Ahmed S. Al‐Shami scite author profile

Background γ-Aminobutyric acid sub-type A receptors (GABAARs) are the most prominent inhibitory neurotransmitter receptors in the CNS. They are a family of ligand-gated ion channel with significant physiological and therapeutic implications. Main body GABAARs are heteropentamers formed from a selection of 19 subunits: six α (alpha1-6), three β (beta1-3), three γ (gamma1-3), three ρ (rho1-3), and one each of the δ (delta), ε (epsilon), π (pi), and θ (theta) which result in the production of a considerable number of receptor isoforms. Each isoform exhibits distinct pharmacological and physiological properties. However, the majority of GABAARs are composed of two α subunits, two β subunits, and one γ subunit arranged as γ2β2α1β2α1 counterclockwise around the center. The mature receptor has a central chloride ion channel gated by GABA neurotransmitter and modulated by a variety of different drugs. Changes in GABA synthesis or release may have a significant effect on normal brain function. Furthermore, The molecular interactions and pharmacological effects caused by drugs are extremely complex. This is due to the structural heterogeneity of the receptors, and the existence of multiple allosteric binding sites as well as a wide range of ligands that can bind to them. Notably, dysfunction of the GABAergic system contributes to the development of several diseases. Therefore, understanding the relationship between GABAA receptor deficits and CNS disorders thus has a significant impact on the discovery of disease pathogenesis and drug development. Conclusion To date, few reviews have discussed GABAA receptors in detail. Accordingly, this review aims to summarize the current understanding of the structural, physiological, and pharmacological properties of GABAARs, as well as shedding light on the most common associated disorders.

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Astragalus species: Phytochemistry, biological actions and molecular mechanisms underlying their potential neuroprotective effects on neurological diseases

Elkader

Essawy

Al‐Shami

2022

Phytochemistry

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Prophylactic neuroprotective efficiency of co-administration of Ginkgo biloba and Trifolium pretense against sodium arsenite-induced neurotoxicity and dementia in different regions of brain and spinal cord of rats

Abdou

Yousef

Mekkawy

et al. 2016

Food and Chemical Toxicology

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Molecular mechanisms underlying the potential neuroprotective effects of Trifolium pratense and its phytoestrogen‐isoflavones in neurodegenerative disorders

Al‐Shami

Essawy

Elkader

2023

Phytotherapy Research

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Neurodegenerative disorders are heterogeneous, debilitating, and incurable groups of brain disorders that have common features including progressive degeneration of the structure and function of the nervous system. Phytoestogenic‐isoflavones have been identified as active compounds that can modulate different molecular signaling pathways related to the nervous system. The main aim is to shed the light on the molecular mechanisms followed by phytoestrogen‐isoflavones profound in the Trifolium pratense and discuss the latest pharmacological findings in the treatment of neurodegenerative disorders. Data were collected using different databases. The search terms used included “Phytoestrogens,” “Isoflavones,” “neurodegenerative disorders,” “Neuronal plasticity,” etc., and combinations of these keywords. As a result, this review article mainly demonstrates the potential neuroprotective properties of phystoestrogen‐isoflavones present in the Trifolium pratense (Red clover), particularly in neurodegenerative disorders. Phytochemical studies have shown that Trifolium pratense mainly includes more than 30 isoflavone compounds. Among them, phytoestrogen‐isoflavones, such as biochanin A, daidzein, formononetin, genistein (Gen), etc.,are characterized by potent neuroprotective properties against different neurodegenerative disorders. There are preclinical and clinical scientific evidence on their mechanisms of action involve molecular interaction with estrogenic receptors, anti‐inflammatory, anti‐oxidative, antiapoptotic, autophagic inducing, and so on. phytoestrogen‐isoflavones are the major bioactive components in the Trifolium pratense that exhibit therapeutic efficacy in the case of neurodegenerative disorders. This review provides detailed molecular mechanisms targeted by phytoestrogen‐isoflavones and experimental key findings for the clinical use of prescriptions containing Trifolium pratense‐derived isoflavones for the treatment of neurodegenerative disorders.

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Microanatomy and behaviour of the date mussel's adductor and foot muscles after chronic exposure to bisphenol A, with inhibition of ATPase enzyme activities and DNA damage

Elkader

Al‐Shami

2023

Comparative Biochemistry and Physiology Part C: Toxicology &

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Ahmed S. Al‐Shami

GABAA receptors: structure, function, pharmacology, and related disorders

Astragalus species: Phytochemistry, biological actions and molecular mechanisms underlying their potential neuroprotective effects on neurological diseases

Prophylactic neuroprotective efficiency of co-administration of Ginkgo biloba and Trifolium pretense against sodium arsenite-induced neurotoxicity and dementia in different regions of brain and spinal cord of rats

Molecular mechanisms underlying the potential neuroprotective effects of Trifolium pratense and its phytoestrogen‐isoflavones in neurodegenerative disorders

Microanatomy and behaviour of the date mussel's adductor and foot muscles after chronic exposure to bisphenol A, with inhibition of ATPase enzyme activities and DNA damage

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