Grunditz T, Ekman R, Håkanson R, Rerup C, Sundler F, Uddman R
Endocrinology. 1986 Nov;119(5):2313-24. doi: 10.1210/endo-119-5-2313.
Calcitonin gene-related peptide (CGRP) in the thyroid has a dual localization to nerve fibers around blood vessels and follicles and to parafollicular (C) cells. CGRP was found to coexist with substance P (SP) in most of the nerve fibers; a few CGRP fibers seemed to lack SP, and a few SP fibers seemed to be devoid of CGRP. In the C cells, CGRP coexisted with calcitonin (CT). Cervical vagotomy (extirpation of the nodose ganglion) eliminated approximately 50% of the CGRP/SP fibers in the thyroid without any overt influence on CGRP/CT in the C cells. Removal of the superior cervical ganglion or chemical sympathectomy (6-hydroxydopamine treatment) affected neither thyroid CGRP/SP nerve fibers nor CGRP/CT-storing C cells. CGRP nerve cell bodies were numerous in the jugular-nodose ganglionic complex (notably in the jugular portion); in many of them, CGRP coexisted with SP. A few scattered CGRP nerve cell bodies also occurred in the laryngeal ganglion, whereas none was found in the thyroid ganglion. Hypercalcemia evoked by vitamin D2 treatment, which is known to degranulate thyroid C cells, reduced the thyroid content of both CGRP and CT. As tested in mice in vivo, CGRP and SP alone or together had no effect on basal or TSH- or isoprenaline-induced thyroid hormone secretion. Vasoactive intestinal peptide-stimulated iodothyronine release, on the other hand, was enhanced by CGRP, but not by SP. SP had no effect on combined vasoactive intestinal peptide-CGRP-stimulated iodothyronine release. These findings suggest that CGRP participates in the control of thyroid hormone secretion and that, like CT, CGRP in the C cells is under control of the serum calcium level.
甲状腺中的降钙素基因相关肽(CGRP)在血管和滤泡周围的神经纤维以及滤泡旁(C)细胞中呈双重定位。发现大多数神经纤维中CGRP与P物质(SP)共存;少数CGRP纤维似乎缺乏SP,少数SP纤维似乎不含CGRP。在C细胞中,CGRP与降钙素(CT)共存。颈迷走神经切断术(切除结状神经节)可消除甲状腺中约50%的CGRP/SP纤维,而对C细胞中的CGRP/CT没有明显影响。切除颈上神经节或化学性交感神经切除术(6-羟基多巴胺处理)对甲状腺CGRP/SP神经纤维和储存CGRP/CT的C细胞均无影响。CGRP神经细胞体在颈静脉-结状神经节复合体中数量众多(特别是在颈静脉部分);其中许多CGRP与SP共存。喉神经节中也有一些散在的CGRP神经细胞体,而在甲状腺神经节中未发现。已知维生素D2处理引起的高钙血症会使甲状腺C细胞脱颗粒,降低甲状腺中CGRP和CT的含量。在小鼠体内试验中,单独或联合使用CGRP和SP对基础或促甲状腺激素或异丙肾上腺素诱导的甲状腺激素分泌均无影响。另一方面,血管活性肠肽刺激的碘甲状腺原氨酸释放可被CGRP增强,但不能被SP增强。SP对血管活性肠肽-CGRP联合刺激的碘甲状腺原氨酸释放没有影响。这些发现表明CGRP参与甲状腺激素分泌的调控,并且与CT一样,C细胞中的CGRP受血清钙水平的调控。
