SR-4835
目录号 : GC39175SR-4835 is a highly selective dual inhibitor of CDK12 and CDK13 with IC50 of 99 nM and Kd of 98 nM for CDK12 and IC50 of 4.9 nM for CDK13. SR-4835 disables triple-negative breast cancer (TNBC) cells. SR-4835 promotes synergy with DNA-damaging chemotherapy and PARP inhibitors.
Cas No.:2387704-62-1
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SR-4835 is a highly selective dual inhibitor of CDK12 and CDK13 with IC50 of 99 nM and Kd of 98 nM for CDK12 and IC50 of 4.9 nM for CDK13. SR-4835 disables triple-negative breast cancer (TNBC) cells. SR-4835 promotes synergy with DNA-damaging chemotherapy and PARP inhibitors.
SR-4835 is a selective, potent dual inhibitor of CDK12 and CDK13, suppressing expression of DDR proteins. CDK12/CDK13 inhibition synergizes with DNA-damaging agents or PARP inhibition to trigger TNBC cell death.[1]
SR-4835 has potent in vivo anti-TNBC activity and augments the anti-cancer activity of cisplatin, irinotecan, and olaparib, which are standard-of-care therapeutics for TNBC. SR-4835 is well tolerated in mice after long-term dosing. SR-4835 cooperates with DNA-damaging chemotherapeutics.[1]
[1] Quereda V, et al. Cancer Cell. 2019 Nov 11;36(5):545-558.e7.
Cas No. | 2387704-62-1 | SDF | |
Canonical SMILES | CN1N=CC(N2C3=NC(N4CCOCC4)=NC(NCC5=NC6=C(N5)C=C(Cl)C(Cl)=C6)=C3N=C2)=C1 | ||
分子式 | C21H20Cl2N10O | 分子量 | 499.36 |
溶解度 | DMSO: 5 mg/mL (10.01 mM; ultrasonic and warming and heat to 60°C) | 储存条件 | Store at -20°C |
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Therapeutic Targeting of CDK12/CDK13 in Triple-Negative Breast Cancer
Cancer Cell 2019 Nov 11;36(5):545-558.e7.PMID:31668947DOI:10.1016/j.ccell.2019.09.004.
Epigenetic regulation enables tumors to respond to changing environments during tumor progression and metastases and facilitates treatment resistance. Targeting chromatin modifiers or catalytic effectors of transcription is an emerging anti-cancer strategy. The cyclin-dependent kinases (CDKs) 12 and 13 phosphorylate the C-terminal domain of RNA polymerase II, regulating transcription and co-transcriptional processes. Here we report the development of SR-4835, a highly selective dual inhibitor of CDK12 and CDK13, which disables triple-negative breast cancer (TNBC) cells. Mechanistically, inhibition or loss of CDK12/CDK13 triggers intronic polyadenylation site cleavage that suppresses the expression of core DNA damage response proteins. This provokes a "BRCAness" phenotype that results in deficiencies in DNA damage repair, promoting synergy with DNA-damaging chemotherapy and PARP inhibitors.
CDK12/13 inhibition induces immunogenic cell death and enhances anti-PD-1 anticancer activity in breast cancer
Cancer Lett 2020 Dec 28;495:12-21.PMID:32941949DOI:10.1016/j.canlet.2020.09.011.
Immunogenic cell death (ICD) improves the T cell response against different tumors, indicating that ICD can enhance the antitumor immunity elicited by the anti-checkpoint antibody anti-programmed death 1 (anti-PD-1). In the present study, we reported a synergistic and durable immune-mediated antitumor response elicited by the combined treatment of SR-4835, a CDK12/13 specific inhibitor, with PD-1 blockade in a syngeneic mouse model. The developed combination therapy elicited antitumor activity in immunocompetent mouse tumor models. Furthermore, the SR-4835-treated tumor cells exhibited characteristics of ICD, including the release of high mobility group box 1 (HMGB1) and ATP and calreticulin (CRT) translocation. This activity led to a significant T-cell-dependent tumor suppression. The enhanced dendritic cell (DC) and infiltration of T cells activation in the tumors treated with both SR-4835 and anti-PD-1 indicate that this combination treatment promotes an improved immune response. Therefore, the results of the present study demonstrate the potential of CDK12/13 inhibition combined with checkpoint inhibition in breast cancer treatment.
CDK12 orchestrates super-enhancer-associated CCDC137 transcription to direct hepatic metastasis in colorectal cancer
Clin Transl Med 2022 Oct;12(10):e1087.PMID:36254394DOI:10.1002/ctm2.1087.
Background: Hepatic metastasis is the primary and direct cause of death in individuals with colorectal cancer (CRC) attribute to lack of effective therapeutic targets. The present study aimed to identify potential druggable candidate targets for patients with liver metastatic CRC. Methods: The transcriptional profiles of super-enhancers (SEs) in primary and liver metastatic CRC were evaluated in publicly accessible CRC datasets. Immunohistochemistry of human CRC tissues was conducted to determine the expression level of CDK12. Cellular proliferation, survival and stemness were examined upon CDK12 inhibition by shCDK12 or a selective CDK12 inhibitor named SR-4835 with multiple in vitro and in vivo assays. RNA sequencing and bioinformatics analyses were carried out to investigate the mechanisms of CDK12 inhibition in CRC cells. Results: We identified CDK12 as a driver gene for direct hepatic metastasis in CRC. Suppression of CDK12 led to robust inhibition of proliferation, survival and stemness. Mechanistically, CDK12 intervention preferentially repressed the transcription of SE-associated genes. Integration of the SE landscape and RNA sequencing, BCL2L1 and CCDC137 were identified as SE-associated oncogenic genes to strengthen the abilities of cellular survival, proliferation and stemness, eventually increasing liver metastasis of CRC. Conclusions: Our data highlight the potential of CDK12 and SE-associated oncogenic transcripts as therapeutic targets for patients with liver metastatic CRC.
CDK13-Mediated Cell Cycle Disorder Promotes Tumorigenesis of High HMGA2 Expression Gastric Cancer
Front Mol Biosci 2021 Aug 26;8:707295.PMID:34513922DOI:10.3389/fmolb.2021.707295.
The inhibitor of CDK4/6 has been clinically used for treating certain types of cancer which are characterized by G0/G1 acceleration induced by the CDK4/6-RB1 pathway. On the contrary, the cell cycle-related molecules are abnormal in over 50% of the patients with gastric cancer (GC), but the efficiency of inhibiting CDK4/6 does not work well as it is expected. In our study, we found HMGA2 promotes GC through accelerating the S-G2/M phase transition, instead of G0/G1. We also found CDK13 is the direct target gene of HMGA2. Importantly, we analyzed 200 pairs of GC and the adjacent tissue and proved the positive relation between HMGA2 and CDK13; moreover, high expression of both genes predicts a poorer prognosis than the expression of single gene does. We explored the effect of the novel CDK12/13 inhibiting agent, SR-4835, on high HMGA2 expression GC and found inhibition of both genes jointly could reach a satisfied result. Therefore, we suggest that inhibition of CDK13 and HMGA2 simultaneously could be an effective strategy for high HMGA2 expression GC. To detect the expression of both genes simultaneously and individually could be of benefit to predict prognosis for GC.
Induction of BRCAness in Triple-Negative Breast Cancer by a CDK12/13 Inhibitor Improves Chemotherapy
Cancer Cell 2019 Nov 11;36(5):461-463.PMID:31715127DOI:10.1016/j.ccell.2019.10.012.
In this issue of Cancer Cell, Quereda and colleagues report that a newly developed specific inhibitor of CDK12/13, SR-4835, sensitizes triple-negative breast cancer cells to PARP inhibitors and DNA-damaging chemotherapeutics by reducing expression of the genes in the DNA damage response pathway.