DNA-damage Response
Nuclear DNA is undoubtedly the most precious component of a cell. It is not surprising therefore that any kind of damage that introduces a discontinuity in the DNA double helix elicits a prompt cellular reaction. The DNA damage response (DDR) provides an intrinsic biological barrier against the duplication and partitioning of damaged DNA into daughter cells and impedes the propagation of corrupted genetic information[1]. When maintenance of genome integrity fails, it might lead to programmed cell death (apoptosis), or genomic instability (GIN), which in turn can cause cell transformation and oncogenesis[2]. Among the Serine and Threonine specific kinases, a number of them is involved in the processes that play a significant role in the DDR. For example, Ataxia telangiectasia mutated (ATM) kinase recognizes and signals to double-strand breaks (DSB), which are among the most critical lesions in chromosomal DNA[3],[4]. ATM is present in the nucleus as an inactive dimer or oligomer, and is activated in response to DSBs in a process that involves autophosphorylation. This causes a dissociation of the dimer to form active monomeric forms, which are able to initiate the phosphorylation of many intermediates, such as p53 and the checkpoint kinase Chk2, which are involved in DNA repair and cell-cycle control[5]. Similar to ATM, the ataxia-telangiectasia and Rad3-related (ATR) protein and the DNA-activated protein kinase (DNA-PK) play an important role in responding to agents and extracellular stress that threaten the DNA replication process[6]. Interestingly, a normal and robust checkpoint pathway is thought to be a mechanism of resistance to chemotherapy. As a result, ATR-Chk1 pathway components are considered promising therapeutic targets. In particular, inhibition of ATR-Chk1 pathway components could potentially enhance the effectiveness of replication inhibitors[7].
[1] Living on a break: cellular senescence as aDNA-damage response. F d'Adda di Fagagna. Nature Reviews Cancer 2008, 8, 512-522.
[2] Cell-cycle checkpoints and cancer. Kastan, M. B. & Bartek, J. Nature 2004, 432, 316–323.
[3] DNA-PK, the DNA-activated protein kinase, is differentially expressed in normal and malignant human tissues. U Moll, R Lau, MA Sypes, MM Gupta, CW Anderson. Oncogene 1999, 18, 3114-3126.
[4] ATM and the DNA damage response. Workshop on ataxia-telangiectasia and related syndromes. Lavin MF, Delia D, Chessa L.EMBO Rep. 2006, 7, 154–160.
[5] DNA damage activates ATM through intermolecular autophosphorylation and dimer dissociation. Bakkenist CJ,KastanMB. Nature. 2003, 421, 499-506.
[6] ATM, ATR and DNA-PK: initiators of the cellular genotoxic stress responses. J Yang, Y Yu, H Hamrick, PJ Duerksen-Hughes. Carcinogenesis 2003, 24, 1571-1580.
[7] Prospects for the Use of ATR Inhibitors to Treat Cancer. JM Wagner, SH Kaufmann. Pharmaceuticals 2010, 3, 1311-1334.
Axon ID | Name | Description | From price | |
---|---|---|---|---|
3039 | ACY-241 | Selective and orally available HDAC6 inhibitor | €120.00 | |
2269 | AK 1 | Potent inhibitor of SIRT with good selectivity for SIRT2 over SIRT1 and SIRT3 | €90.00 | |
2270 | AK 7 | Potent, brain-permeable and selective inhibitor of SIRT2 | €90.00 | |
2394 | AR-42 | HDAC inhibitor | €125.00 | |
5052 | Axon Ligands™ Epigenetic compound library | Axon Ligands™ Epigenetic compound library | Inquire | |
3115 | Belinostat | HDAC inhibitor | €70.00 | |
3397 | BG45 | HDAC inhibitor (1, 2, 3 Selective) | €80.00 | |
3399 | BML-210 | HDAC inhibitor | €80.00 | |
2471 | BRD 73954 | Dual HDAC 6/8 inhibitor with excellent selectivity over the other HDACs | €85.00 | |
2803 | Cambinol | Inhibitor of SIRT1 and SIRT2 | €95.00 | |
2250 | CHR 6494 trifluoroacetate | Specific, first-in-class inhibitor of histone kinase Haspin | €120.00 | |
2014 | CI 994 | HDAC inhibitor that causes histone hyperacetylation in living cells | €70.00 | |
3038 | CXD101 | HDAC inhibitor (1, 2, 3 Selective) | €125.00 | |
1645 | HDAC6 inhibitor ISOX | HDAC6 Inhibitor | €110.00 | |
2529 | JNJ 26481585 dihydrochloride | Potent, orally available second-generation pan-HDAC inhibitor | €125.00 | |
1548 | LBH 589 | HDAC1 Inhibitor | €90.00 | |
2430 | LW 479 | HDAC inhibitor with cytotoxicity in a panel of breast cancer cell lines. | €135.00 | |
1707 | MC 1568 | HDAC inhibitor (class IIA selective) | €85.00 | |
2505 | Mocetinostat | Class I selective HDAC inhibitor with broad spectrum antitumor activity | €80.00 | |
1803 | MS 275 | Inhibitor of HDAC (1 and 3 Selective) | €60.00 | |
2359 | Nexturastat A | HDAC6 inhibitor with good selectivity over HDAC1 and HDAC8 | €90.00 | |
3409 | NKL 22 | HDAC inhibitor | €80.00 | |
2843 | OSS-128167 | Selective SIRT6 inhibitor | €125.00 | |
1853 | PCI 34051 | HDAC8 Inhibitor | €90.00 | |
1801 | Pyroxamide | HDAC1 Inhibitor | €90.00 | |
2299 | Remodelin | Potent NAT 10 inhibitor that mediates nuclear shape rescue in laminopathic cells via microtubule reorganization | €90.00 | |
2195 | RGFP 966 | HDAC3 specific inhibitor | €85.00 | |
2704 | Salermide | Potent inhibitor of SIRT1 and SIRT2 | €95.00 | |
2495 | Santacruzamate A | Picomolar level HDAC2 inhibitor with little inhibition of HDAC4 and HDAC6 | €85.00 | |
1777 | SB 939 | HDAC inhibitor (1, 2, 4 Selective) | €95.00 |