<i>In Silico</i> and <i>In Vivo</i>: Evaluating the Therapeutic Potential of Kaempferol, Quercetin, and Catechin to Treat Chronic Epilepsy in a Rat Model

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Abstract

Recently, alternative therapies are gaining popularity in the treatment of epilepsy. The present study aimed to find out the antiepileptic potential of quercetin, catechin, and kaempferol. In vivo and in silico experiments were conducted to investigate their therapeutic potential. 25 mg/kg/day of pentylenetetrazole was administered for 4 weeks after epilepsy was induced in the rats; this was followed by the behavioral studies and histological analysis of rat brain slices. Binding affinities of kaempferol, quercetin, and catechin were assessed by performing in silico studies. Kaempferol, quercetin, and catechin were found to have the highest binding affinity with the synaptic vesicle 2A (SV2A) protein, comparable to standard levetiracetam (LEV). The mRNA levels of SV2A, as well as the expression of TNF, IL 6, IL 1 beta, NFkB, IL 1Ra, IL 4, and IL 10, were investigated using qPCR. Our results indicate for the first time that SV2A is also a transporter of understudied phytoflavonoids, due to which a significant improvement was observed in epileptic parameters. The mRNA levels of SV2A were found to be significantly elevated in the PF-treated rats when compared with those of the control rats with epilepsy. Additionally, downregulation of the pro-inflammatory cytokines and upregulation of the anti-inflammatory cytokines were also noted in the PF-treated groups. It is concluded that kaempferol, quercetin, and catechin can effectively decrease the epileptic seizures in our chronic epilepsy rat model to a level that is comparable to the antiepileptic effects induced by levetiracetam drug.

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R. A. Laskowski, M. W. MacArthur, D. Moss … (1993)

Journal of Applied Crystallography, 26(2), 283-291

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The role of inflammation in epilepsy.

Annamaria Vezzani, Jacqueline French, Tamas Bartfai … (2011)

Epilepsy is the third most common chronic brain disorder, and is characterized by an enduring predisposition to generate seizures. Despite progress in pharmacological and surgical treatments of epilepsy, relatively little is known about the processes leading to the generation of individual seizures, and about the mechanisms whereby a healthy brain is rendered epileptic. These gaps in our knowledge hamper the development of better preventive treatments and cures for the approximately 30% of epilepsy cases that prove resistant to current therapies. Here, we focus on the rapidly growing body of evidence that supports the involvement of inflammatory mediators-released by brain cells and peripheral immune cells-in both the origin of individual seizures and the epileptogenic process. We first describe aspects of brain inflammation and immunity, before exploring the evidence from clinical and experimental studies for a relationship between inflammation and epilepsy. Subsequently, we discuss how seizures cause inflammation, and whether such inflammation, in turn, influences the occurrence and severity of seizures, and seizure-related neuronal death. Further insight into the complex role of inflammation in the generation and exacerbation of epilepsy should yield new molecular targets for the design of antiepileptic drugs, which might not only inhibit the symptoms of this disorder, but also prevent or abrogate disease pathogenesis.

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A rotarod test for evaluation of motor skill learning.

Hiromi Shiotsuki, Kenji Yoshimi, Yasushi Shimo … (2010)

The rotarod test is widely used to evaluate the motor coordination of rodents, and is especially sensitive in detecting cerebellar dysfunction. However, mice with striatal dopamine depletion show only mild or no motor deficit on the typical accelerating rotarod. This suggests that dopamine-depleted mice are useful as animal models for non-motor symptoms, because the influence of motor deficit is minimum and easy to discriminate from cognitive aspects of the behavioral change. The typical accelerating rotarod test is designed to evaluate maximal motor performance and is not optimized to detect motor skill learning. In an attempt to make the test more selective to motor skill learning rather than maximal gait performance, we modified the rotarod test by using a slowly rotating large drum to obtain a steep learning curve. Furthermore, administration of nomifensine, a dopamine uptake inhibitor, improved the learning. On the other hand, apomorphine, an agonist of dopamine autoreceptor, a dopaminergic toxin, 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) impaired the learning. These pharmacological profiles fit the involvement of the so-called phasic dopamine neurotransmission. Using our modified procedure, we found impaired learning of Parkin-deficit mice, which has not been detected in typical accelerating rotarod. The modified rotarod test would be useful for evaluation of dopamine involvement in the acquisition of motor skill learning. Copyright (c) 2010 Elsevier B.V. All rights reserved.

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Contributors

Hammad Ahmed: URI : https://loop.frontiersin.org/people/1433172/overview

Mahtab Ahmad Khan: URI : https://loop.frontiersin.org/people/1526399/overview

Syed Awais Ali Zaidi: URI : https://loop.frontiersin.org/people/364029/overview

Sajjad Muhammad: URI : https://loop.frontiersin.org/people/850206/overview

Journal

Journal ID (nlm-ta): Front Bioeng Biotechnol

Journal ID (iso-abbrev): Front Bioeng Biotechnol

Journal ID (publisher-id): Front. Bioeng. Biotechnol.

Title: Frontiers in Bioengineering and Biotechnology

Publisher: Frontiers Media S.A.

ISSN (Electronic): 2296-4185

Publication date (Electronic): 04 November 2021

Publication date Collection: 2021

Volume: 9

Electronic Location Identifier: 754952

Affiliations

[ ¹ ]Faculty of Pharmacy, The University of Lahore, Defence Road Campus, Lahore, Pakistan

[ ² ]Imran Idrees College of Pharmacy, Sialkot, Pakistan

[ ³ ]Faculty of Pharmacy, University of Central Punjab, Lahore, Pakistan

[ ⁴ ]Department of Neurosurgery, Medical Faculty, Heinrich-Heine University of Düsseldorf, Düsseldorf, Germany

[ ⁵ ]Department of Neurosurgery, University of Helsinki and University Hospital, Helsinki, Finland

Author notes

Edited by: Panagiotis Madesis, University of Thessaly, Greece

Reviewed by: Enes Akyuz, University of Health Sciences (Turkey), Turkey

Uday Praful Kundap, University of Montreal Hospital Centre (CRCHUM), Canada

*Correspondence: Sajjad Muhammad, sajjad.muhammad@ 123456med.uni-duesseldorf.de

[ † ]

These authors have contributed equally to this work

[ ‡ ]

These authors share first authorship

This article was submitted to Industrial Biotechnology, a section of the journal Frontiers in Bioengineering and Biotechnology

Article

Publisher ID: 754952

DOI: 10.3389/fbioe.2021.754952

PMC ID: 8599161

PubMed ID: 34805114

SO-VID: f1345c10-6d19-42cf-aa63-6390a8fecc67

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This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

In Silico and In Vivo: Evaluating the Therapeutic Potential of Kaempferol, Quercetin, and Catechin to Treat Chronic Epilepsy in a Rat Model

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Abstract

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Animal models of intrauterine growth restriction (IUGR)

Most cited references 71

PROCHECK: a program to check the stereochemical quality of protein structures

The role of inflammation in epilepsy.

A rotarod test for evaluation of motor skill learning.

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