TY - JOUR
T1 - Purine analogues as kinase inhibitors
T2 - A review
AU - Sharma, Sahil
AU - Mehndiratta, Samir
AU - Kumar, Sunil
AU - Singh, Jagjeet
AU - Bedi, Preet M.S.
AU - Nepali, Kunal
N1 - Publisher Copyright:
© 2015 Bentham Science Publishers.
PY - 2015/10/1
Y1 - 2015/10/1
N2 - Protein kinases constitute one of the largest and most functionally diverse gene families that regulate key cell functions. In past several years, kinase inhibition has emerged as potential anti-cancer drug target. Purine is a priveleged heterocyclicnucleus which exists in the chemical architecture of various bioactive compounds. Numerous reports on the use of purine analogues in the treatment of acute leukemias (thiopurines, pentostatin), as antiviral (acyclovir, penciclovir, ganciclovir), as immunosuppressive (azathioprine), as antitumor (vidarabine), as bronchodilator (theophylline) have been revealed. In the past decade, purine analogues have emerged as significantly potent kinase inhibitors. A fair amount of research has been done and several patents have also been published highlighting the kinase inhibitory action of purines. Caffeine, 2- aminopurine, purvalanol-A, seleciclib, FSBA, adenosine thiol analogue possessing purine as the basic moiety fall under this category. In view of the use of purines for the inhibition of kinases, there is need for compilation of data specifying the prominence of purines in the treatment of cancer through this mechanism. The structure of the potent compounds, their IC50 values, models used and the enzymes/ receptors/ targets involved have been presented in this review. The present compilation covers the patents published entailing the purines as kinase inhibitors and the purine drugs employed in chemotherapy.
AB - Protein kinases constitute one of the largest and most functionally diverse gene families that regulate key cell functions. In past several years, kinase inhibition has emerged as potential anti-cancer drug target. Purine is a priveleged heterocyclicnucleus which exists in the chemical architecture of various bioactive compounds. Numerous reports on the use of purine analogues in the treatment of acute leukemias (thiopurines, pentostatin), as antiviral (acyclovir, penciclovir, ganciclovir), as immunosuppressive (azathioprine), as antitumor (vidarabine), as bronchodilator (theophylline) have been revealed. In the past decade, purine analogues have emerged as significantly potent kinase inhibitors. A fair amount of research has been done and several patents have also been published highlighting the kinase inhibitory action of purines. Caffeine, 2- aminopurine, purvalanol-A, seleciclib, FSBA, adenosine thiol analogue possessing purine as the basic moiety fall under this category. In view of the use of purines for the inhibition of kinases, there is need for compilation of data specifying the prominence of purines in the treatment of cancer through this mechanism. The structure of the potent compounds, their IC50 values, models used and the enzymes/ receptors/ targets involved have been presented in this review. The present compilation covers the patents published entailing the purines as kinase inhibitors and the purine drugs employed in chemotherapy.
KW - Chemotherapy
KW - Clinical trials
KW - Patents
KW - Potential inhibitors
KW - Protein kinases
KW - Purines
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U2 - 10.2174/1574892810666150617112230
DO - 10.2174/1574892810666150617112230
M3 - Review article
C2 - 26081925
AN - SCOPUS:84947740920
SN - 1574-8928
VL - 10
SP - 308
EP - 341
JO - Recent Patents on Anti-Cancer Drug Discovery
JF - Recent Patents on Anti-Cancer Drug Discovery
IS - 3
ER -