Background and Objective: Migraine is a neurovascular syndrome associated with unilateral, throbbing headache accompanied with nausea, vomiting and photo/phonophobia. Several proteins are involved in the etiopathogenesis of migraine headache. The aim of the present review is to give an insight into the various target proteins involved in migraine headache pertaining to the development of a potential anti-migraine drug molecule. Proteins/receptors such as serotonin (5-HT), Calcitonin Gene Related Peptide (CGRP), Transient Receptor Potential Vanilloid (TRPV1), cannabinoid, glutamate, opioid and histamine receptors play various roles in migraine. The nature of the proteins, their types, binding partner membrane proteins and the consequences of the reactions produced have been discussed. The studies conducted on animals and humans with the above mentioned target proteins/receptors and the results obtained have also been reviewed. Conclusion: Calcitonin Gene Related Peptide (CGRP), a G protein coupled receptor (GPCR) significantly contributed to the progression of migraine. CGRP antagonist inhibits the release of CGRP from trigeminal neurons of trigeminal ganglion. Based on the study results, the present review suggests that the inhibition of CGRP receptor might be a successful way to treat migraine headache. Currently, researchers across the world are focussing their attention towards the development of novel molecules to treat migraine headache by targeting CGRP receptor which can be attributed to its specificity among the several proteins involved in migraine.
Objective: The present study aimed to investigate the cytotoxic effect of various extracts derived from Abrus precatorius Linn. leaves on rat L6 and human SK-N-MC neuroblastoma cell lines and determine the secondary metabolites responsible for the cytotoxicity of Abrus precatorius. Methods: Successive solvent extraction of A.precatorius leaves was carried out using the Soxhlet apparatus with solvents such as petroleum ether, chloroform, ethyl acetate, and ethanol. HPTLC fingerprinting and LC-MS studies were performed to assess the presence of secondary metabolites, such as flavonoids and phenols, in the ethyl acetate extract. Furthermore, the cytotoxic effect of extracts was tested on rat skeletal muscle cell line L6 and human neuroblastoma cell line SK-N-MC using MTT assay. Results: The total phenolic content of ethyl acetate and ethanol extracts of A.precatorius were 72.67 and 60.73 mg, respectively, of GAE/g dry weight of the extract. The total flavonoid content of ethyl acetate and ethanol extract of A.precatorius were 107.33 and 40.66 mg of Quercetin equivalents/g dry weight of the extract. LCMS analysis demonstrated that the flavonoids in specific Naringenin, Diosmetin, Glycitin, and Genistein might play a prominent role in the cytotoxicity of A.precatorius. The cytotoxicity study revealed that the extracts of A.precatorius were non-toxic to rat L6 myotubes, and the IC50 values of the various extracts, such as APPE, APCH, APEA, and APET, were >100 µg/ml. The extracts exhibited cytotoxic activity against human neuroblastoma SK-N-MC cells, and the IC50 values of APPE, APCH, APEA, APET, and the standard drug “Cisplatin” were >100, >100, 64.88, >100, and 3.72 µg/ml, respectively. Conclusion: It was concluded from the study that the extracts of Abrus precatorius were cytotoxic to neuroblastoma cell lines but non-toxic to normal cell lines. HPTLC and LC-MS studies confirmed that flavonoids in the ethyl acetate extract could be responsible for the biological activity.
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