ANTIPLASMODIAL ACTIVITIES OF THE STEM BARK EXTRACT OF ARTOCARPUS ALTILIS FORSBERG.

Q4 Medicine

African Journal of Infectious Diseases Pub Date : 2022-08-17 eCollection Date: 2022-01-01 DOI:10.21010/Ajid.v16i2S.5

Aladesanmi, Adetunji Joseph, Odiba, Ogu Emmanuel, Odediran, Samuel Akintunde, Oriola, Ayodeji Olubunmi

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引用次数: 1

Abstract

Background: The potential of Artocarpus altilis stem bark as a safe antimalarial agent, and the identification of its antimalarial constituents was explored.

Materials and methods: The air-dried stem bark was extracted with 70% ethanol, filtered and concentrated in vacuo to obtain the extract (EE). The extract was successively partitioned to give n-hexane (AAH), dichloromethane (AAD), ethyl acetate (AAE) n-butanol (AAB) and aqueous (AAQ) fractions respectively after determining the acute toxicity using Lorke's method. These were each evaluated for chemosuppressive antimalarial activities (0-200mg/kg) against chloroquine-sensitive Plasmodium berghei-berghei-infected albino mice. Normal saline and chloroquine, 10 mg/kg were negative and positive control respectively.The survival times and percentage survivors of the mice in both experiments were determined after observation for twenty-eight days post-drug administration. The five (5) column chromatographic (CC) fractions, AAH1, AAH2, AAH3, AAH4 and AAH5 obtained from the most active AAH, were also evaluated for antimalarial activities (0-50mg/kg). Further column purification and repeated PTLC of AAH5 yielded three bands, which were finally subjected to GC-MS analysis.

Results: EE gave ED₅₀ and LD₅₀ values of 227.17and >5000 mg/kg while its partitioned fractions gave ED₅₀ values as follows: AAH, 79.14; AAD, 215.59; AAE, 160.46, AAB, .42; and AAQ, 90.85 mg/kg respectively. The primary CC fractions also gave ED ₅₀ values as follows: AAH1 21.95; AAH2, 26.96; AAH3, 21.30; AAH4, 20.92 and AAH5, 20.75 mg/kg respectively to identify AAH5 as the putative fraction. GC-MS analysis revealed eleven major compounds (1-11) in the three PTLC bands as the antiplasmodial constituents of the plant.

Conclusion: The stem bark of A. altilis is a potential agent in malaria control which is safe for oral use.

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山竹茎皮提取物的抗疟原虫活性研究。

背景:研究了高鼻梁茎皮作为一种安全的抗疟药物的潜力，并对其抗疟成分的鉴定进行了探讨。材料与方法:将风干的茎皮用70%乙醇提取，过滤后真空浓缩得到提取物(EE)。采用洛克法测定急性毒性后，将提取液依次拆分为正己烷(AAH)、二氯甲烷(AAD)、乙酸乙酯(AAE)、正丁醇(AAB)和水(AAQ)馏分。对每一种药物(0-200mg/kg)对氯喹敏感的伯氏疟原虫感染的白化小鼠进行化学抑制抗疟活性评估。阴性对照为生理盐水，阳性对照为氯喹10 mg/kg。两组小鼠在给药后观察28天后的存活时间和存活率。对活性最高的AAH1、AAH2、AAH3、AAH4和AAH5 5个色谱柱进行抗疟活性评价(0 ~ 50mg/kg)。进一步对AAH5进行柱纯化和重复PTLC，得到三个波段，最后进行GC-MS分析。结果:EE的ED50和LD50值分别为227.17和>5000 mg/kg，其分割馏分的ED50值分别为:AAH, 79.14;法,215.59;Aae, 160.46, aab, 0.42;AAQ分别为90.85 mg/kg。初级CC分数的ed50值为:AAH1 21.95;AAH2 26.96;AAH3 21.30;AAH4为20.92 mg/kg, AAH5为20.75 mg/kg。GC-MS分析显示，3个PTLC波段的11个主要化合物(1-11)是该植物的抗疟原虫成分。结论:高连翘茎皮是一种有潜力的防疟剂，口服用药安全。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

African Journal of Infectious Diseases Medicine-Infectious Diseases

CiteScore

1.60

自引率

0.00%

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