Traub R J, Allen B, Humphrey E, Ruda M A
Neurobiology and Anesthesiology Branch, National Institute of Dental Research, National Institutes of Health, Bethesda, Maryland 20892.
J Comp Neurol. 1990 Dec 15;302(3):562-74. doi: 10.1002/cne.903020312.
Recent studies have suggested that calcitonin gene-related peptide (CGRP) can be used as a marker for a subpopulation of nociceptive primary afferents. Consequently, CGRP-immunoreactive (CGRP-IR) primary afferents have been reported to project many segments rostral to their segment of entry and to send collaterals into the superficial and deep laminae of the dorsal horn. This study reports that some CGRP-IR primary afferents of sacral origin project rostral through the ipsilateral lumbar enlargement in the cat. The ultrastructure of these multisegmentally projecting primary afferent axons and terminals identified in a partially denervated cat was examined and compared to the ultrastructure of CGRP-IR afferents from an intact cat. Retrograde transport of wheatgerm agglutinin-colloidal gold injected into the cat L4 spinal cord resulted in labeling of primary afferent cell bodies in the ipsilateral L4-S1 dorsal root ganglia (DRG). Analysis of every fourth section through the ipsilateral S1 DRG revealed as many as 1,000 retrogradely labeled neuronal cell bodies. One third of these cell bodies were double labeled for CGRP-like immunoreactivity. The number of single- and double-labeled cells increased in ganglia closer to the injection site (L4-L7). At the ultrastructural level, in the lumbosacral dorsal spinal cord of a normal cat, most CGRP-IR axons were unmyelinated, while the rest were small myelinated axons. In both the superficial dorsal horn and lamina V, CGRP-IR varicosities were dome shaped, scallop shaped, or elongated. The CGRP-IR varicosities contained small agranular vesicles and frequently a few dense core vesicles. These labeled varicosities formed asymmetric synapses on unlabeled dendritic spines, shafts, or neuronal somata. One cat received multiple unilateral dorsal rhizotomies (S1-L4) and an ipsilateral hemisection (mid L4). CGRP-IR axons and terminals were found within each of the rhizotomized segments, although their density was greatly reduced compared to that in the intact animals. In Lissauer's tract the majority (greater than 90%) of CGRP-IR fibers were unmyelinated. In laminae I and V, the remaining CGRP-IR varicosities were mainly the dome-shaped varicosities morphologically similar to those observed in the normal spinal cords. They contained small agranular vesicles and a few dense core vesicles and formed asymmetric synapses on unlabeled dendritic shafts and spines. These data demonstrate that unmyelinated, presumably C-fiber nociceptive primary afferents and some small myelinated A-delta nociceptive primary afferents of sacral origin project rostral through the cat lumbar enlargement and make synaptic connections in both the superficial and deep laminae of the cat dorsal spinal cord.(ABSTRACT TRUNCATED AT 250 WORDS)
最近的研究表明,降钙素基因相关肽(CGRP)可用作伤害性初级传入神经亚群的标志物。因此,据报道,CGRP免疫反应性(CGRP-IR)初级传入神经向其进入节段的头侧多个节段投射,并发出侧支进入背角的浅层和深层板层。本研究报告称,猫骶部起源的一些CGRP-IR初级传入神经通过同侧腰膨大向头侧投射。在一只部分去神经的猫中,检查了这些多节段投射的初级传入轴突和终末的超微结构,并与完整猫的CGRP-IR传入神经的超微结构进行了比较。将小麦胚芽凝集素胶体金注入猫L4脊髓后进行逆行运输,导致同侧L4-S1背根神经节(DRG)中的初级传入细胞体被标记。对通过同侧S1 DRG的每第四切片进行分析,发现多达1000个逆行标记的神经元细胞体。其中三分之一的细胞体CGRP样免疫反应性呈双重标记。在靠近注射部位(L4-L7)的神经节中,单标记和双标记细胞的数量增加。在超微结构水平上,在正常猫的腰骶部背侧脊髓中,大多数CGRP-IR轴突是无髓的,其余的是小的有髓轴突。在背角浅层和V层中,CGRP-IR曲张体呈圆顶形、扇形或细长形。CGRP-IR曲张体含有小的无颗粒小泡,并且经常有一些致密核心小泡。这些标记的曲张体在未标记的树突棘、树突干或神经元胞体上形成不对称突触。一只猫接受了多次单侧背根切断术(S1-L4)和同侧半横切(L4中部)。在每个切断的节段内都发现了CGRP-IR轴突和终末,尽管与完整动物相比其密度大大降低。在Lissauer束中,大多数(超过90%)CGRP-IR纤维是无髓的。在I层和V层中,其余的CGRP-IR曲张体主要是形态上与正常脊髓中观察到的相似的圆顶形曲张体。它们含有小的无颗粒小泡和一些致密核心小泡,并在未标记的树突干和树突棘上形成不对称突触。这些数据表明,无髓的、推测为C纤维的伤害性初级传入神经和一些骶部起源的小的有髓Aδ伤害性初级传入神经通过猫的腰膨大向头侧投射,并在猫背侧脊髓的浅层和深层板层中形成突触连接。(摘要截于250字)
