Disconcerting Tips On How To Rule Using AG-1478 ALK Inhibitor

In contrast towards the effects observed with all the less distinct ATM/ATR inhibitor, caffeine, neither compound affected AG-1478 G2/M progression inside the absence of DNA harm.

Equivalent to KU55933, IR fails to induce ATM activation and downstream signaling inside the presence of CP466722 and inhibition in the ATM dependent phosphorylation events are maintained over the 8h time course in the experiment. These benefits demonstrate that CP466722 strongly inhibits ATM kinase pactivity for no less than an 8h period in tissue AG-1478 culture. As part of the characterization of CP466722 we were interested in the reversibility of the ATM inhibition. To address this question, HeLa cells were pretreated with either DMSO, CP466722 or KU55933 and then washed with ALK Inhibitor addition of fresh culture media in the absence of any compounds. Cells were subsequently exposed to IR at various times. In the presence of DMSO, the IR induced ATM dependent phosphorylation events were easily detected both before and after wash off.

Based on the results indicating that inhibition of ATM kinase activity by these compounds was rapidly reversible, we were interested in whether transient inhibition of ATM could sensitize cells to IR. Following pretreatment of HeLa cells with either DMSO, CP466722 or KU55933 the cells were exposed to the indicated doses of IR and allowed ALK Inhibitor to recover for a period of 4h in the presence of DMSO or the inhibitors. The cells were then replated and incubated for a period of 10 days to allow for colony formation in the absence of inhibitors. Similar plating efficiencies were achieved in the presence or absence of CP466722 and KU55933 respectively, suggesting that neither compound affected cell plating nor cell viability.

The ATM kinase ALK Inhibitor is an important component of these DDR pathways and cells deficient for ATM display hypersensitivity to certain DNA damaging agents. Based on these observations it has been proposed that specific inhibition of ATM function in combination with current radio /chemo therapeutic treatments may result in enhanced cancer cell killing.