531506-41-9Relevant academic research and scientific papers
Design and synthesis of novel xanthine derivatives as potent and selective A2B adenosine receptor antagonists for the treatment of chronic inflammatory airway diseases
Basu, Sujay,Barawkar, Dinesh A.,Ramdas, Vidya,Patel, Meena,Waman, Yogesh,Panmand, Anil,Kumar, Santosh,Thorat, Sachin,Naykodi, Minakshi,Goswami, Arnab,Reddy, B. Srinivasa,Prasad, Vandna,Chaturvedi, Sandhya,Quraishi, Azfar,Menon, Suraj,Paliwal, Shalini,Kulkarni, Abhay,Karande, Vikas,Ghosh, Indraneel,Mustafa, Syed,De, Siddhartha,Jain, Vaibhav,Banerjee, Ena Ray,Rouduri, Sreekanth R.,Palle, Venkata P.,Chugh, Anita,Mookhtiar, Kasim A.
, p. 218 - 229 (2017/04/19)
Adenosine induces bronchial hyperresponsiveness and inflammation in asthmatics through activation of A2B adenosine receptor (A2BAdoR). Selective antagonists have been shown to attenuate airway reactivity and improve inflammatory cond
HETEROCYCLIC COMPOUNDS AS ADENOSINE RECEPTOR ANTAGONIST
-
, (2009/10/22)
Compounds of the present disclosure are fused pyrimidine compounds of formula (I), its tautomers, polymorphs, stereoisomers, prodrugs, solvate or a pharmaceutically acceptable salts thereof, as Adenosine receptor antagonists. Processes of their preparation are also described in the disclosure.
The discovery of a selective, high affinity A2B adenosine receptor antagonist for the potential treatment of asthma
Zablocki, Jeff,Kalla, Rao,Perry, Thao,Palle, Venkata,Varkhedkar, Vaibhav,Xiao, Dengming,Piscopio, Anthony,Maa, Tenning,Gimbel, Art,Hao, Jia,Chu, Nancy,Leung, Kwan,Zeng, Dewan
, p. 609 - 612 (2007/10/03)
Adenosine has been suggested to play a role in asthma, possibly via activation of A2B adenosine receptors on mast cells and other pulmonary cells. We describe our initial efforts to discover a xanthine based selective A2B AdoR antagonist that resulted in the discovery of CVT-5440, a high affinity A2B AdoR antagonist with good selectivity (A2B AdoR Ki = 50 nM, selectivity A1 > 200: A2A > 200: A3 > 167).
