- Synthesis, molecular docking, and antiepileptic activity of new N-phthaloylglycine derivatives
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Thalidomide (α-N-phthalimido-glutarimide), the withdrawn sedative compound, has recently been reemerged as a potent agent against epilepsy. In this study, five l-amino acid derivatives of N-phthaloylglycine were synthesized and were tested on pentylenetetrazole (PTZ) induced seizure mice model. N-phthaloylglycine was prepared by reaction of phthalic anhydride and glycine in the presence of triethylamine in toluene under reflux. Arginine, glutamine, leucine, phenylalanine, and tryptophan methyl ester were prepared and coupled with N-phthaloylglycine using coupling agents (EDC and HOBt). The final compounds were characterized by spectroscopic methods (1H NMR, 13 CNMR, IR, and MS). A docking study using AutoDock 4.2 was performed to predict the possible interactions of synthesized compounds on the GABAA receptor. All compounds were characterized, docked into the binding pocket of the GABAA receptor, and tested on pentylenetetrazole-induced seizures in mice. As expected, in silico studies demonstrated that all compounds interact efficiently with the GABAA receptor. All synthesized compounds showed satisfactory results leading to increased latency time to the first symptom of a seizure. The phenylalanine methyl ester derivative of N-phthaloylglycine (6d) had antiepileptic effects even more potent than thalidomide. Increasing lipophilicity and facilitating compounds delivery through l-amino acid carriers to the brain appear to be responsible for the remarkable activity of these compounds. Both in silico and in vivo results suggest that the l-amino acid derivatives of N-phthaloylglycine act as a novel compound against chemically induced seizures through interaction with the binding pocket of the GABAA receptor.
- Amanlou, Arash,Amanlou, Massoud,Asadi, Mehdi,Hosseini, Faezeh Sadat,Khorasani, Reza,Moradkhani, Fatemeh,Morgani, Ahmadreza Barazesh,khademi, Mona
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- Postsynthetic Modification of Phenylalanine Containing Peptides by C-H Functionalization
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New methods for peptide modification are in high demand in drug discovery, chemical biology, and materials chemistry; methods that modify natural peptides are particularly attractive. A Pd-catalyzed, C-H functionalization protocol for the olefination of phenylalanine residues in peptides is reported, which is compatible with common amino acid protecting groups, and the scope of the styrene reaction partner is broad. Bidentate coordination of the peptide to the catalyst appears crucial for the success of the reaction.
- Terrey, Myles J.,Perry, Carole C.,Cross, Warren B.
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p. 104 - 108
(2019/01/11)
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- Novel thiazolidinedione-5-acetic-acid-peptide hybrid derivatives as potent antidiabetic and cardioprotective agents
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Thiazolidinediones (TZDs) are one of the important clinically established antidiabetic agents. Amino-acid and peptides have an advantage of better target selectivity and specificity. As hybrids, they also improved absorption and showed better bioavailability, which in turn makes them safer. Hence, here an effort has been made to synthesize hybrids of thiazolidinedione with amino-acids and peptides and evaluate their antidiabetic and cardioprotective effect in streptozotocin-nicotinamide (STZ-NA) induced Type 2 diabetes mellitus (T2DM) rat models. A series of 14 thiazolidinedione-5-acetic acid hybrids with of different amino-acids and peptide combinations were synthesized, characterized and further screened for antidiabetic and cardioprotective activity. Among all, six compounds T1 (SSDMA1), T4 (SSDMA4), T5 (SSDMA5), T7 (SDMA13), T9 (SSDMA15) and T13 (SSDMA49) showed better antioxidant activity and comparable % glucose uptake by yeast cells. Hence, the in vivo antidiabetic screening was done for these six compounds. Among all six T1, T7, T13 showed significant blood glucose level decrease compared to standard pioglitazone HCl. Also T1, T7 and T13 showed better antioxidant activity with lower IC50 value than standard ascorbic acid, and hence in vivo cardioprotective studies were done for these. The ECG studies showed that T1 (SSDMA1) and T7 (SSDMA13) were better effective than SDMA49 (T13) in restoring the normal functioning of the heart, thus may help in preventing the development of diabetic cardiomyopathy (DCM) and controlling T2DM.
- Maji,Samanta
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p. 1163 - 1172
(2017/02/23)
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- Fragmentation-Rearrangement of Peptide Backbones Mediated by the Air Pollutant NO2.
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The fragmentation-rearrangement of peptide backbones mediated by nitrogen dioxide, NO2., was explored using di-, tri-, and tetrapeptides 8-18 as model systems. The reaction, which is initiated through nonradical N-nitrosation of the peptide bond, shortens the peptide chain by the expulsion of one amino acid moiety with simultaneous fusion of the remaining molecular termini through formation of a new peptide bond. The relative rate of the fragmentation-rearrangement depends on the nature of the amino acids and decreases with increasing steric bulk at the α carbon in the order Gly>Ala>Val. Peptides that possessed consecutive aromatic side chains only gave products that resulted from nitrosation of the sterically less congested N-terminal amide. Such backbone fragmentation-rearrangement occurs under physiologically relevant conditions and could be an important reaction pathway for peptides, in which sections without readily oxidizable side chains are exposed to the air pollutant NO2.. In addition to NO2.-induced radical oxidation processes, this outcome shows that ionic reaction pathways, in particular nitrosation, should be factored in when assessing NO2. reactivity in biological systems.
- Gamon, Luke F.,Nathanael, Joses G.,Taggert, Bethany I.,Henry, Fraser A.,Bogena, Jana,Wille, Uta
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supporting information
p. 14924 - 14930
(2015/10/20)
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