DNA methylation has a major role in cancer, and its inhibitors are used therapeutically. DNA methylation depends on methyl group flux through the transmethylation pathway, which forms adenosine. We hypothesized that an adenosine kinase isoform with nuclear expression (ADK-L) determines global DNA methylation in cancer cells. We quantified ADK-L expression (Western Blot) and global DNA methylation as percent 5-methyldeoxycytidine (5mdC, LC-MS/MS) in three cancer lines (HeLa, HepG2, and U373). ADK-L expression and global DNA methylation correlated positively with the highest levels in HeLa cells compared to U373 and HepG2 cells. To determine whether ADK increases global DNA methylation and to validate its potential therapeutics, we treated HeLa cells with potent ADK inhibitors MRS4203 and MRS4380 (IC₅₀ 88 and 140 nM, respectively). Both nucleosides, but not a structurally related poor ADK inhibitor, significantly reduced global DNA methylation in HeLa cells in a concentration-dependent manner. Thus, ADK-L is a potential target for the therapeutic manipulation of DNA methylation levels in cancer.

28 Jul 2016·Journal of Medicinal ChemistryQ1 · MEDICINE

South (S)- and North (N)-Methanocarba-7-Deazaadenosine Analogues as Inhibitors of Human Adenosine Kinase

Q1 · MEDICINE

Article

Author: Jacobson, Kenneth A. ; Osborne, Danielle ; Boison, Detlev ; Toti, Kiran S. ; Ciancetta, Antonella

Adenosine kinase (AdK) inhibitors raise endogenous adenosine levels, particularly in disease states, and have potential for treatment of seizures, neurodegeneration, and inflammation. On the basis of the South (S) ribose conformation and molecular dynamics (MD) analysis of nucleoside inhibitors bound in AdK X-ray crystallographic structures, (S)- and North (N)-methanocarba (bicyclo[3.1.0]hexane) derivatives of known inhibitors were prepared and compared as human (h) AdK inhibitors. 5'-Hydroxy (34, MRS4202 (S); 55, MRS4380 (N)) and 5'-deoxy 38a (MRS4203 (S)) analogues, containing 7- and N(6)-NH phenyl groups in 7-deazaadenine, robustly inhibited AdK activity (IC50 ∼ 100 nM), while the 5'-hydroxy derivative 30 lacking the phenyl substituents was weak. Docking in the hAdK X-ray structure and MD simulation suggested a mode of binding similar to 5'-deoxy-5-iodotubercidin and other known inhibitors. Thus, a structure-based design approach for further potency enhancement is possible. The potent AdK inhibitors in this study are ready to be further tested in animal models of epilepsy.

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Indication	Highest Phase	Country/Location	Organization	Date
Epilepsy	Preclinical	United States	National Institutes of Health	-
Epilepsy	Preclinical	United States	Rutgers State University of New Jersey	-
Neoplasms	Discovery	United States	National Institutes of Health	-
Neoplasms	Discovery	United States	Rutgers State University of New Jersey	-

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