In Vitro and In Vivo Investigations of Chromone Derivatives as Potential Multitarget-Directed Ligands: Cognitive Amelioration Utilizing a Scopolamine-Induced Zebrafish Model

IF 4.1 3区医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY ACS Chemical Neuroscience Pub Date : 2024-05-25 DOI:10.1021/acschemneuro.4c00007

Naveen Kumar, Kailash Jangid, Vishal Kumar, Ravi Prakash Yadav, Jayapriya Mishra, Shubham Upadhayay, Vinay Kumar, Bharti Devi, Vijay Kumar, Ashish Ranjan Dwivedi, Puneet Kumar, Somesh Baranwal, Jasvinder Singh Bhatti and Vinod Kumar*,

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Abstract

Alzheimer’s disease is a complex neurological disorder linked with multiple pathological hallmarks. The interrelation of therapeutic targets assists in the enhancement of cognitive decline through interference with overall neuronal transmission. We have synthesized and screened various chromone derivatives as potential multitarget-directed ligands for the effective treatment of Alzheimer’s disease. The synthesized compounds exhibited multipotent activity against AChE, BuChE, MAO-B, and amyloid β aggregation. Three potent compounds, i.e., VN-3, VN-14, and VN-19 were identified that displayed remarkable activities against different targets. These compounds displayed IC₅₀ values of 80 nM, 2.52 μM, and 140 nM against the AChE enzyme, respectively, and IC₅₀ values of 2.07 μM, 70 nM, and 450 nM against the MAO-B isoform, respectively. VN-3 displayed potent activity against self-induced Aβ_1–42 aggregation with inhibition of 58.3%. In the ROS inhibition studies, the most potent compounds reduced the intracellular ROS levels up to 80% in SH-SY5Y cells at 25 μM concentration. The compounds were found to be neuroprotective and noncytotoxic even at a concentration of 25 μM against SH-SY5Y cells. In silico studies showed that the compounds were nicely accommodated in the active sites of the receptors along with thermodynamically stable orientations. Compound VN-19 exhibited a balanced multitargeting profile against AChE, BuChE, MAO-B, and Aβ_1–42 enzymes and was further evaluated for in vivo activities on the scopolamine-induced zebrafish model. VN-19 was found to ameliorate the cognitive decline in zebrafish brains by protecting them against scopolamine-induced neurodegeneration. Thus, VN-3, VN-14, and VN-19 were identified as potent multitarget-directed ligands with a balanced activity profile against different targets and can be developed as therapeutics for AD.

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作为潜在多靶点定向配体的铬酮衍生物的体外和体内研究：利用东莨菪碱诱导的斑马鱼模型改善认知。

阿尔茨海默病是一种复杂的神经系统疾病，具有多种病理特征。治疗靶点之间的相互关系有助于通过干扰整体神经元传递来改善认知能力的衰退。我们合成并筛选了各种铬酮衍生物，作为潜在的多靶点配体，用于有效治疗阿尔茨海默病。合成的化合物对 AChE、BuChE、MAO-B 和淀粉样蛋白 β 的聚集具有多重活性。研究发现，VN-3、VN-14 和 VN-19 这三种强效化合物对不同的靶点具有显著的活性。这些化合物对 AChE 酶的 IC50 值分别为 80 nM、2.52 μM 和 140 nM，对 MAO-B 同工酶的 IC50 值分别为 2.07 μM、70 nM 和 450 nM。VN-3 对自身诱导的 Aβ1-42 聚集具有强效活性，抑制率为 58.3%。在 ROS 抑制研究中，浓度为 25 μM 的最强化合物可使 SH-SY5Y 细胞中的细胞内 ROS 水平降低达 80%。即使在 25 μM 的浓度下，这些化合物对 SH-SY5Y 细胞也具有神经保护和无细胞毒性的作用。硅学研究表明，这些化合物能很好地进入受体的活性位点，并具有热力学稳定的取向。化合物 VN-19 对 AChE、BuChE、MAO-B 和 Aβ1-42 酶表现出平衡的多靶点特性，并在东莨菪碱诱导的斑马鱼模型上进一步评估了其体内活性。研究发现，VN-19 能保护斑马鱼大脑免受东莨菪碱诱导的神经变性的影响，从而改善其认知能力的下降。因此，VN-3、VN-14 和 VN-19 被鉴定为强效的多靶点配体，对不同靶点具有均衡的活性，可开发为治疗注意力缺失症的药物。

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来源期刊

ACS Chemical Neuroscience BIOCHEMISTRY & MOLECULAR BIOLOGY-CHEMISTRY, MEDICINAL

CiteScore

9.20

自引率

4.00%

发文量

323

审稿时长

1 months

期刊介绍： ACS Chemical Neuroscience publishes high-quality research articles and reviews that showcase chemical, quantitative biological, biophysical and bioengineering approaches to the understanding of the nervous system and to the development of new treatments for neurological disorders. Research in the journal focuses on aspects of chemical neurobiology and bio-neurochemistry such as the following: Neurotransmitters and receptors Neuropharmaceuticals and therapeutics Neural development—Plasticity, and degeneration Chemical, physical, and computational methods in neuroscience Neuronal diseases—basis, detection, and treatment Mechanism of aging, learning, memory and behavior Pain and sensory processing Neurotoxins Neuroscience-inspired bioengineering Development of methods in chemical neurobiology Neuroimaging agents and technologies Animal models for central nervous system diseases Behavioral research