纳米姜黄素与姜黄素对抗尼古丁诱导并发症的疗效比较

Pub Date : 2022-07-04 DOI:10.1080/22311866.2022.2120074
A. Samanta, K. Chattopadhyay, S. Biswas, B. Paul, B. Chattopadhyay
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引用次数: 0

摘要

长期接触尼古丁会严重影响免疫系统。尼古丁成瘾的妇女更易患病,因为她们曾患过几种疾病或易患与尼古丁有关的发病率和死亡率。纳米姜黄素在尼古丁成瘾妇女中的有益用途尚不清楚,可能是由于其药代动力学差和生物利用度有限。应用纳米姜黄素研究尼古丁暴露雌性大鼠的免疫保护作用。采用褐家鼠(Rattus norvegicus) Wistar品系雌性白化大鼠注射尼古丁(2.5 mg/kg体重s.c.d,每日)21 d。3小时后口服纳米姜黄素(4mg /kg体重/天)。纳米姜黄素的剂量和周期采用我们早期在其他地方的出版物。治疗期结束后清除动物,从个体血清中测定免疫相关细胞因子、凋亡标志物、性激素等参数。通过对纳米姜黄素的分子对接以及与尼古丁和某些特定细胞蛋白的体外相互作用的研究,进一步了解纳米姜黄素的作用机制。纳米姜黄素通过调节免疫相关细胞因子和凋亡标志物的表达,减少蛋白质氧化,增强免疫系统。它有助于在尼古丁压力下维持细胞的性激素和蛋白质含量的健康水平。分子对接和体外相互作用表明,纳米姜黄素对尼古丁和多种细胞蛋白具有较高的结合能力。细胞因子、凋亡标记物和甾体生成激素受到尼古丁暴露的严重影响。生物可溶性纳米姜黄素作为一种重要的免疫调节剂,对雌性大鼠尼古丁诱导的并发症具有比姜黄素更好的保护作用。讨论了纳米姜黄素的强化治疗作用。
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Promising Efficacy of Nanocurcumin in Comparison to Curcumin Against Nicotine-induced Complications
Abstract Long-term exposure to nicotine severely affects the immune system. Nicotine-addicted women suffer more to diseases because of their history to several disorders or susceptibility to nicotine-related morbidity and mortality. The beneficial uses of nano-curcumin in nicotine-addicted women are still unknown, possibly due to its poor pharmacokinetics and limited bioavailability. Nanocurcumin is administered to study the immune-protective effects in nicotine exposed female rats. Female albino rats of Wistar strain (Rattus norvegicus) are nicotine injected (2.5 mg/kg bodyweights s.c., daily) for 21 days. Three hours later nanocurcumin is administered by oral gavages (4 mg/kg bodyweights/day). The dose and period of nanocurcumin is adopted from our earlier publications elsewhere. Animals are eradicated after the treatment period and immune-related cytokines, apoptotic markers, sex hormones and other parameters are measured from individual serum. Molecular docking, as well as, in vitro interactions of nanocurcumin with nicotine and some specific cellular proteins are measured for understanding the mechanism of action of nanocurcumin. Nanocurcumin reduced protein oxidation, augmented the immune system by regulating the expression of immunity-related cytokines and apoptotic markers. It helps maintaining the healthy levels of sex hormones and protein content of cells under nicotine-stressed condition. Molecular docking and in vitro interactions reveal that nanocurcumin possesses higher binding ability to nicotine and several cellular proteins. Cytokines, apoptotic markers and steroidogenic hormones are severely affected by nicotine exposure. Bio-soluble nanocurcumin acts as significant immune-modulator, which offers better protection than curcumin to female rats from nicotine-induced complications. Heightened therapeutic effects of nanocurcumin are discussed.
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