Ishikawa Tetsuhiro, Miyagi Masayuki, Ohtori Seiji, Aoki Yasuchika, Ozawa Tomoyuki, Doya Hideo, Saito Tomoko, Moriya Hideshige, Takahashi Kazuhisa
Department of Orthopaedic Surgery, Graduate School of Medicine, Chiba University, 1-8-1 Inohana, Chuo-ku, Chiba 260-8670, Japan.
Eur Spine J. 2005 Aug;14(6):559-64. doi: 10.1007/s00586-004-0834-x. Epub 2005 Feb 3.
The rat L5/6 facet joint, from which low-back pain can originate, is multisegmentally innervated from the L1 to L5 dorsal root ganglions (DRGs). Sensory fibers from the L1 and L2 DRGs are reported to non-segmentally innervate the paravertebral sympathetic trunks, whilst those from the L3 to L5 DRGs segmentally innervate the L5/6 facet joint. In the current study, characteristics of sensory DRG neurons innervating the L5/6 facet joint were investigated in rats, using a retrograde neurotransport method, lectin affinity- and immuno-histochemistry. We used four markers: (1) calcitonin gene-related peptide (CGRP) as a marker of small peptide containing neurons, (2) the glycoprotein binding the isolectin from Griffonia simplicifolia (IB4) or (3 the purinergic P2X(3) receptor for small, non-peptide containing neurons, and (4) neurofilament 200 (NF200) for small and large myelinated fibers. IB4-binding and CGRP and P2X(3) receptor containing neurons are typically involved in pain sensation, whereas NF200 is associated with pain and proprioception. Neurons innervating the L5/6 facet joints, retrogradely-labeled with fluoro-gold (FG), were distributed throughout DRGs from L1 to L5. Of FG-labeled neurons, the ratios of NF200 immunoreactive (IR) neurons and CGRP-IR neurons were 37% and 35% respectively. The ratio of IB4-binding and P2X(3) receptor-IR neurons was 10%, significantly less than the ratio of CGRP-IR neurons to FG-labeled neurons. The ratios of IB4-binding and P2X(3) receptor-IR neurons were significantly higher, and that of CGRP-IR neurons was significantly less in L1 and L2 DRGs than those in L3, L4 or L5 DRGs. Under physiological conditions in rats, DRG neurons transmit several types of sensations, such as proprioception or nociception of the facet joint. Most neurons transmitting pain are CGRP-IR peptide-containing neurons. They may have a more significant role in pain sensation in the facets via peptidergic DRG neurons.
大鼠L5/6小关节是下腰痛的可能起源部位,它由L1至L5背根神经节(DRG)进行多节段神经支配。据报道,来自L1和L2 DRG的感觉纤维非节段性地支配椎旁交感干,而来自L3至L5 DRG的感觉纤维则节段性地支配L5/6小关节。在本研究中,采用逆行神经运输法、凝集素亲和及免疫组织化学方法,对支配大鼠L5/6小关节的感觉DRG神经元的特征进行了研究。我们使用了四种标记物:(1)降钙素基因相关肽(CGRP)作为含小肽神经元的标记物;(2)与来自西非豆(Griffonia simplicifolia)的异凝集素结合的糖蛋白(IB4);(3)用于含小的、非肽类神经元的嘌呤能P2X(3)受体;(4)用于小的和大的有髓纤维的神经丝200(NF200)。结合IB4以及含有CGRP和P2X(3)受体的神经元通常参与痛觉感受,而NF200与疼痛和本体感觉相关。用荧光金(FG)逆行标记的支配L5/6小关节的神经元分布于L1至L5的整个DRG中。在FG标记的神经元中,NF200免疫反应性(IR)神经元和CGRP-IR神经元的比例分别为37%和35%。结合IB4和P2X(3)受体-IR神经元的比例为10%,显著低于CGRP-IR神经元与FG标记神经元的比例。在L1和L2 DRG中,结合IB4和P2X(3)受体-IR神经元的比例显著高于L3、L4或L5 DRG,而CGRP-IR神经元的比例则显著低于L3、L4或L5 DRG。在大鼠的生理条件下,DRG神经元传递多种类型的感觉,如小关节的本体感觉或伤害感受。大多数传递疼痛的神经元是含CGRP-IR肽的神经元。它们可能通过肽能DRG神经元在小关节的痛觉感受中发挥更重要的作用。