Biosynthesis, characterization and antivenom activities of Moringa oleifera silver nanoparticles: an experimental approach

Zoologist (The) Pub Date : 2024-04-07 DOI:10.4314/tzool.v23i1.4

A. Adeyi, T. O. Olowookorun, B. S. Ajisebiola, H. A. Labulo, O. Adeyi, H. Ibrahim

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Abstract

Moringa oleifera has been previously established to possess neutralizing potentials against Echis ocellatus venom. This study however, investigated the bioefficacy of silver nanoparticles biosynthesized from M. oleifera leaf extract aimed at improving its bioactivity against E. ocellatus venom-induced toxicities using in vivo and in vitro methods. The intrinsic characteristics of the produced M. oleifera-Silver nanoparticles (MO-AgNPs) were carried out using energy dispersive X-ray, X-ray diffraction, scanning electron microscopy, transmission electron microscopy and Fourier-transform infrared spectroscopy. Twenty-five male Wistar rats divided randomly into five groups (n=5) were used for the antivenom study. Group 1 received saline while groups 2 to 5 were envenomed intraperitoneally with 0.22mg/kg (LD50) of E. ocellatus venom. Group 2 was left untreated while groups 3 to 5 were treated with 0.2ml of antivenom, 5 and 10mg/kg MO-AgNPs post-envenomation, respectively. Blood and tissue of treated rats were analyzed for heamatological parameters and histopathology, respectively. The MO-AgNPs formation was confirmed with a colour change from light brown to yellowish-brown with maximum SPR band at 420nm from UV-Vis analysis, indicating a reflection of the bio-reduction of Ag+ to Ag0. The Transmission electron micrographs showed well dispersed spherical AgNPs with average particle size of 15.7nm. Treatment with MO-AgNPs caused a significant improvement of acute anemia, leucopenia and thrombocytopenia induced by the venom in the envenomed treated rats. Also, MO-AgNPs inhibited the haemorrhagic, haemolytic and anticoagulant activities of the venom. Tissue lesions observed in heart of envenomed untreated rats were attenuated after treatment with MO-AgNPs. The biosynthesized MO-AgNPs exhibited potent neutralizing potentials than M. oleifera crude extract against E. ocellatus venom toxicities.

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油杉银纳米粒子的生物合成、表征和抗蛇毒血清活性：一种实验方法

先前已证实油杉叶具有中和 Echis ocellatus 毒液的潜力。然而，本研究采用体内和体外方法，研究了从油橄榄叶提取物中生物合成的银纳米粒子的生物功效，旨在提高其生物活性，以对抗E. ocellatus毒液引起的毒性。利用能量色散 X 射线、X 射线衍射、扫描电子显微镜、透射电子显微镜和傅立叶变换红外光谱分析了所制备的油橄榄叶提取物-银纳米粒子（MO-AgNPs）的内在特征。25 只雄性 Wistar 大鼠被随机分为 5 组（n=5）进行抗蛇毒血清研究。第 1 组接受生理盐水，第 2 至第 5 组腹腔注射 0.22 毫克/千克（半数致死剂量）的 E. ocellatus 毒液。第 2 组不作处理，而第 3 至第 5 组则在毒液注入后分别使用 0.2 毫升抗蛇毒血清、5 毫克/千克和 10 毫克/千克 MO-AgNPs 进行处理。对处理过的大鼠的血液和组织分别进行了血液学参数和组织病理学分析。在紫外-可见分析中，MO-AgNPs 的颜色从浅棕色变为黄棕色，在 420 纳米波长处有最大 SPR 带，表明 Ag+ 被生物还原成 Ag0。透射电子显微镜照片显示，AgNPs 呈分散良好的球形，平均粒径为 15.7 纳米。使用 MO-AgNPs 治疗后，毒液引起的大鼠急性贫血、白细胞减少和血小板减少症状明显改善。此外，MO-AgNPs 还能抑制毒液的出血、溶血和抗凝活性。使用 MO-AgNPs 处理后，在未经处理的被毒杀大鼠心脏中观察到的组织病变有所减轻。与 M. oleifera 粗提取物相比，生物合成的 MO-AgNPs 对 E. ocellatus 毒液毒性的中和潜力更强。

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