Behavioral tests of the insulin-cholinergic-dopamine link in nucleus accumbens and inhibition by high fat-high sugar diet in male and female rats

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Sydney P. Weiner , Kenneth D. Carr
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引用次数: 0

Abstract

It was previously shown in striatal slices obtained from male rats that insulin excites cholinergic interneurons and increases dopamine (DA) release via α4β2 nicotinic receptors on DA terminals. The effect of insulin on DA release was blocked either by maintaining rats on a high sugar-high fat (HS-HF) diet that induced hyperinsulinemia and nucleus accumbens (NAc) insulin receptor insensitivity, or applying the α4β2 antagonist DHβE. In vivo, NAc shell insulin inactivation decreased a glucose lick microstructure parameter indicative of hedonic impact in male and female rats, and prevented flavor-nutrient learning, tested only in males. The HS-HF diet decreased hedonic impact in males but not females, and prevented flavor-nutrient learning, tested only in males. The present study extends testing to more fully assess the translation of brain slice results to the behaving rat. Insulin inactivation by antibody microinjection in NAc shell was found to decrease the number of lick bursts emitted and average lick burst size, measures of incentive motivation and hedonic impact respectively, for a wide range of glucose concentrations in male and female rats. In contrast, the HS-HF diet decreased these lick parameters in males but not females. Follow-up two-bottle choice tests for 10 % versus 40 % glucose showed decreased intake of both concentrations by males but increased intake of 40 % glucose by females. In a further set of experiments, it was predicted that α4β2 receptor blockade would induce the same behavioral effects as insulin inactivation. In females, DHβE microinjection in NAc shell decreased both lick parameters for glucose as predicted, but in males only the number of lick bursts emitted was decreased. DHβE also decreased the number of lick bursts emitted for saccharin by females but not males. Finally, DHβE microinjection in NAc shell decreased flavor-nutrient learning in both sexes. The few discrepancies seen with regard to the hypothesized insulin-nicotinic-dopaminergic regulation of behavioral responses to nutritive sweetener, and its inhibition by HS-HF diet, are discussed with reference to sex differences in DA dynamics, female resistance to diet-induced metabolic morbidities, and extra-striatal cholinergic inputs to NAc.

行为测试雄性和雌性大鼠凹凸核中的胰岛素-胆碱能-多巴胺联系以及高脂高糖饮食的抑制作用
先前有研究表明,在雄性大鼠的纹状体切片中,胰岛素可兴奋胆碱能中间神经元,并通过DA末端的α4β2烟碱受体增加多巴胺(DA)的释放。用高糖高脂(HS-HF)饮食诱导大鼠高胰岛素血症和纳氏核(NAc)胰岛素受体不敏感,或使用α4β2拮抗剂DHβE,均可阻断胰岛素对DA释放的影响。在体内,NAc外壳胰岛素失活降低了雄性和雌性大鼠舔舐葡萄糖的微观结构参数,该参数显示了享乐影响,并阻止了风味营养学习(仅对雄性大鼠进行了测试)。HS-HF饮食降低了雄性大鼠的享乐影响,但没有降低雌性大鼠的享乐影响,并且只对雄性大鼠进行了风味营养学习的测试。本研究扩大了测试范围,以更全面地评估将脑片结果转化为行为大鼠的情况。研究发现,在雄性和雌性大鼠体内的多种葡萄糖浓度条件下,通过在NAc外壳中进行抗体显微注射使胰岛素失活可减少舔食爆发的次数和平均舔食爆发大小,这分别是衡量激励动机和享乐影响的指标。相比之下,HS-HF 食物降低了雄性大鼠的这些舔食参数,但没有降低雌性大鼠的这些参数。对 10% 和 40% 葡萄糖进行的后续双瓶选择测试表明,雄性大鼠对两种浓度葡萄糖的摄入量都有所减少,但雌性大鼠对 40% 葡萄糖的摄入量有所增加。在进一步的实验中,我们预测α4β2受体阻断将诱发与胰岛素失活相同的行为效应。在雌性动物中,DHβE在NAc外壳中的显微注射如预测的那样降低了舔舐葡萄糖的两个参数,但在雄性动物中只降低了舔舐爆发的次数。DHβE 还能减少雌性对糖精的舔爆次数,但不能减少雄性对糖精的舔爆次数。最后,DHβE在NAc外壳中的显微注射降低了雌雄动物对味道营养物质的学习能力。关于胰岛素-烟碱-多巴胺能调节对营养甜味剂行为反应的假设及其对HS-HF饮食的抑制作用的一些差异,我们参考了DA动态的性别差异、雌性对饮食引起的代谢性疾病的抵抗力以及对NAc的纹状体外胆碱能输入等因素进行了讨论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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