7,8-二羟基黄酮和4'-二甲氨基-7,8-二羟基黄酮的药代动力学性质及理论化学活性研究

IF 0.7 4区医学 Q4 PHARMACOLOGY & PHARMACY

Current Pharmaceutical Analysis Pub Date : 2023-03-13 DOI:10.2174/1573412919666230313143549

O. Korkmaz, M. F. Karakaya, Faik Gokalp, E. Şener

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引用次数: 0

摘要

黄酮类化合物作为次生代谢产物天然存在于植物中。在本研究中，目的是测定和比较7，8-二羟基黄酮（7，8-DHF）和4’-二甲基氨基-7,8-二羟基黄酮的理论和体内化学活性，4’-DMA-7,8-DHF是酪氨酸受体激酶B（TrkB）受体激动剂黄酮分子，据报道具有强大的神经保护作用。BDNF被认为是通过其受体TrkB对抗神经系统疾病的有效治疗剂。然而，BDNF的药代动力学特性较差，不能穿过血脑屏障。研究表明，7,8-DHF和4'-DMA-7,8-DHF可以结合并激活TrkB受体，并通过血脑屏障。人们认为，4’’-DMA-7,8-DHF可能比7,8-DHF更有效，因为在较低浓度下具有较强的TrkB活性并支持神经发生。然而，目前还没有对此进行详细的研究。理论化学分析采用了这种方法。在体内研究中，6个月大的Wistar大鼠分为两组（n=8）。7，8-DHF和4’-DMA-7,8-DHF（5mg/kg）腹膜内（ip）给药。然后，通过颈动脉导管插入术收集血浆样本，并通过微透析技术同时收集清醒大鼠的脑样本12小时。分析血液和脑样品中7,8-DHF和4'-DMA-7,8-DHF的水平，并测定其药代动力学。黄酮类化合物作为次生代谢产物天然存在于植物中。在本研究中，目的是测定和比较7，8-DHF和4’-DMA-7,8-DHF，酪氨酸受体激酶B（TrkB）受体激动剂类黄酮分子的理论和体内化学活性，这些分子具有强大的神经保护作用。理论计算表明，7,8-DHF比4'-DMA-7,8-DHF更稳定。体内药代动力学结果显示，7,8-DHF的最大浓度约为48 ng/mL，而4'-DMA-7，8-DHF仅为8 ng/mL。我们的结果表明，4'-DMA-7,8-DHF比7,8-DHF.更不稳定，更容易与TrkB结合。另一方面，体内药代动力学结果表明，当以治疗浓度全身应用时，7,8-DHF比4'-DMA-7,8-DHF更稳定。理论计算表明，7,8-DHF比4'-DMA-7,8-DHF更稳定。体内药代动力学结果表明，7,8-DHF的最大浓度约为48ng/mL，而4'-DMA-7，8-DHF.的最大浓度仅为8ng/mL。7.8-DHF似乎更适合药理学应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Investigation of the Pharmacokinetic Properties and Theoretical Chemical Activities of 7,8-Dihydroxyflavone and 4'-Dimethylamino-7,8-Dihydroxyflavone

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Investigation of the Pharmacokinetic Properties and Theoretical Chemical Activities of 7,8-Dihydroxyflavone and 4'-Dimethylamino-7,8-Dihydroxyflavone

Flavonoids naturally exist in plants as secondary metabolites. In this study, the aim is to determine and compare the theoretical and in vivo chemical activities of 7,8-dihydroxyflavone (7,8-DHF) and 4'dimethylamino-7,8-dihydroxyflavone (4’-DMA-7,8-DHF), tyrosine receptor kinase B (TrkB) receptor agonist flavonoid molecules with reported potent neuroprotective effects. BDNF has been thought to be a potent therapeutic agent against neurological disorders via its receptor TrkB. However, BDNF has poor pharmacokinetic properties and cannot cross the blood-brain barrier. It has been demonstrated that 7,8-DHF and 4''-DMA-7,8-DHF can bind and activate TrkB receptors and pass the blood-brain barrier. It has been thought that 4''-DMA-7,8-DHF may be more potent than 7,8-DHF due to strong TrkB activity and supporting neurogenesis at lower concentrations. However, there is no detailed study on this yet. method was used for the theoretical chemical analysis. For the in vivo studies, 6-month-old Wistar rats were used in two groups (n=8). 7,8-DHF and 4’-DMA-7,8-DHF (5 mg/kg) were administered intraperitoneally (ip) to each group. Then, plasma samples were collected by carotid catheterization, and brain samples by the microdialysis technique were collected simultaneously for 12 h from awake rats. The level of 7,8-DHF and 4’-DMA-7,8-DHF in blood and brain samples were analyzed and their pharmacokinetics were determined. Flavonoids naturally exist in plants as seconder metabolites. In this study, the aim is to determine and compare the theoretical and in vivo chemical activities of 7,8-DHF and 4’-DMA-7,8-DHF, tyrosine receptor kinase B (TrkB) receptor agonist flavonoid molecules with reported potent neuroprotective effects. Theoretical calculations show that 7,8-DHF is slightly more stable than 4’-DMA-7,8-DHF. The in vivo pharmacokinetic results show that the maximum concentration of 7,8-DHF was about 48 ng/mL, whereas it was only 8 ng/mL for 4’-DMA-7,8-DHF. Our results suggest that the 4'-DMA-7,8-DHF is more unstable and is more prone to binding to TrkB than 7,8-DHF. On the other hand, the in vivo pharmacokinetic results show that 7,8-DHF is more stable than 4’-DMA-7,8-DHF when it is applied systemically at therapeutic concentrations. Theoretical calculations show that 7,8-DHF is slightly more stable than 4’-DMA-7,8-DHF. The in vivo pharmacokinetic results show that the maximum concentration of 7,8-DHF was about 48 ng/mL, whereas it was only 8 ng/mL for 4’-DMA-7,8-DHF. 7.8-DHF seems more suitable for pharmacological applications.

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来源期刊

Current Pharmaceutical Analysis 医学-药学

CiteScore

1.50

自引率

0.00%

发文量

审稿时长

3 months

期刊介绍： Aims & Scope Current Pharmaceutical Analysis publishes expert reviews and original research articles on all the most recent advances in pharmaceutical and biomedical analysis. All aspects of the field are represented including drug analysis, analytical methodology and instrumentation. The journal is essential to all involved in pharmaceutical, biochemical and clinical analysis.