Effect of catecholamine depletion and denervation on neuropeptide Y(NPY) and tyrosine-hydroxylase (TH) mRNA levels in rat sympathetic ganglia.

J Hänze, W Kummer, M Haass, R E Lang
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引用次数: 15

Abstract

Neuropeptide Y (NPY) and noradrenaline (NA) are synthesized and stored in sympathetic nerves and concomitantly released in response to appropriate stimuli. The two substances have been reported to interact on various levels: postjunctionally, by mutually potentiating their vasoconstrictor effects, prejunctionally, by inhibiting each other's release. The possibility of an interaction on the levels of their synthesis was investigated in this study. Specific cDNA probes were used for the measurement of the steady state levels of the mRNAs encoding prepro-NPY and tyrosine hydroxylase (TH) in the superior sympathetic cervical and stellate ganglia of rats. Reserpine (5 mg/kg) was administered for inducing catecholamine depletion. This caused a large decrease in the NA content of the heart associated with an about 50% reduction in cardiac NPY levels. Ganglionic NPY and TH mRNA levels increased 3-6 fold as compared to vehicle treated animals. To determine whether this effect was due to transynaptic induction, superior cervical ganglia were decentralized in a subgroup of rats. Decentralized ganglia displayed significantly lower NPY and TH mRNA levels than intact ones. The response to reserpine was almost completely prevented by decentralization. These Observations indicate that the activation of gene expression of NPY and TH by reserpine depends on intact ganglionic innervation and is therefore reflexly mediated. Trans-synaptic induction may regulate NPY and TH mRNA levels also under basal conditions.

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儿茶酚胺耗竭和去神经支配对大鼠交感神经节神经肽Y(NPY)和酪氨酸羟化酶(TH) mRNA水平的影响。
神经肽Y (NPY)和去甲肾上腺素(NA)在交感神经中合成和储存,并在适当的刺激下释放。据报道,这两种物质在不同水平上相互作用:经颅后,通过相互增强其血管收缩作用,经颅前,通过抑制彼此的释放。本研究探讨了它们在合成水平上相互作用的可能性。采用特异性cDNA探针测定大鼠上交感颈和星状神经节中编码npy前原和酪氨酸羟化酶(TH)的mrna的稳态水平。给予利血平(5mg /kg)诱导儿茶酚胺耗竭。这导致心脏NA含量的大幅下降,并导致心脏NPY水平降低约50%。与对照组相比,神经节NPY和TH mRNA水平增加了3-6倍。为了确定这种影响是否由于跨突触诱导,我们在一个亚组大鼠中分散了颈上神经节。去中心化神经节的NPY和TH mRNA水平明显低于完整神经节。权力下放几乎完全阻止了对利血平的反应。这些观察结果表明利血平对NPY和TH基因表达的激活依赖于完整的神经节神经支配,因此是反射介导的。在基础条件下,跨突触诱导也可能调节NPY和TH mRNA的水平。
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