Exposure to Sunset Yellow FCF since post-weaning causes hippocampal structural changes and memory impairment in the adult rat: The neuroprotective effects of Coenzyme Q10

IF 1.7 4区医学 Q3 DEVELOPMENTAL BIOLOGY

International Journal of Developmental Neuroscience Pub Date : 2024-11-08 DOI:10.1002/jdn.10385

Seyed Reza Mousavi, Maryam Shadravanan, Majid Reza Farrokhi, Fatemeh Karimi, Narges Karbalaei, Melika Arzhang zadeh, Maryam Naseh

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Abstract

Background

This study aimed to investigate whether exposure to Sunset Yellow FCF (SY) since post-weaning can lead to hippocampal structural changes and memory impairment in adult rat and whether the Coenzyme Q10 (CoQ10) can protect against these adverse effects.

Methods

The weanling rats were randomly divided into six groups and were treated daily by oral gavage for 6 weeks, as follows: (I) control group, administered distilled water (0.3 mL/100 g/day); (II) CoQ10 group, received 10 mg/kg/day CoQ10; (III) low SY group, received 2.5 mg/kg/day SY; (IV) high SY group, received 70 mg/kg/day SY; (V) low SY + CoQ10 group; and (VI) high SY + CoQ10 group. At the end of the sixth week, the novel object recognition (NOR) test was conducted to evaluate memory. Then, after sacrificing animals, the cerebral hemispheres were removed for stereological study and evaluation of MDA levels.

Results

The low and high doses of SY led to significant neuronal loss and a decrease in the volume of the hippocampus (CA1 and DG subregions), as well as increased the MDA level, which was associated with short- and long-term memory impairment. Although, administration of CoQ10 prevented the hippocampal neural loss and volume, and caused a reduction in MDA and improved memory in the low and high SY groups.

Conclusion

It seems that CoQ10 could prevent the neuronal loss and hippocampal atrophy caused by post-weaning exposure to SY through preventing oxidative stress, ultimately improving memory impairment in rats.

Abstract Image

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成年大鼠断奶后接触日落黄FCF会导致海马结构变化和记忆损伤：辅酶Q10的神经保护作用。

研究背景本研究旨在探讨成年大鼠断奶后暴露于日落黄FCF（SY）是否会导致海马结构变化和记忆损伤，以及辅酶Q10（CoQ10）是否可以防止这些不良影响：将断奶大鼠随机分为6组，每天口服，连续6周：(I)对照组，给予蒸馏水（0.3 mL/100 g/天）；(II)CoQ10组，给予10 mg/kg/天的CoQ10；(III)低SY组，给予2.5 mg/kg/天的SY；(IV)高SY组，给予70 mg/kg/天的SY；(V)低SY + CoQ10组；(VI)高SY + CoQ10组。第六周结束时，进行新物体识别（NOR）测试以评估记忆力。然后，动物被处死后，取出大脑半球进行立体学研究并评估 MDA 水平：结果：低剂量和高剂量的SY均导致海马（CA1和DG亚区）神经元大量丢失，体积缩小，MDA水平升高，这与短期和长期记忆损伤有关。尽管如此，服用辅酶Q10后，低SY组和高SY组的海马神经损失和海马体积减少，MDA降低，记忆力改善：结论：看来辅酶Q10可以通过防止氧化应激防止断奶后暴露于SY引起的神经元损失和海马萎缩，最终改善大鼠的记忆损伤。

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来源期刊

International Journal of Developmental Neuroscience 医学-发育生物学

CiteScore

3.30

自引率

5.60%

发文量

审稿时长

6-12 weeks

期刊介绍： International Journal of Developmental Neuroscience publishes original research articles and critical review papers on all fundamental and clinical aspects of nervous system development, renewal and regeneration, as well as on the effects of genetic and environmental perturbations of brain development and homeostasis leading to neurodevelopmental disorders and neurological conditions. Studies describing the involvement of stem cells in nervous system maintenance and disease (including brain tumours), stem cell-based approaches for the investigation of neurodegenerative diseases, roles of neuroinflammation in development and disease, and neuroevolution are also encouraged. Investigations using molecular, cellular, physiological, genetic and epigenetic approaches in model systems ranging from simple invertebrates to human iPSC-based 2D and 3D models are encouraged, as are studies using experimental models that provide behavioural or evolutionary insights. The journal also publishes Special Issues dealing with topics at the cutting edge of research edited by Guest Editors appointed by the Editor in Chief. A major aim of the journal is to facilitate the transfer of fundamental studies of nervous system development, maintenance, and disease to clinical applications. The journal thus intends to disseminate valuable information for both biologists and physicians. International Journal of Developmental Neuroscience is owned and supported by The International Society for Developmental Neuroscience (ISDN), an organization of scientists interested in advancing developmental neuroscience research in the broadest sense.