Methylphenidate Exposing During Neurodevelopment Alters Amino Acid Profile, Astrocyte Marker and Glutamatergic Excitotoxicity in the Rat Striatum.

IF 2.9 3区 医学 Q2 NEUROSCIENCES
Felipe Schmitz, Luz Elena Durán-Carabali, Alessandra Schmitt Rieder, Josiane S Silveira, Osmar Vieira Ramires Junior, Larissa D Bobermin, André Quincozes-Santos, Vinícius S Alves, Robson Coutinho-Silva, Luiz Eduardo B Savio, Daniella M Coelho, Carmen R Vargas, Carlos Alexandre Netto, Angela T S Wyse
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Abstract

There is a public health concern about the use of methylphenidate (MPH) since the higher prescription for young individuals and non-clinical purposes is addressed to the limited understanding of its neurochemical and psychiatric consequences. This study aimed to evaluate the impact of early and chronic MPH treatment on the striatum focusing on amino acid profile, glutamatergic excitotoxicity, redox status, neuroinflammation and glial cell responses. Male Wistar rats were treated with MPH (2.0 mg/kg) or saline solution from the 15th to the 44th postnatal day. Biochemical and histological analyses were conducted after the last administration. MPH altered the amino acid profile in the striatum, increasing glutamate and ornithine levels, while decreasing the levels of serine, phenylalanine, and branched-chain amino acids (leucine, valine, and isoleucine). Glutamate uptake and Na+,K+-ATPase activity were decreased in the striatum of MPH-treated rats as well as increased ATP levels, as indicator of glutamatergic excitotoxicity. Moreover, MPH caused lipid peroxidation and nitrative stress, increased TNF alpha expression, and induced high levels of astrocytes, and led to a decrease in BDNF levels. In summary, our results suggest that chronic early-age treatment with MPH induces parallel activation of damage-associated pathways in the striatum and increases its vulnerability during the juvenile period. In addition, data presented here contribute to shedding light on the mechanisms underlying MPH-induced striatal damage and its potential implications for neurodevelopmental disorders.

Abstract Image

神经发育期暴露于哌醋甲酯会改变大鼠纹状体的氨基酸谱、星形胶质细胞标记和谷氨酸能兴奋毒性
由于对哌醋甲酯(MPH)的神经化学和精神后果了解有限,因此针对年轻人和非临床目的的处方较多,这引起了公众对哌醋甲酯的关注。本研究旨在评估早期和慢性 MPH 治疗对纹状体的影响,重点关注氨基酸谱、谷氨酸能兴奋毒性、氧化还原状态、神经炎症和神经胶质细胞反应。雄性 Wistar 大鼠在出生后第 15 天至第 44 天接受 MPH(2.0 毫克/千克)或生理盐水治疗。最后一次给药后进行生化和组织学分析。MPH 改变了纹状体中的氨基酸谱,增加了谷氨酸和鸟氨酸的含量,同时降低了丝氨酸、苯丙氨酸和支链氨基酸(亮氨酸、缬氨酸和异亮氨酸)的含量。经 MPH 处理的大鼠纹状体中谷氨酸摄取和 Na+,K+-ATPase 活性降低,ATP 水平升高,这是谷氨酸能兴奋毒性的指标。此外,MPH 还会引起脂质过氧化和硝化应激,增加 TNF α 的表达,诱导高水平的星形胶质细胞,并导致 BDNF 水平下降。总之,我们的研究结果表明,早期长期使用 MPH 会诱导纹状体中与损伤相关的通路平行激活,并增加其在青少年时期的脆弱性。此外,本文提供的数据有助于揭示MPH诱导纹状体损伤的机制及其对神经发育障碍的潜在影响。
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来源期刊
Neurotoxicity Research
Neurotoxicity Research 医学-神经科学
CiteScore
7.70
自引率
5.40%
发文量
164
审稿时长
6-12 weeks
期刊介绍: Neurotoxicity Research is an international, interdisciplinary broad-based journal for reporting both basic and clinical research on classical neurotoxicity effects and mechanisms associated with neurodegeneration, necrosis, neuronal apoptosis, nerve regeneration, neurotrophin mechanisms, and topics related to these themes. Published papers have focused on: NEURODEGENERATION and INJURY Neuropathologies Neuronal apoptosis Neuronal necrosis Neural death processes (anatomical, histochemical, neurochemical) Neurodegenerative Disorders Neural Effects of Substances of Abuse NERVE REGENERATION and RESPONSES TO INJURY Neural Adaptations Neurotrophin mechanisms and actions NEURO(CYTO)TOXICITY PROCESSES and NEUROPROTECTION Excitatory amino acids Neurotoxins, endogenous and synthetic Reactive oxygen (nitrogen) species Neuroprotection by endogenous and exogenous agents Papers on related themes are welcome.
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