871815-98-4Relevant academic research and scientific papers
Synthesis and identification of chiral aminomethylpiperidine carboxamides as inhibitor of collagen induced platelet activation
Anil Kumar,Misra, Ankita,Siddiqi, Tanveer Irshad,Srivastava, Stuti,Jain, Manish,Bhatta, Rabi Sankar,Barthwal, Manoj,Dikshit, Madhu,Dikshit, Dinesh K.
, p. 456 - 472 (2014/06/09)
A series of chiral lactam carboxamides of aminomethylpiperidine were synthesized and investigated for the collagen induced in vitro anti-platelet efficacy and collagen plus epinephrine induced in vivo pulmonary thromboembolism. The compound 31a (30 μM/kg) displayed a remarkable antithrombotic efficacy (60% protection) which was sustained for more than 24 h and points to its excellent bioavailability. The compounds 31a (IC50 = 6.6 μM) and 32a (IC50 = 37 μM), as well as their racemic mixture 28i (IC50 = 16 μM) significantly inhibited collagen-induced human platelet aggregation in vitro. Compound 34c displayed dual mechanism of action against both collagen (IC50 = 3.3 μM) and U46619 (IC50 = 2.7 μM) induced platelet aggregation. The pharmacokinetic study of 31a indicated very faster absorption, prolonged and constant systemic exposure and thereby exhibiting better therapeutic response.
Synthesis, binding studies and in vivo biological evaluation of novel non-peptide antihypertensive analogues
Mavromoustakos,Moutevelis-Minakakis,Kokotos,Kontogianni,Politi,Zoumpoulakis,Findlay,Cox,Balmforth,Zoga,Iliodromitis
, p. 4353 - 4360 (2007/10/03)
AT1 antagonists (SARTANs) constitute the last generation of drugs for the treatment of hypertension, designed and synthesized to mimic the C-terminal segment of the vasoconstrictive hormone angiotensin II (AngII). They exert their action by blocking the binding of AngII on the AT1 receptor. Up to date eight AT1 antagonists have been approved for the regulation of high blood pressure. Although these molecules share common structural features and are designed to act under the same mechanism, they have differences in their pharmacological profiles and antihypertensive efficacy. Thus, there is still a need for novel analogues with better pharmacological and financial profiles. An example of a novel synthetic non peptide AT1 antagonist which devoids the classical template of SARTANs is MM1. In vivo studies showed that MMK molecules, which fall in the same class of MM1, had a significant antihypertensive (40-80% compared to the drug losartan) activity. However, in vitro affinity studies showed that losartan has considerably higher affinity. The theoretical docking studies showed that MM1 acts on the same site of the receptor as losartan. They exert hydrophobic interactions with amino acid Val108 of the third helix of the AT1 receptor and other hydrophobic amino acids in spatial vicinity. In addition, losartan favours multiple hydrogen bondings between its tetrazole group with Lys199. These additional interactions may in part explain its higher in vitro binding affinity.
