adenosine a2a receptor antagonists
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2021 ◽  
Author(s):  
Syeda Najam Zehra ◽  
Ishrat Younus ◽  
Saima Mahmood Malhi ◽  
Muhammad Liaquat Raza ◽  
Azfar Athar Ishaqui ◽  
...  

Abstract One of the major causes of neurological disorders is degeneration of neurons which is commonly termed as Neurodegeneration. It is well documented that two of the neurodegenerative disorders i.e., Alzheimer’s Disease & Parkinson Disease comes in top fifteen causes of deaths in United States of America. Due to the neuroprotective property of adenosine A2a receptor antagonists (ZM241385) was evaluated in haloperidol mouse model of Parkinson’s disease. Our results reveal significant antidopaminergic effects of adenosine A2A receptor antagonist that support its utilization as a new treatment approach in Parkinson’s diseases.


Author(s):  
Suman Rohilla ◽  
Ranju Bansal ◽  
Puneet Chauhan ◽  
Sonja Kachler ◽  
Karl-Norbert Klotz

Background: Adenosine receptors (AR) have emerged as competent and innovative nondopaminergic targets for the development of potential drug candidates and thus constitute an effective and safer treatment approach for Parkinson’s disease (PD). Xanthine derivatives are considered as potential candidates for the treatment Parkinson’s disease due to their potent A2A AR antagonistic properties. Objective: The objectives of the work are to study the impact of substituting N7-position of 8-m/pchloropropoxyphenylxanthine structure on in vitro binding affinity of compounds with various AR subtypes, in vivo antiparkinsonian activity and binding modes of newly synthesized xanthines with A2A AR in molecular docking studies. Methods: Several new 7-substituted 8-m/p-chloropropoxyphenylxanthine analogues have been prepared. Adenosine receptor binding assays were performed to study the binding interactions with various subtypes and perphenazine induced rat catatonia model was used for antiparkinsonian activity. Molecular docking studies were performed using Schrödinger molecular modeling interface. Results: 8-para-substituted xanthine 9b bearing an N7-propyl substituent displayed the highest affinity towards A2A AR (Ki = 0.75 µM) with moderate selectivity versus other AR subtypes. 7-Propargyl analogue 9d produced significantly longlasting antiparkinsonian effects and also produced potent and selective binding affinity towards A2A AR. In silico docking studies further highlighted the crucial structural components required to develop xanthine derived potential A2A AR ligands as antiparkinsonian agents. Conclusion: A new series of 7-substituted 8-m/p-chloropropoxyphenylxanthines having good affinity for A2A AR and potent antiparkinsonian activity has been developed.


2020 ◽  
Vol 63 (21) ◽  
pp. 12196-12212 ◽  
Author(s):  
Fazhi Yu ◽  
Chenyu Zhu ◽  
Qiong Xie ◽  
Yonghui Wang

Cells ◽  
2020 ◽  
Vol 9 (5) ◽  
pp. 1075 ◽  
Author(s):  
Rafael Franco ◽  
Rafael Rivas-Santisteban ◽  
Mireia Casanovas ◽  
Alejandro Lillo ◽  
Carlos A. Saura ◽  
...  

(1) Background. N-methyl d-aspartate (NMDA) ionotropic glutamate receptor (NMDAR), which is one of the main targets to combat Alzheimer’s disease (AD), is expressed in both neurons and glial cells. The aim of this paper was to assess whether the adenosine A2A receptor (A2AR), which is a target in neurodegeneration, may affect NMDAR functionality. (2) Methods. Immuno-histo/cytochemical, biophysical, biochemical and signaling assays were performed in a heterologous cell expression system and in primary cultures of neurons and microglia (resting and activated) from control and the APPSw,Ind transgenic mice. (3) Results. On the one hand, NMDA and A2A receptors were able to physically interact forming complexes, mainly in microglia. Furthermore, the amount of complexes was markedly enhanced in activated microglia. On the other hand, the interaction resulted in a novel functional entity that displayed a cross-antagonism, that could be useful to prevent the exacerbation of NMDAR function by using A2AR antagonists. Interestingly, the amount of complexes was markedly higher in the hippocampal cells from the APPSw,Ind than from the control mice. In neurons, the number of complexes was lesser, probably due to NMDAR not interacting with the A2AR. However, the activation of the A2AR receptors resulted in higher NMDAR functionality in neurons, probably by indirect mechanisms. (4) Conclusions. A2AR antagonists such as istradefylline, which is already approved for Parkinson’s disease (Nouriast® in Japan and Nourianz® in the US), have potential to afford neuroprotection in AD in a synergistic-like fashion. i.e., via both neurons and microglia.


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