This continues to be demonstrated genetically utilizing A T cells, which have permanently disrupted ATM function or by chemical inhibition, the place ATM function continues to be disrupted for prolonged periods of time in cells.
Due to the fact the compounds were only present for a 4h period and because the ATM pathway is reactivated Fingolimod rapidly upon removal of these compounds, it appears that a transient inhibition of ATM is sufficient to enhance the sensitivity of HeLa cells to IR. Importantly, no differences in clonogenic survival of cells from A T patients were noted in the presence or absence of CP466722, demonstrating that the radiosensitization caused by this compound was in fact due to ATM inhibition and not any offtarget effects. Mammalian cells are constantly at risk from potentially lethal or mutagenic genomic lesions from both endogenous and exogenous sources. As a result eukaryotic cells have developed an intricate network of signal transduction pathways that allow them to sense and repair damaged DNA.
Our aim in this study was to identify and characterize a novel inhibitor of the ATM protein kinase with a future goal of modifying this small molecule for characterization and use with in vivo models. In this paper we identified the non toxic compound CP466722 as an inhibitor of ATM and offer a comparison to the established ATM NSCLC inhibitor KU55933. In response to IR, ATM initiates a signaling cascade and phosphorylates downstream targets on characteristics sites which can be used as a measure of cellular ATM kinase activity. CP466722 disrupts these cellular phosphorylation events in a dose dependent manner in several different cell types and recapitulates the signaling defects observed in A T cells.
Fingolimod However, BCR Abl kinase activity was not affected in cells treated with this compound at doses that inhibit ATM suggesting Abl is not a cellular target of CP466722. In contrast, autophosphorylation of Src was reduced by both CP466722 and KU55933 although it is not clear whether these effects are direct or due to inhibition of signal transduction pathways that lead to Src kinase activation.
Wednesday, March 27, 2013
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