The Australian School of Advanced Medicine, Macquarie University, Macquarie Park, 2109 New South Wales, Australia.
J Comp Neurol. 2013 Aug 15;521(12):2703-18. doi: 10.1002/cne.23310.
Glucoprivation or hypoglycemia induces a range of counterregulatory responses, including glucose mobilization, reduced glucose utilization, and de novo glucose synthesis. These responses are mediated in part by the sympathetic nervous system. The aim of this study was to determine the chemical codes of sympathetic preganglionic neurons (SPN) activated by glucoprivation, induced by 2-deoxy-D-glucose (2DG). SPN controlling the adrenal glands and celiac ganglia, which ultimately can innervate the liver and pancreas, were targeted together with the superior cervical ganglia (control). 23.9% ± 1.3% of SPN in the T4-T11 region contained c-Fos immunoreactivity following 2DG; 70.3% ± 1.8% of SPN innervating the adrenal glands and 37.4% ± 3% of SPN innervating celiac ganglia were activated. 14.8% ± 3.5% of SPN (C8-T3) innervating superior cervical ganglia were activated. In the C8-T3 region 55% ± 10% of SPN activated contained PPCART, with only 12% ± 3% expressing PPE mRNA, whereas, in the T4-T11 region, 78% ± 4% contained PPE, with only 6.0% ± 0.6% expressing PPCART mRNA. Thus CART is not involved in glucose mobilization. Two chemically distinct populations of SPN (PPE⁺ 57.4% ± 5%, PPE⁻ ∼40%) were identified to regulate adrenaline release in response to glucoprivation. Multiple chemically distinct SPN populations innervating a specific target could suggest their graded recruitment. The two distinct populations of SPN (PPE⁺ 67.6% ± 9%, PPE⁻ ∼30%) projecting to celiac ganglia activated by glucoprivation could direct pancreatic and hepatic or other counterregulatory responses. Nearly all SPN that expressed PPE mRNA and projected to the adrenal glands or celiac ganglia were activated, suggesting a role for the inhibitory peptide enkephalin in responses evoked by glucoprivation.
糖剥夺或低血糖会引起一系列代偿性反应,包括葡萄糖动员、葡萄糖利用减少和葡萄糖从头合成。这些反应部分由交感神经系统介导。本研究旨在确定由 2-脱氧-D-葡萄糖(2DG)诱导的糖剥夺激活的交感节前神经元(SPN)的化学编码。靶向控制肾上腺和腹腔神经节的 SPN,这些 SPN 最终可以支配肝脏和胰腺,以及颈上神经节(对照)。T4-T11 区域的 2DG 后有 23.9%±1.3%的 SPN 含有 c-Fos 免疫反应性;70.3%±1.8%的肾上腺神经节支配 SPN 和 37.4%±3%的腹腔神经节支配 SPN 被激活。C8-T3 区域支配颈上神经节的 14.8%±3.5%的 SPN 被激活。在 C8-T3 区域,55%±10%的激活 SPN 含有 PPCART,只有 12%±3%表达 PPE mRNA,而在 T4-T11 区域,78%±4%含有 PPE,只有 6.0%±0.6%表达 PPCART mRNA。因此,CART 不参与葡萄糖动员。在 T4-T11 区域鉴定出两种化学上不同的 SPN 群(PPE⁺57.4%±5%,PPE⁻约 40%)来调节肾上腺素释放以应对糖剥夺。靶向特定靶标并具有多种化学特征的 SPN 种群可能暗示其分级募集。两种化学上不同的 SPN 群(PPE⁺67.6%±9%,PPE⁻约 30%)投射到糖剥夺激活的腹腔神经节,可以指导胰腺和肝脏或其他代偿性反应。表达 PPE mRNA 并投射到肾上腺或腹腔神经节的几乎所有 SPN 都被激活,提示抑制肽内啡肽在糖剥夺引起的反应中起作用。
