Tio2-dopamine complex implanted unilaterally in the caudate nucleus improves motor activity and behavior function of rats with induced hemiparkinsonism.

Patricia Vergara-Aragón, Leonardo Eduardo Domínguez-Marrufo, Patricia Ibarra-Guerrero, Heidi Hernandez-Ramírez, Beatriz Hernández-Téllez, Irma Elena López-Martínez, Ivonne Sánchez-Cervantes, Patricia Santiago-Jacinto, Jorge Alberto García-Macedo, Guadalupe Valverde-Aguilar, Julio Santiago
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Abstract

Parkinson's disease (PD) is characterized by malfunction of dopaminergic systems, and the current symptomatic treatment is to replace lost dopamine. For investigating mechanisms of pathogenesis and alternative treatments to compensate lack of dopamine (DA) activity in PD, the 6-hydroxydopamine (6-OHDA)-lesioned rat model of PD has been useful, these animals display apomorphine-induced contralateral rotational behavior, when they are examined after lesion. The purpose of this study was to assess Titania-dopamine (TiO2-DA) complexes implanted on the caudate nucleus for diminishing motor behavior alterations of the 6-OHDA rat model. Rats with 6-OHDA unilateral lesions received TiO2 alone or TiO2-DA implants, and were tested for open field (OF) gross motor crossing and rearing behaviors, and apomorphine-induced rotation (G) behavior. TiO2 complex have no effects on rearing OF and G behaviors, and a significant reducing effect on crossing motor behavior of normal rats compared to control non-treated rats throughout 56 days of observation. Interestingly, TiO2-DA treatment significant recovered motor crossing and rearing behaviors in 6-OHDA-lesioned rats, and diminished the G behaviors during 56 days of examination. Additionally, in the 6-OHDA-lesioned rats TiO2 treatment had a moderate recovering effect only on crossing behavior compared to lesioned non treated rats. Our results suggest that continuous release of dopamine in the caudate nucleus from TiO2-DA complex is capable of reversing gross motor deficits observed in the 6-OHDA-lesioned rat model of PD. Thistype of delivery system of DA represents a promising therapy for PD in humans.

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尾状核单侧植入tio2 -多巴胺复合物可改善半帕金森大鼠的运动活动和行为功能。
帕金森病(PD)以多巴胺能系统功能障碍为特征,目前的对症治疗方法是补充丢失的多巴胺。6-羟多巴胺(6-OHDA)损伤的PD大鼠模型对研究PD的发病机制和补偿多巴胺(DA)活性缺乏的替代治疗是有用的,这些动物在损伤后检查时表现出阿吗啡诱导的对侧旋转行为。本研究的目的是评估钛-多巴胺(TiO2-DA)复合物植入尾状核对6-OHDA大鼠模型运动行为改变的影响。6-OHDA单侧病变大鼠分别接受TiO2单独或TiO2- da植入,并测试开放场(open field, OF)大运动交叉和饲养行为以及阿吗啡诱导的旋转(G)行为。在56天的观察中,TiO2复合物对正常大鼠的饲养OF和G行为没有影响,对正常大鼠的交叉运动行为的影响明显低于对照组。有趣的是,TiO2-DA处理显著恢复了6- ohda损伤大鼠的运动交叉和饲养行为,并在56天的检查中降低了G行为。此外,在6- ohda损伤大鼠中,与未处理的损伤大鼠相比,TiO2处理仅对交叉行为有中等程度的恢复作用。我们的研究结果表明,从TiO2-DA复合物中持续释放多巴胺在尾状核中能够逆转6- ohda损伤大鼠PD模型中观察到的大运动缺陷。这种类型的DA递送系统代表了一种很有前途的治疗人类PD的方法。
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