Ye Wei1,2, Chong Li2,3, Huifang Bian2,3, Wei Qian1,2, Kairui Jin1,2, Tingting Xu2,4, Xiaomao Guo5,6, Xueguan Lu7,8, Fengtao Su9,10. 1. Department of Radiation Oncology, Cancer Institute, Fudan University Shanghai Cancer Center, Shanghai, 200032, China. 2. Department of Oncology, Shanghai Medical College, Fudan University, Shanghai, 200032, China. 3. Cancer Institute, Fudan University Shanghai Cancer Center, Shanghai, 200032, China. 4. Department of Radiation Oncology, Fudan University Shanghai Cancer Center, Shanghai, 200032, China. 5. Department of Radiation Oncology, Cancer Institute, Fudan University Shanghai Cancer Center, Shanghai, 200032, China. guoxm1800@126.com. 6. Department of Oncology, Shanghai Medical College, Fudan University, Shanghai, 200032, China. guoxm1800@126.com. 7. Department of Oncology, Shanghai Medical College, Fudan University, Shanghai, 200032, China. luxueguan@163.com. 8. Department of Radiation Oncology, Fudan University Shanghai Cancer Center, Shanghai, 200032, China. luxueguan@163.com. 9. Department of Oncology, Shanghai Medical College, Fudan University, Shanghai, 200032, China. sufengtao@126.com. 10. Cancer Institute, Fudan University Shanghai Cancer Center, Shanghai, 200032, China. sufengtao@126.com.
Abstract
BACKGROUND: Cytokine release syndrome (CRS) is a systemic inflammatory response characterized by the overexpression of inflammatory genes. Controlling CRS is essential for improving the therapeutic effects of chimeric antigen receptor (CAR) engineered T cells. However, current treatment options are limited given the complexity of cytokine interactions so it is important to seek a mild strategy with broad-spectrum inhibition to overcome this challenge. METHODS: Using THZ1, a covalent inhibitor of cyclin-dependent kinase 7 (CDK7), we demonstrated the transcriptional suppression of inflammatory genes in activated macrophages. RNA sequencing and ChIP sequencing were conducted to identify the key target genes of the inflammatory response. Pathogen- and CAR T cell-induced CRS models were also established to assess the efficacy and safety of targeting CDK7. RESULTS: CDK7 blockade attenuated cytokine release, mitigated hyperinflammatory states and rescued mice from lethal CRS. Targeting CDK7 preferentially suppressed a set of inflammatory genes, of which STAT1 and IL1 were the key targets associated with super enhancers. Furthermore, we confirmed the potent efficacy of THZ1 in alleviating the CRS induced by CAR T cell infusion without causing tissue injury or impairing antitumor effects. CONCLUSIONS: Our work indicates the CDK7-dependent transcription addiction of inflammatory genes. Targeting CDK7 is a promising strategy for treating CRS by inhibiting multiple cytokines.
BACKGROUND: Cytokine release syndrome (CRS) is a systemic inflammatory response characterized by the overexpression of inflammatory genes. Controlling CRS is essential for improving the therapeutic effects of chimeric antigen receptor (CAR) engineered T cells. However, current treatment options are limited given the complexity of cytokine interactions so it is important to seek a mild strategy with broad-spectrum inhibition to overcome this challenge. METHODS: Using THZ1, a covalent inhibitor of cyclin-dependent kinase 7 (CDK7), we demonstrated the transcriptional suppression of inflammatory genes in activated macrophages. RNA sequencing and ChIP sequencing were conducted to identify the key target genes of the inflammatory response. Pathogen- and CAR T cell-induced CRS models were also established to assess the efficacy and safety of targeting CDK7. RESULTS:CDK7 blockade attenuated cytokine release, mitigated hyperinflammatory states and rescued mice from lethal CRS. Targeting CDK7 preferentially suppressed a set of inflammatory genes, of which STAT1 and IL1 were the key targets associated with super enhancers. Furthermore, we confirmed the potent efficacy of THZ1 in alleviating the CRS induced by CAR T cell infusion without causing tissue injury or impairing antitumor effects. CONCLUSIONS: Our work indicates the CDK7-dependent transcription addiction of inflammatory genes. Targeting CDK7 is a promising strategy for treating CRS by inhibiting multiple cytokines.
Entities:
Keywords:
Chimeric antigen receptor engineered T cells; Cyclin-dependent kinase 7; Cytokine release syndrome; Inflammatory genes; Macrophages; Super enhancer
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