硒纳米粒子对环磷酰胺诱导雄性大鼠海马神经毒性的改善作用：光镜、电镜和免疫组织化学研究。

Ameliorating effect of selenium nanoparticles on cyclophosphamide-induced hippocampal neurotoxicity in male rats: light, electron microscopic and immunohistochemical study.

机构信息

Department of Anatomy and Embryology, Faculty of Medicine, Ain Shams University, Cairo, Egypt.

Department of Dairy Science, Faculty of Agriculture, Kaferelshikh University, Kaferelshikh, Kaferelshikh, Egypt.

出版信息

Folia Morphol (Warsz). 2021;80(4):806-819. doi: 10.5603/FM.a2020.0117. Epub 2020 Oct 21.

DOI:10.5603/FM.a2020.0117

PMID:33084015

Abstract

BACKGROUND

Cyclophosphamide (CPH) is a widely used chemotherapeutic drug that can affect the hippocampal neurocytes with a subsequent effect on memory and cognitive functions. Nanomedicine has the potential to overcome the current chemotherapeutic side effects, because of the unique nanoscale size and distinctive bioeffects of nanomaterials. So, the present study aims to investigate the potential ameliorative effect of the biologically synthesized nano-selenium (nano-Se) on CPH induced hippocampal neurotoxicity.

MATERIALS AND METHODS

Twenty four rats were randomly classified into four groups of 6 rats each: control group, nano-Se group (dose of 0.5 mg biological nano-Se/kg daily via oral gavage), CPH group (dose of 20 mg CPH/kg daily intraperitoneally), and CPH plus nano-Se group. After 4 weeks, the rats were sacrificed and the hippocampus was excised and processed. Sections were stained with haematoxylin and eosin stain and immunohistochemically stained for caspase-3 (apoptosis marker) and glial fibrillary acidic protein (astrocytic activity marker) (GFAP). Morphometric analysis and transmission electron microscopic (TEM) examination were also done.

RESULTS

Control and nano-Se groups revealed no structural changes. By light microscopy, CPH group showed degeneration and necrosis of hippocampal neurocytes, significantly reduced thickness of the neurocyte cell layers, increased expression of GFAP and caspase-3 immunostains and significantly elevated apoptotic index. Moreover, neurocytes damage, mitochondrial cristeolysis, mild dilation of rough endoplasmic reticulum, and disrupted neurolemmal sheaths of nerve fibres were also demonstrated by TEM. Nano-Se cotreatment in the fourth group reversed all the aforementioned deleterious changes that induced by CPH in the hippocampal neurocytes.

CONCLUSIONS

Treatment with CPH caused damage to hippocampal neurocytes that can be reversed by biological nano-Se co-treatment.

摘要

背景

环磷酰胺（CPH）是一种广泛应用的化疗药物，可影响海马神经元，进而影响记忆和认知功能。纳米医学具有克服当前化疗副作用的潜力，因为纳米材料具有独特的纳米级尺寸和独特的生物效应。因此，本研究旨在探讨生物合成纳米硒（nano-Se）对 CPH 诱导的海马神经毒性的潜在改善作用。

材料和方法

将 24 只大鼠随机分为 4 组，每组 6 只：对照组、nano-Se 组（每天通过口服给予 0.5mg 生物纳米硒/kg）、CPH 组（每天腹腔内给予 20mg CPH/kg）和 CPH+nano-Se 组。4 周后，处死大鼠，取出海马并进行处理。用苏木精和伊红染色和 caspase-3（凋亡标志物）和胶质纤维酸性蛋白（星形胶质细胞活性标志物）（GFAP）免疫组织化学染色对切片进行染色。还进行了形态计量学分析和透射电子显微镜（TEM）检查。

结果

对照组和 nano-Se 组未见结构变化。光镜下，CPH 组显示海马神经元变性和坏死，神经细胞层厚度明显减少，GFAP 和 caspase-3 免疫染色表达增加，凋亡指数显著升高。此外，TEM 还显示神经细胞损伤、线粒体嵴溶解、粗面内质网轻度扩张以及神经纤维神经鞘破裂。第四组的 nano-Se 共同治疗逆转了 CPH 诱导的海马神经元的所有上述有害变化。

结论

CPH 治疗导致海马神经元损伤，生物纳米硒共同治疗可逆转这种损伤。

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硒纳米粒子对环磷酰胺诱导雄性大鼠海马神经毒性的改善作用：光镜、电镜和免疫组织化学研究。

Ameliorating effect of selenium nanoparticles on cyclophosphamide-induced hippocampal neurotoxicity in male rats: light, electron microscopic and immunohistochemical study.

机构信息

出版信息

BACKGROUND

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

背景

材料和方法

结果

结论

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