervate and from the external environment. Upper cervical (C1-C2) DRGs are functionally unique as they receive input from the neck, head, and occipital cranial dura, the latter two of which are also innervated by the trigeminal ganglion (TG). The C2 DRG also plays an important role in neck pain, a common and disabling disorder that is poorly understood. Advanced transcriptomic approaches have significantly improved our ability to characterize RNA expression patterns at single-cell resolution in the DRG and TG, but no previous studies have characterized the C2 DRG. Our aim was to use single-nucleus and spatial transcriptomic approaches to create a molecular map of C2 DRGs from patients undergoing arthrodesis surgery with ganglionectomy. Patients with acute (<3 months) or chronic (≥3 months) neck pain were enrolled and completed patient-reported outcome and somatosensory measures prior to surgery. C2 DRGs were characterized with bulk, single nucleus, and spatial RNA sequencing technologies from 22 patients. Through a comparative analysis to published datasets of the lumbar DRG and TG, neuronal clusters identified in both TG and DRG were identified in the C2 DRG. Therefore, our study characterizes the molecular composition of human C2 neurons and establishes their similarity with unique characteristics of subsets of TG neurons. We identified differentially expressed genes in endothelial, fibroblast and myelinating Schwann cells associated with chronic pain, including FGFBP2, C8orf34 and EFNA1, which have been identified in previous genome and transcriptome wide association studies (GWAS/TWAS). Our work provides the first characterization of the human C2 DRG and identifies altered gene expression patterns associated with chronic neck pain. This work establishes a foundation for the exploration of painful disorders in humans affecting the cervical spine.
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