Impairment of neuromotor development and cognition associated with histopathological and neurochemical abnormalities in the cerebral cortex and striatum of glutaryl-CoA dehydrogenase deficient mice

IF 4.4 3区 医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Neurochemistry international Pub Date : 2024-11-08 DOI:10.1016/j.neuint.2024.105898
Ediandra Tissot Castro , Rafael Teixeira Ribeiro , Andrey Vinicios Soares Carvalho , Diorlon Nunes Machado , Ângela Beatris Zemniaçak , Rafael Palavro , Sâmela de Azevedo Cunha , Tailine Quevedo Tavares , Diogo Onofre Gomes de Souza , Carlos Alexandre Netto , Guilhian Leipnitz , Alexandre Umpierrez Amaral , Moacir Wajner
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Abstract

Patients with glutaric acidemia type I (GA I) manifest motor and intellectual disabilities whose pathogenesis has been so far poorly explored. Therefore, we evaluated neuromotor and cognitive abilities, as well as histopathological and immunohistochemical features in the cerebral cortex and striatum of glutaryl-CoA dehydrogenase (GCDH) deficient knockout mice (Gcdh−/−), a well-recognized model of GA I. The effects of a single intracerebroventricular glutaric acid (GA) injection in one-day-old pups on the same neurobehavioral and histopathological/immunohistochemical endpoints were also investigated. Seven-day-old Gcdh−/− mice presented altered gait, whereas those receiving a GA neonatal administration manifested other sensorimotor deficits, including an abnormal response to negative geotaxis, cliff aversion and righting reflex, and muscle tone impairment. Compared to the WT mice, adult Gcdh−/− mice exhibited motor impairment, evidenced by poor performance in the Rota-rod test. Furthermore, neonatal GA administration provoked long-standing short- and long-term memory impairment in adult Gcdh−/− mice. Regarding the histopathological features, a significant increase in vacuoles and neurodegenerative cells was observed in both the cerebral cortex and striatum of 15- and 60-day-old Gcdh−/− mice and was more pronounced in mice injected with GA. Neuronal loss (decrease of NeuN staining) was also significantly increased in the cerebral cortex and striatum of Gcdh−/− mice, particularly in those neonatally injected with GA. In contrast, immunohistochemistry of MBP, astrocytic proteins GFAP and S100B, and the microglial marker Iba1 was not changed in 60-day-old Gcdh−/− mice, suggesting no myelination disturbance, reactive astrogliosis, and microglia activation, respectively. These data highlight the neurotoxicity of GA and the importance of early treatment aiming to decrease GA accumulation at early stages of development to prevent brain damage and learning/memory disabilities in GA I patients.
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谷氨酰-CoA脱氢酶缺乏症小鼠大脑皮层和纹状体中与组织病理学和神经化学异常相关的神经运动发育和认知能力受损。
戊二酸血症 I 型(GA I)患者表现为运动和智力障碍,其发病机制迄今为止尚未得到深入研究。因此,我们评估了谷草酰-CoA脱氢酶(GCDH)缺陷基因敲除小鼠(Gcdh-/-)的神经运动和认知能力以及大脑皮层和纹状体的组织病理学和免疫组化特征。我们还研究了对出生一天的幼鼠脑室内注射一次戊二酸(GA)对相同的神经行为和组织病理学/免疫组化终点的影响。七日龄的 Gcdh-/- 小鼠步态发生改变,而那些接受 GA 新生儿给药的小鼠则表现出其他感觉运动缺陷,包括对负向地轴、悬崖厌恶和向右转反射的异常反应,以及肌张力损伤。与 WT 小鼠相比,成年 Gcdh-/- 小鼠表现出运动障碍,这体现在罗盘杆试验中的不良表现。此外,新生儿给予GA会引起成年Gcdh-/-小鼠长期的短期和长期记忆障碍。在组织病理学特征方面,在15天和60天大的Gcdh-/-小鼠的大脑皮层和纹状体中都观察到空泡和神经退行性细胞显著增加,在注射GA的小鼠中更为明显。在 Gcdh-/- 小鼠的大脑皮层和纹状体中,神经元丢失(NeuN 染色减少)也显著增加,尤其是在新生儿注射 GA 的小鼠中。与此相反,在 60 天大的 Gcdh-/- 小鼠中,MBP、星形胶质细胞蛋白 GFAP 和 S100B 以及小胶质细胞标记物 Iba1 的免疫组化结果没有变化,这分别表明没有髓鞘化紊乱、反应性星形胶质细胞增生和小胶质细胞活化。这些数据突显了GA的神经毒性以及早期治疗的重要性,早期治疗旨在减少GA在发育早期的积累,以防止GA I患者的脑损伤和学习/记忆障碍。
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来源期刊
Neurochemistry international
Neurochemistry international 医学-神经科学
CiteScore
8.40
自引率
2.40%
发文量
128
审稿时长
37 days
期刊介绍: Neurochemistry International is devoted to the rapid publication of outstanding original articles and timely reviews in neurochemistry. Manuscripts on a broad range of topics will be considered, including molecular and cellular neurochemistry, neuropharmacology and genetic aspects of CNS function, neuroimmunology, metabolism as well as the neurochemistry of neurological and psychiatric disorders of the CNS.
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