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ght to result in accumulation of DNA singlestrand breaks, which are subsequently converted to DNA doublestrandbreaksby the cellular replication andor transcriptionmachinery. These DSBs, which are repaired by HR in BRCApositivecells, are presumed to accumulate in BRCA1or BRCA2deficient cells, faah inhibitor top to subsequent cell death. Heightened sensitivityto PARP inhibition has also been observed in cells withother genetic lesions that have an effect on HR, which includes phosphatase andtensin homologdeficiency, ataxia telangiectasia mutateddeficiency, and Aurora A overexpression.Although the preceding studies underscore the significance ofPARP1 and HR in preserving genomic stability, they do notaddress the function of nonhomologous end joining, an alternateDSB repair modality that directly joins broken ends ofDNA with little or no regard for sequence homology.
NHEJis initiated when totally free DNA ends are bound by Ku70 and Ku80,which recruit the catalytic faah inhibitor subunit of DNAdependent proteinkinase. The resulting complex, known as the DNAdependentprotein kinasecomplex, phosphorylatesdownstream targets top to activation in the DNA damageresponse and initiation of NHEJ. Recent perform by two groups hasdemonstrated that abortiveerrorprone NHEJ damages DNAin the absence of HR, establishing a model in whichNHEJ and HR components compete for DNA ends afterDNA damage.Earlier studies have also supplied evidence for interplay betweenNHEJ components and PARP1. In distinct, PARP1interacts with the Ku proteins in vitro and in vivo. In addition,Ku70, Ku80, and DNAPKcs are capable of binding polypolymer.
Additionally, PARP1 and Ku80 competefor DNA ends in vitro. Finally, the genetic ablation of KU70or LIGIV restores the survival of PARP1deficient cells exposedto agents inducing DSBs. These observations raise thequestion of no matter whether NHEJ is involved within the genomic instabilityand cytotoxicity observed small molecule libraries in HRdeficient cells treated withPARP inhibitors.Here we demonstrate the essential function of NHEJ within the hypersensitivityof HRdeficient cells to PARP inhibitors. In distinct,we show that PARP inhibition preferentially enhances errorproneNHEJ activity in HRdeficient cells, as measured by phosphorylationof DNAPK substrates and an in vivo reporter assay. DisablingNHEJ reverses the genomic instability induced by PARPinhibitors and rescues HRdeficient cells from the lethality ofPARP inhibition or PARP1 knockdown.
These results not onlyhighlight the crucial balance in between HR and NHEJ, but alsoimplicate NHEJ as a major contributor towards the cytotoxicity observedin HRdeficient cells treated with PARP inhibitors.ResultsPARP Inhibitor Synthetic Lethality Is Independent of XRCC1 and BER.The current model of PARP inhibitor lethality in HRdeficientcellspostulates that PARP inhibition induces persistentSSBs via NSCLC inactivation of BER, and that these breaks areconverted to DSBs by collision with replication machinery. Thismodel predicts that disabling BER need to recapitulate the effectof PARP inhibition in these cells. To test this model, we inducedsiRNAmediated knockdown of XRCC1, an important protein inBER. These experiments applied PEO1 and PEO4 cells, a pairof ovarian cancer lines which can be derived from the identical patientbut differ in BRCA2 expression.
PARP1 depletionsignificantly and reproducibly small molecule libraries decreased the clonogenic survivalof BRCA2deficient PEO1 cells but not BRCA2expressingPEO4 cells, confirming previously publishedresults. Depletion of XRCC1 did not alter the viability ofeither cell line, although the same XRCC1knockdown sensitized both lines towards the alkylating agent methylmethanesulfonate. This result, coupled with the recentreport that PARP inhibitors fail to improve SSBs in BRCA2deficient cells, prompted us to consider the possibility thatPARP1 maintains the genomic stability of HRdeficient cellsthrough a mechanism distinct from BER.PARP Inhibition Induces Phosphorylation of DNAPK Targets andEnhances NHEJ. Additionally to its function in BER, PARP1 has beenimplicated within the modulation of a range of nuclear processes,which includes classical NHEJ.
Accordingly, we hypothesizedthat the simultaneous loss of HR and PARP1 may possibly resultin deregulation of NHEJ. If this model were correct,one would predict that PARP inhibition in HRdeficient cellswould result in improved activation of DNAPK, increasedNHEJ activity, and improved genomic instability resulting fromthis errorprone pathway. Importantly, this alternative modelsuggests that faah inhibitor inhibition of NHEJ through genetic or pharmacologicalapproaches need to diminish the effects of PARP inhibitors on allof these processes.To test these predictions, we incubated PEO1 cells with thePARP inhibitor ABT888and examined thephosphorylation of DNAPK substrates. The epitopes examinedincluded the phosphorylation web site of DNAPKcs at Thr2609, whichmust be phosphorylated for efficient NHEJ, and Ser139 ofH2AX, which undergoes DNA damageinduced phosphorylationby several kinases, which includes small molecule libraries activated DNAPKcs. Both ofthese sites were phosphorylated inside a dosedepende