发育早期和成年大鼠背侧纹状体内CRF轴突终末的分布和变化
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摘要
目的:探讨背侧纹状体(dorsal striatum)内促肾上腺皮质激素释放因子(CRF)阳性轴突终末和CRF表达的分布特征及年龄变化。方法:采用免疫组织化学、原位杂交、免疫印迹和体视学分析方法,观察分析出生后第1~21日龄(P1-21)及成年(P90)大鼠背侧纹状体内的CRF轴突终末及CRF蛋白含量。结果:背内、背外侧纹状体内含大量CRF轴突终末,背外侧纹状体内的CRF轴突终末更为丰富。这些终末集中位于纹状体的尾部区域,与纹状体主要神经元形成典型的环胞体支配。和成年比较,发育早期(P1-14)背侧纹状体内CRF轴突终末的密度较高(P<0.05),CRF蛋白表达量以P7组相对最高(P<0.05)。结论:发育早期背侧纹状体内富含CRF轴突终末,提示CRF是影响纹状体神经元生长发育的因子之一。
Objective: To obseve distribution of corticotropin-releasing factor( CRF) in the dorsal striatum. Methods:Immunohistochemistry,in situ hybridization,Western Blotting and stereological analysis were employed to investigate CRF axonal terminals and CRF expression in the dorsal stratum in immature( postnatal day 1 to 21,P1-21) and young adult( P90) rats. Results: Numerous CRF axonal terminals were detected in the dorsal striatum,including the dorsolateral and dorsomedial parts. Particularly,the CRF axonal terminals were distributed in the posterior regions of the dorsal striatum,and they surrounded the cell bodies of spiny striatum neurons to form a typical perisomatic innervation. CRF axonal terminals are abundant during early development( P1-P14),and CRF expression was on the highest level in P7 as compared with the adult and others( P < 0. 05). Conclusion: Robust expression and axonal terminals of CRF are observed in the developing dorsal striatum,suggesting that CRF might be one of factors involving in the differentiation.
Objective: To obseve distribution of corticotropin-releasing factor( CRF) in the dorsal striatum. Methods:Immunohistochemistry,in situ hybridization,Western Blotting and stereological analysis were employed to investigate CRF axonal terminals and CRF expression in the dorsal stratum in immature( postnatal day 1 to 21,P1-21) and young adult( P90) rats. Results: Numerous CRF axonal terminals were detected in the dorsal striatum,including the dorsolateral and dorsomedial parts. Particularly,the CRF axonal terminals were distributed in the posterior regions of the dorsal striatum,and they surrounded the cell bodies of spiny striatum neurons to form a typical perisomatic innervation. CRF axonal terminals are abundant during early development( P1-P14),and CRF expression was on the highest level in P7 as compared with the adult and others( P < 0. 05). Conclusion: Robust expression and axonal terminals of CRF are observed in the developing dorsal striatum,suggesting that CRF might be one of factors involving in the differentiation.
引文
[1]Faure A,Leblanc-Veyrac P,El Massioui N.Dopamine agonists increase perseverative instrumental responses but do not restore habit formation in a rat model of Parkinsonism[J].Neuroscience,2010,168:477-486.
[2]Wang LP,Li F,Wang D,et al.NMDA receptors in dopaminergic neurons are crucial for habit learning[J].Neuron,2011,72:1055-1066.
[3]Braun S,Hauber W.Acute stressor effects on goal-directed action in rats[J].Learn Mem,2013,20:700-709.
[4]Dias-Ferreira E,Sousa JC,Melo I,et al.Chronic stress causes frontostriatal reorganization and affects decision-making[J].Science,2009,325:621-625.
[5]Gourley SL,Swanson AM,Jacobs AM,et al.Action control is mediated by prefrontal BDNF and glucocorticoid receptor binding[J].Proc Natl Acad Sci USA,2012,109:20714-20719.
[6]Cohen MX,Frank MJ.Neurocomputational models of basal ganglia function in learning,memory and choice[J].Behav Brain Res,2009,199:141-156.
[7]Lucassen PJ,Pruessner J,Sousa N,et al.Neuropathology of stress[J].Acta Neuropathol,2014;127:109-135.
[8]Chen Y,Andres AL,Frotscher M,et al.Tuning synaptic transmission in the hippocampus by stress:the CRH system[J].Front Cell Neurosci,2012,6:13.
[9]Orozco-Cabal L,Pollandt S,Liu J,et al.Regulation of synaptic transmission by CRF receptors[J].Rev Neurosci,2006,17:279-307.
[10]Leuner B,Shors TJ.Stress,anxiety,and dendritic spines:what are the connections?[J]Neuroscience,2013,251:108-119.
[11]Chen Y,Kramár EA,Chen LY,et al.Impairment of synaptic plasticity by the stress mediator CRH involves selective destruction of thin dendritic spines via Rho A signaling[J].Mol Psychiatry,2013,18:485-496.
[12]Yin HH,Ostlund SB,Knowlton BJ,et al.The role of the dorsomedial striatum in instrumental conditioning[J].Eur J Neurosci,2005,22:513-523.
[13]Tricomi E,Balleine BW,O’Doherty JP.A specific role for posterior dorsolateral striatum in human habit learning[J].Eur J Neurosci,2009,29:2225-2232.
[14]Packard MG,Goodman J.Factors that influence the relative use of multiple memory systems[J].Hippocampus,2013,23:1044-1052.
[15]Gasbarri A,Pompili A,Packard MG,et al.Habit learning and memory in mammals:Behavioral and neural characteristics[J].Neurobiol Learn Mem,2014,114C:198-208.
[16]Chen Y,Bender RA,Brunson KL,et al.Modulation of dendritic differentiation by corticotropin-releasing factor in the developing hippocampus[J].Proc Natl Acad Sci USA,2004,101:15782-15787.
[17]许本柯,何云,陈运才.应激调节因子CRF与神经元树突棘研究现状[J].神经解剖学杂志,2014,30:482-484.
[2]Wang LP,Li F,Wang D,et al.NMDA receptors in dopaminergic neurons are crucial for habit learning[J].Neuron,2011,72:1055-1066.
[3]Braun S,Hauber W.Acute stressor effects on goal-directed action in rats[J].Learn Mem,2013,20:700-709.
[4]Dias-Ferreira E,Sousa JC,Melo I,et al.Chronic stress causes frontostriatal reorganization and affects decision-making[J].Science,2009,325:621-625.
[5]Gourley SL,Swanson AM,Jacobs AM,et al.Action control is mediated by prefrontal BDNF and glucocorticoid receptor binding[J].Proc Natl Acad Sci USA,2012,109:20714-20719.
[6]Cohen MX,Frank MJ.Neurocomputational models of basal ganglia function in learning,memory and choice[J].Behav Brain Res,2009,199:141-156.
[7]Lucassen PJ,Pruessner J,Sousa N,et al.Neuropathology of stress[J].Acta Neuropathol,2014;127:109-135.
[8]Chen Y,Andres AL,Frotscher M,et al.Tuning synaptic transmission in the hippocampus by stress:the CRH system[J].Front Cell Neurosci,2012,6:13.
[9]Orozco-Cabal L,Pollandt S,Liu J,et al.Regulation of synaptic transmission by CRF receptors[J].Rev Neurosci,2006,17:279-307.
[10]Leuner B,Shors TJ.Stress,anxiety,and dendritic spines:what are the connections?[J]Neuroscience,2013,251:108-119.
[11]Chen Y,Kramár EA,Chen LY,et al.Impairment of synaptic plasticity by the stress mediator CRH involves selective destruction of thin dendritic spines via Rho A signaling[J].Mol Psychiatry,2013,18:485-496.
[12]Yin HH,Ostlund SB,Knowlton BJ,et al.The role of the dorsomedial striatum in instrumental conditioning[J].Eur J Neurosci,2005,22:513-523.
[13]Tricomi E,Balleine BW,O’Doherty JP.A specific role for posterior dorsolateral striatum in human habit learning[J].Eur J Neurosci,2009,29:2225-2232.
[14]Packard MG,Goodman J.Factors that influence the relative use of multiple memory systems[J].Hippocampus,2013,23:1044-1052.
[15]Gasbarri A,Pompili A,Packard MG,et al.Habit learning and memory in mammals:Behavioral and neural characteristics[J].Neurobiol Learn Mem,2014,114C:198-208.
[16]Chen Y,Bender RA,Brunson KL,et al.Modulation of dendritic differentiation by corticotropin-releasing factor in the developing hippocampus[J].Proc Natl Acad Sci USA,2004,101:15782-15787.
[17]许本柯,何云,陈运才.应激调节因子CRF与神经元树突棘研究现状[J].神经解剖学杂志,2014,30:482-484.