Meister B, Ceccatelli S, Hökfelt T, Andén N E, Andén M, Theodorsson E
Department of Histology and Neurobiology, Karolinska Institute, Stockholm, Sweden.
Exp Brain Res. 1989;76(2):343-68. doi: 10.1007/BF00247894.
Indirect immunofluorescence histochemistry and receptor autoradiography were used to study the localization of transmitter-/peptide-containing neurons and peptide binding sites in the mediobasal hypothalamus in normal rats and in rats treated neonatally with repeated doses of the neurotoxin monosodium-glutamate (MSG). In the arcuate nucleus, the results showed a virtually complete loss of cell bodies containing immunoreactivity for growth hormone-releasing factor (GRF), galanin (GAL), dynorphin (DYN), enkephalin (ENK), corticotropin-like intermediate peptide (CLIP), neuropeptide Y (NPY), and neuropeptide K (NPK). Tyrosine hydroxylase(TH)-glutamic acid decarboxylase(GAD)-, neurotensin(NT)- and somatostatin(SOM)-immunoreactive (IR) cells were, however, always detected in the ventrally dislocated, dorsomedial division of the arcuate nucleus. In the median eminence, marked decreases in numbers of GAD-, NT-, GAL-, GRF-, DYN-, and ENK-IR fibers were observed. The numbers of TH-, SOM- and NPY-IR fibers were in contrast not or only affected to a very small extent, as revealed with the immunofluorescence technique. Biochemical analysis showed a tendency for MSG to reduce dopamine levels in the median eminence of female rats, whereas no effect was observed in male rats. Autoradiographic studies showed high to moderate NT binding sites, including strong binding over presumably dorsomedial dopamine cells. In MSG-treated rats, there was a marked reduction in GAL binding in the ventromedial nucleus. The findings implicate that most neurons in the ventrolateral and ventromedial arcuate nucleus are sensitive to the toxic effects of MSG, whereas a subpopulation of cells in the dorsomedial division of the arcuate nucleus, including dopamine neurons, are not susceptible to MSG-neurotoxicity. The results indicate, moreover that the very dense TH-IR fiber network in the median eminence predominantly arises from the dorsomedial TH-IR arcuate cells, whereas the GAD-, NT-, GAL-, GRF- and DYN-IR fibers in the median eminence to a large extent arise from the ventrolateral arcuate nucleus. Some ENK- and NPK-positive cells in the arcuate nucleus seem to project to the lateral palisade zone of the median eminence, but most of the ENK-IR fibers in the median eminence, located in the medial palisade zone, seem to primarily originate from an area(s) located outside the arcuate nucleus, presumably the paraventricular nucleus.(ABSTRACT TRUNCATED AT 400 WORDS)
采用间接免疫荧光组织化学和受体放射自显影技术,研究正常大鼠及新生期反复注射神经毒素谷氨酸单钠(MSG)的大鼠中,含递质/肽的神经元和肽结合位点在下丘脑内侧基底部的定位。在弓状核中,结果显示,含生长激素释放因子(GRF)、甘丙肽(GAL)、强啡肽(DYN)、脑啡肽(ENK)、促肾上腺皮质激素样中间肽(CLIP)、神经肽Y(NPY)和神经肽K(NPK)免疫反应性的细胞体几乎完全丧失。然而,酪氨酸羟化酶(TH)-谷氨酸脱羧酶(GAD)-、神经降压素(NT)-和生长抑素(SOM)-免疫反应性(IR)细胞,总能在弓状核腹侧移位的背内侧部分检测到。在正中隆起,观察到GAD-、NT-、GAL-、GRF-、DYN-和ENK-IR纤维数量显著减少。相比之下,免疫荧光技术显示,TH-、SOM-和NPY-IR纤维数量未受影响或仅受到很小程度的影响。生化分析显示,MSG有降低雌性大鼠正中隆起多巴胺水平的趋势,而对雄性大鼠无影响。放射自显影研究显示,NT结合位点高至中度,包括在推测的背内侧多巴胺细胞上有强结合。在MSG处理的大鼠中,腹内侧核中GAL结合显著减少。研究结果表明,弓状核腹外侧和腹内侧的大多数神经元对MSG的毒性作用敏感,而弓状核背内侧部分的细胞亚群,包括多巴胺神经元,对MSG神经毒性不敏感。此外,结果表明,正中隆起中非常密集的TH-IR纤维网络主要来自背内侧TH-IR弓状细胞,而正中隆起中的GAD-、NT-、GAL-、GRF-和DYN-IR纤维在很大程度上来自腹外侧弓状核。弓状核中的一些ENK-和NPK阳性细胞似乎投射到正中隆起的外侧栅栏区,但正中隆起中位于内侧栅栏区的大多数ENK-IR纤维似乎主要起源于弓状核以外的区域,可能是室旁核。(摘要截断于400字)
