Leo D, Adriani W, Cavaliere C, Cirillo G, Marco E M, Romano E, di Porzio U, Papa M, Perrone-Capano C, Laviola G
Institute of Genetics and Biophysics A. Buzzati Traverso, CNR, Naples, Naples, Italy.
Genes Brain Behav. 2009 Apr;8(3):356-68. doi: 10.1111/j.1601-183X.2009.00486.x. Epub 2009 Feb 19.
Methylphenidate (MPH) administration to adolescent rodents produces persistent region-specific changes in brain reward circuits and alterations of reward-based behavior. We show that these modifications include a marked increment of serotonin (5-hydroxy-tryptamine) receptor type 7 (Htr7) expression and synaptic contacts, mainly in the nucleus accumbens, and a reduction of basal behavioral impulsivity. We show that neural and behavioral consequences are functionally related: administration of a selective Htr7 antagonist fully counteracts the MPH-reduced impulsive behavior and enhances impulsivity when administered alone in naive rats. Agonist-induced activation of endogenous Htr7 significantly increases neurite length in striatal neuron primary cultures, thus suggesting plastic remodeling of neuronal morphology. The mixed Htr (1a/7) agonist, 8-OH-DPAT, reduces impulsive behavior in adolescent rats and in naive adults, whose impulsivity is enhanced by the Htr7 antagonist. In summary, behavioral pharmacology experiments show that Htr7 mediates self-control behavior, and brain primary cultures experiments indicate that this receptor may be involved in the underlying neural plasticity, through changes in neuronal cytoarchitecture.
给青春期啮齿动物施用哌醋甲酯(MPH)会在脑奖赏回路中产生持续的区域特异性变化,并改变基于奖赏的行为。我们发现,这些改变包括血清素(5-羟色胺)7型受体(Htr7)表达和突触接触显著增加,主要发生在伏隔核,同时基础行为冲动性降低。我们表明,神经和行为后果在功能上相关:施用选择性Htr7拮抗剂可完全抵消MPH降低的冲动行为,而在未处理的大鼠中单独施用时则会增强冲动性。激动剂诱导的内源性Htr7激活显著增加纹状体神经元原代培养物中的神经突长度,从而表明神经元形态发生可塑性重塑。混合Htr(1a/7)激动剂8-OH-DPAT可降低青春期大鼠和未处理成年大鼠的冲动行为,而Htr7拮抗剂会增强这些大鼠的冲动性。总之,行为药理学实验表明Htr7介导自我控制行为,而脑原代培养实验表明该受体可能通过神经元细胞结构的变化参与潜在的神经可塑性。
