Hammond D L, Ruda M A
Department of Central Nervous System Diseases Research, G.D. Searle & Co., Skokie, Illinois 60077.
J Comp Neurol. 1991 Oct 15;312(3):436-50. doi: 10.1002/cne.903120310.
This study examined the effect of neonatal administration of capsaicin on nociceptive threshold and the distribution of calcitonin gene-related peptide (CGRP), substance P (SP), and fluoride-resistant acid phosphatase (FRAP) in the dorsal horn of the spinal cord during the course of development (10 days to 12 weeks of age) in the rat. As early as 10 days of age, CGRP-like immunoreactivity was reduced in laminae I, II, and V, as well as in the bundles of fibers situated dorsal and ventral to the central canal. However, beginning on or about 6 weeks of age, the density of CGRP-like immunoreactivity in the superficial laminae and in the bundles dorsal and ventral to the central canal increased. Moreover, thick, nonvaricose CGRP-like immunoreactive fibers appeared in laminae III and IV. These recurring fibers were of primary afferent origin as demonstrated by their disappearance after multiple, unilateral rhizotomies. A similar age-dependent alteration in the density of FRAP activity was also observed. Although virtually absent at 10 days of age after neonatal administration of capsaicin, the density of FRAP activity increased in lamina II by 8 weeks of age. This activity disappeared after multiple, unilateral rhizotomies, indicating that the FRAP activity that reappeared was of primary afferent origin. Neonatal administration of capsaicin also reduced the density of SP-like immunoreactivity in the dorsal horn as early as 10 days of age, although the density of SP-like immunoreactivity showed some recovery after 6 weeks of age. However, unlike CGRP-like immunoreactivity or FRAP activity, the density of SP-like immunoreactivity in capsaicin-treated rats was not detectably altered by multiple, unilateral rhizotomies, indicating that it originated principally from intrinsic dorsal horn neurons. Age-dependent alterations in both thermal and mechanical, but not chemical, nociceptive thresholds were also observed in these same animals. Thus, tail flick latency, hot plate latency, and paw withdrawal threshold were maximally increased at 6 weeks of age, after which time thresholds declined to vehicle-treated values. In contrast, capsaicin-treated animals were uniformly insensitive to ophthalmic administration of capsaicin. The correspondence between developmental alterations in CGRP-like immunoreactivity or FRAP activity and in thermal and mechanical nociceptive thresholds is suggestive of a role of CGRP- or FRAP-containing primary afferents in thermal and mechanical nociception.
本研究检测了新生大鼠给予辣椒素后,在发育过程中(10日龄至12周龄)对痛觉阈值以及脊髓背角中降钙素基因相关肽(CGRP)、P物质(SP)和耐氟酸性磷酸酶(FRAP)分布的影响。早在10日龄时,I、II和V层以及中央管背侧和腹侧的纤维束中CGRP样免疫反应性就降低了。然而,大约从6周龄开始,浅层以及中央管背侧和腹侧纤维束中CGRP样免疫反应性的密度增加。此外,III和IV层出现了粗大、无曲张的CGRP样免疫反应性纤维。多次单侧神经根切断术后这些纤维消失,证明这些反复出现的纤维起源于初级传入神经。在FRAP活性密度方面也观察到了类似的年龄依赖性变化。新生大鼠给予辣椒素后,10日龄时FRAP活性密度几乎不存在,但到8周龄时II层的FRAP活性密度增加。多次单侧神经根切断术后该活性消失,表明重新出现的FRAP活性起源于初级传入神经。新生大鼠给予辣椒素后,早在10日龄时背角中SP样免疫反应性的密度也降低,尽管6周龄后SP样免疫反应性的密度有所恢复。然而,与CGRP样免疫反应性或FRAP活性不同,多次单侧神经根切断术未使辣椒素处理大鼠的SP样免疫反应性密度发生可检测到的改变,表明其主要起源于脊髓背角固有神经元。在这些相同的动物中还观察到了热痛觉阈值和机械痛觉阈值(而非化学痛觉阈值)的年龄依赖性变化。因此,甩尾潜伏期、热板潜伏期和爪退缩阈值在6周龄时最大程度增加,此后阈值降至给予赋形剂处理的值。相反,辣椒素处理的动物对眼部给予辣椒素始终不敏感。CGRP样免疫反应性或FRAP活性的发育变化与热痛觉阈值和机械痛觉阈值之间的对应关系提示含CGRP或FRAP的初级传入神经在热痛觉和机械痛觉中起作用。
