Your search keyword '"Super-enhancer"' showing total 13 results

1. Super-enhancer-driven TOX2 mediates oncogenesis in Natural Killer/T Cell Lymphoma

Author

Jianbiao Zhou, Sabrina Hui-Min Toh, Tze King Tan, Kalpnaa Balan, Jing Quan Lim, Tuan Zea Tan, Sinan Xiong, Yunlu Jia, Siok-Bian Ng, Yanfen Peng, Anand D. Jeyasekharan, Shuangyi Fan, Soon Thye Lim, Chin-Ann Johnny Ong, Choon Kiat Ong, Takaomi Sanda, and Wee-Joo Chng

Subjects

Super-enhancer, TOX2, Natural Killer/T Cell Lymphoma, RUNX3, PRL-3, Epigenetics, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Extranodal natural killer/T-cell lymphoma (NKTL) is an aggressive type of non-Hodgkin lymphoma with dismal outcome. A better understanding of disease biology and key oncogenic process is necessary for the development of targeted therapy. Super-enhancers (SEs) have been shown to drive pivotal oncogenes in various malignancies. However, the landscape of SEs and SE-associated oncogenes remain elusive in NKTL. Methods We used Nano-ChIP-seq of the active enhancer marker histone H3 lysine 27 acetylation (H3K27ac) to profile unique SEs NKTL primary tumor samples. Integrative analysis of RNA-seq and survival data further pinned down high value, novel SE oncogenes. We utilized shRNA knockdown, CRISPR-dCas9, luciferase reporter assay, ChIP-PCR to investigate the regulation of transcription factor (TF) on SE oncogenes. Multi-color immunofluorescence (mIF) staining was performed on an independent cohort of clinical samples. Various function experiments were performed to evaluate the effects of TOX2 on the malignancy of NKTL in vitro and in vivo. Results SE landscape was substantially different in NKTL samples in comparison with normal tonsils. Several SEs at key transcriptional factor (TF) genes, including TOX2, TBX21(T-bet), EOMES, RUNX2, and ID2, were identified. We confirmed that TOX2 was aberrantly overexpressed in NKTL relative to normal NK cells and high expression of TOX2 was associated with worse survival. Modulation of TOX2 expression by shRNA, CRISPR-dCas9 interference of SE function impacted on cell proliferation, survival and colony formation ability of NKTL cells. Mechanistically, we found that RUNX3 regulates TOX2 transcription by binding to the active elements of its SE. Silencing TOX2 also impaired tumor formation of NKTL cells in vivo. Metastasis-associated phosphatase PRL-3 has been identified and validated as a key downstream effector of TOX2-mediated oncogenesis. Conclusions Our integrative SE profiling strategy revealed the landscape of SEs, novel targets and insights into molecular pathogenesis of NKTL. The RUNX3-TOX2-SE-TOX2-PRL-3 regulatory pathway may represent a hallmark of NKTL biology. Targeting TOX2 could be a valuable therapeutic intervene for NKTL patients and warrants further study in clinic.

Published

2023

2. CDK9 inhibition induces epigenetic reprogramming revealing strategies to circumvent resistance in lymphoma

Author

Elana Thieme, Nur Bruss, Duanchen Sun, Edward C. Dominguez, Daniel Coleman, Tingting Liu, Carly Roleder, Melissa Martinez, Krystine Garcia-Mansfield, Brian Ball, Patrick Pirrotte, Lili Wang, Zheng Xia, and Alexey V. Danilov

Subjects

CDK9, BRD4, Mediator, Super-enhancer, PI3K, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Diffuse large B-cell lymphoma (DLBCL) exhibits significant genetic heterogeneity which contributes to drug resistance, necessitating development of novel therapeutic approaches. Pharmacological inhibitors of cyclin-dependent kinases (CDK) demonstrated pre-clinical activity in DLBCL, however many stalled in clinical development. Here we show that AZD4573, a selective inhibitor of CDK9, restricted growth of DLBCL cells. CDK9 inhibition (CDK9i) resulted in rapid changes in the transcriptome and proteome, with downmodulation of multiple oncoproteins (eg, MYC, Mcl-1, JunB, PIM3) and deregulation of phosphoinotiside-3 kinase (PI3K) and senescence pathways. Following initial transcriptional repression due to RNAPII pausing, we observed transcriptional recovery of several oncogenes, including MYC and PIM3. ATAC-Seq and ChIP-Seq experiments revealed that CDK9i induced epigenetic remodeling with bi-directional changes in chromatin accessibility, suppressed promoter activation and led to sustained reprograming of the super-enhancer landscape. A CRISPR library screen suggested that SE-associated genes in the Mediator complex, as well as AKT1, confer resistance to CDK9i. Consistent with this, sgRNA-mediated knockout of MED12 sensitized cells to CDK9i. Informed by our mechanistic findings, we combined AZD4573 with either PIM kinase or PI3K inhibitors. Both combinations decreased proliferation and induced apoptosis in DLBCL and primary lymphoma cells in vitro as well as resulted in delayed tumor progression and extended survival of mice xenografted with DLBCL in vivo. Thus, CDK9i induces reprogramming of the epigenetic landscape, and super-enhancer driven recovery of select oncogenes may contribute to resistance to CDK9i. PIM and PI3K represent potential targets to circumvent resistance to CDK9i in the heterogeneous landscape of DLBCL.

Published

2023

3. Harnessing the MYB-dependent TAL1 5’super-enhancer for targeted therapy in T-ALL

Author

Charlotte Smith, Aurore Touzart, Mathieu Simonin, Christine Tran-Quang, Guillaume Hypolite, Mehdi Latiri, Guillaume P. Andrieu, Estelle Balducci, Marie-Émilie Dourthe, Ashish Goyal, Françoise Huguet, Arnaud Petit, Norbert Ifrah, André Baruchel, Hervé Dombret, Elizabeth Macintyre, Christoph Plass, Jacques Ghysdael, Nicolas Boissel, and Vahid Asnafi

Subjects

Super-enhancer, Oncogene, Targeted therapy, Cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract The acquisition of genetic abnormalities engendering oncogene dysregulation underpins cancer development. Certain proto-oncogenes possess several dysregulation mechanisms, yet how each mechanism impacts clinical outcome is unclear. Using T-cell acute lymphoblastic leukemia (T-ALL) as an example, we show that patients harboring 5’super-enhancer (5’SE) mutations of the TAL1 oncogene identifies a specific patient subgroup with poor prognosis irrespective of the level of oncogene dysregulation. Remarkably, the MYB dependent oncogenic 5’SE can be targeted using Mebendazole to induce MYB protein degradation and T-ALL cell death. Of note Mebendazole treatment demonstrated efficacy in vivo in T-ALL preclinical models. Our work provides proof of concept that within a specific oncogene driven cancer, the mechanism of oncogene dysregulation rather than the oncogene itself can identify clinically distinct patient subgroups and pave the way for future super-enhancer targeting therapy.

Published

2023

4. Super-enhancer-driven TOX2 mediates oncogenesis in Natural Killer/T Cell Lymphoma.

Author

Zhou, Jianbiao, Toh, Sabrina Hui-Min, Tan, Tze King, Balan, Kalpnaa, Lim, Jing Quan, Tan, Tuan Zea, Xiong, Sinan, Jia, Yunlu, Ng, Siok-Bian, Peng, Yanfen, Jeyasekharan, Anand D., Fan, Shuangyi, Lim, Soon Thye, Ong, Chin-Ann Johnny, Ong, Choon Kiat, Sanda, Takaomi, and Chng, Wee-Joo

Subjects

*T cells, *KILLER cells, *LYMPHOMAS, *NON-Hodgkin's lymphoma, *CARCINOGENESIS

Abstract

Background: Extranodal natural killer/T-cell lymphoma (NKTL) is an aggressive type of non-Hodgkin lymphoma with dismal outcome. A better understanding of disease biology and key oncogenic process is necessary for the development of targeted therapy. Super-enhancers (SEs) have been shown to drive pivotal oncogenes in various malignancies. However, the landscape of SEs and SE-associated oncogenes remain elusive in NKTL. Methods: We used Nano-ChIP-seq of the active enhancer marker histone H3 lysine 27 acetylation (H3K27ac) to profile unique SEs NKTL primary tumor samples. Integrative analysis of RNA-seq and survival data further pinned down high value, novel SE oncogenes. We utilized shRNA knockdown, CRISPR-dCas9, luciferase reporter assay, ChIP-PCR to investigate the regulation of transcription factor (TF) on SE oncogenes. Multi-color immunofluorescence (mIF) staining was performed on an independent cohort of clinical samples. Various function experiments were performed to evaluate the effects of TOX2 on the malignancy of NKTL in vitro and in vivo. Results: SE landscape was substantially different in NKTL samples in comparison with normal tonsils. Several SEs at key transcriptional factor (TF) genes, including TOX2, TBX21(T-bet), EOMES, RUNX2, and ID2, were identified. We confirmed that TOX2 was aberrantly overexpressed in NKTL relative to normal NK cells and high expression of TOX2 was associated with worse survival. Modulation of TOX2 expression by shRNA, CRISPR-dCas9 interference of SE function impacted on cell proliferation, survival and colony formation ability of NKTL cells. Mechanistically, we found that RUNX3 regulates TOX2 transcription by binding to the active elements of its SE. Silencing TOX2 also impaired tumor formation of NKTL cells in vivo. Metastasis-associated phosphatase PRL-3 has been identified and validated as a key downstream effector of TOX2-mediated oncogenesis. Conclusions: Our integrative SE profiling strategy revealed the landscape of SEs, novel targets and insights into molecular pathogenesis of NKTL. The RUNX3-TOX2-SE-TOX2-PRL-3 regulatory pathway may represent a hallmark of NKTL biology. Targeting TOX2 could be a valuable therapeutic intervene for NKTL patients and warrants further study in clinic. [ABSTRACT FROM AUTHOR]

Published

2023

5. CDK9 inhibition induces epigenetic reprogramming revealing strategies to circumvent resistance in lymphoma.

Author

Thieme, Elana, Bruss, Nur, Sun, Duanchen, Dominguez, Edward C., Coleman, Daniel, Liu, Tingting, Roleder, Carly, Martinez, Melissa, Garcia-Mansfield, Krystine, Ball, Brian, Pirrotte, Patrick, Wang, Lili, Xia, Zheng, and Danilov, Alexey V.

Abstract

Diffuse large B-cell lymphoma (DLBCL) exhibits significant genetic heterogeneity which contributes to drug resistance, necessitating development of novel therapeutic approaches. Pharmacological inhibitors of cyclin-dependent kinases (CDK) demonstrated pre-clinical activity in DLBCL, however many stalled in clinical development. Here we show that AZD4573, a selective inhibitor of CDK9, restricted growth of DLBCL cells. CDK9 inhibition (CDK9i) resulted in rapid changes in the transcriptome and proteome, with downmodulation of multiple oncoproteins (eg, MYC, Mcl-1, JunB, PIM3) and deregulation of phosphoinotiside-3 kinase (PI3K) and senescence pathways. Following initial transcriptional repression due to RNAPII pausing, we observed transcriptional recovery of several oncogenes, including MYC and PIM3. ATAC-Seq and ChIP-Seq experiments revealed that CDK9i induced epigenetic remodeling with bi-directional changes in chromatin accessibility, suppressed promoter activation and led to sustained reprograming of the super-enhancer landscape. A CRISPR library screen suggested that SE-associated genes in the Mediator complex, as well as AKT1, confer resistance to CDK9i. Consistent with this, sgRNA-mediated knockout of MED12 sensitized cells to CDK9i. Informed by our mechanistic findings, we combined AZD4573 with either PIM kinase or PI3K inhibitors. Both combinations decreased proliferation and induced apoptosis in DLBCL and primary lymphoma cells in vitro as well as resulted in delayed tumor progression and extended survival of mice xenografted with DLBCL in vivo. Thus, CDK9i induces reprogramming of the epigenetic landscape, and super-enhancer driven recovery of select oncogenes may contribute to resistance to CDK9i. PIM and PI3K represent potential targets to circumvent resistance to CDK9i in the heterogeneous landscape of DLBCL. [ABSTRACT FROM AUTHOR]

Published

2023

6. Harnessing the MYB-dependent TAL1 5'super-enhancer for targeted therapy in T-ALL.

Author

Smith, Charlotte, Touzart, Aurore, Simonin, Mathieu, Tran-Quang, Christine, Hypolite, Guillaume, Latiri, Mehdi, Andrieu, Guillaume P., Balducci, Estelle, Dourthe, Marie-Émilie, Goyal, Ashish, Huguet, Françoise, Petit, Arnaud, Ifrah, Norbert, Baruchel, André, Dombret, Hervé, Macintyre, Elizabeth, Plass, Christoph, Ghysdael, Jacques, Boissel, Nicolas, and Asnafi, Vahid

Subjects

*CELL death, *PROTO-oncogenes, *PROTEOLYSIS, *LYMPHOBLASTIC leukemia, *ONCOGENES, *ACUTE leukemia

Abstract

The acquisition of genetic abnormalities engendering oncogene dysregulation underpins cancer development. Certain proto-oncogenes possess several dysregulation mechanisms, yet how each mechanism impacts clinical outcome is unclear. Using T-cell acute lymphoblastic leukemia (T-ALL) as an example, we show that patients harboring 5'super-enhancer (5'SE) mutations of the TAL1 oncogene identifies a specific patient subgroup with poor prognosis irrespective of the level of oncogene dysregulation. Remarkably, the MYB dependent oncogenic 5'SE can be targeted using Mebendazole to induce MYB protein degradation and T-ALL cell death. Of note Mebendazole treatment demonstrated efficacy in vivo in T-ALL preclinical models. Our work provides proof of concept that within a specific oncogene driven cancer, the mechanism of oncogene dysregulation rather than the oncogene itself can identify clinically distinct patient subgroups and pave the way for future super-enhancer targeting therapy. [ABSTRACT FROM AUTHOR]

Published

2023

7. Disruption of super-enhancer-driven tumor suppressor gene RCAN1.4 expression promotes the malignancy of breast carcinoma

Author

Rong Deng, Jun-Hao Huang, Yan Wang, Li-Huan Zhou, Zi-Feng Wang, Bing-Xin Hu, Yu-Hong Chen, Dong Yang, Jia Mai, Zhi-Ling Li, Hai-Liang Zhang, Yun Huang, Xiao-Dan Peng, Gong-Kan Feng, Xiao-Feng Zhu, and Jun Tang

Subjects

Super-enhancer, RCAN1.4, RUNX3, BRD4, Breast carcinoma, Malignancy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Super-enhancers (SEs) play a crucial role in cancer, which is often associate with activated oncogenes. However, little is known about how SEs facilitate tumour suppression. Individuals with Down syndrome exhibit a remarkably reduced incidence of breast cancer (BC), moving the search for tumor suppressor genes on human chromosome 21 (HSA21). In this study, we aim to identify and explore potential mechanisms by which SEs are established for tumor suppressor RCAN1.4 on HSA21 in BC. Methods In silico analysis and immunohistochemical staining were used to assess the expression and clinical relevance of RCAN1.4 and RUNX3 in BC. Function experiments were performed to evaluate the effects of RCAN1.4 on the malignancy of breast carcinoma in vitro and in vivo. ChIP-seq data analysis, ChIP-qPCR, double-CRISPR genome editing, and luciferase reporter assay were utilized to confirm RUNX3 was involved in regulating RCAN1.4-associated SE in BC. The clinical value of co-expression of RCAN1.4 and RUNX3 was evaluated in BC patients. Results Here, we characterized RCAN1.4 as a potential tumour suppressor in BC. RCAN1.4 loss promoted tumour metastasis to bone and brain, and its overexpression inhibited tumour growth by blocking the calcineurin-NFATc1 pathway. Unexpectedly, we found RCAN1.4 expression was driven by a ~ 23 kb-long SE. RCAN1.4-SEdistal was sensitive to BRD4 inhibition, and its deletion decreased RCAN1.4 expression by over 90% and induced the malignant phenotype of BC cells. We also discovered that the binding sites in the SE region of RCAN1.4 were enriched for consensus sequences of transcription factor RUNX3. Knockdown of RUNX3 repressed the luciferase activity and also decreased H3K27ac enrichment binding at the SE region of RCAN1.4. Furthermore, abnormal SE-driven RCAN1.4 expression mediated by RUNX3 loss could be physiologically significant and clinically relevant in BC patients. Notably, we established a prognostic model based on RCAN1.4 and RUNX3 co-expression that effectively predicted the overall survival in BC patients. Conclusions These findings reveal an important role of SEs in facilitating tumour suppression in BC. Considering that the combination of low RCAN1.4 and low RUNX3 expression has worse prognosis, RUNX3-RCAN1.4 axis maybe a novel prognostic biomarker and therapeutic target for BC patients.

Published

2020

8. Oncogenic seRNA functional activation: a novel mechanism of tumorigenesis

Author

Yuan Tan, Yuejin Li, and Faqing Tang

Subjects

Super-enhancer, seRNA, Molecular mechanisms, Cancer progress, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract seRNA is a noncoding RNA (ncRNA) transcribed from active super-enhancer (SE), through which SE exerts biological functions and participates in various physiological and pathological processes. seRNA recruits cofactor, RNA polymerase II and mediator to constitute and stabilize chromatin loop SE and promoter region, which regulates target genes transcription. In tumorigenesis, DNA insertion, deletion, translocation, focal amplification and carcinogen factor mediate oncogenic SE generation, meanwhile, oncogenic SE transcribes into tumor-related seRNA, termed as oncogenic seRNA. Oncogenic seRNA participates in tumorigenesis through activating various signal-pathways. The recent reports showed that oncogenic seRNA implicates in a widespread range of cytopathological processes in cancer progression including cell proliferation, apoptosis, autophagy, epithelial-mesenchymal transition, extracellular matrix stiffness and angiogenesis. In this article, we comprehensively summarized seRNA’s characteristics and functions, and emphatically introduced inducible formation of oncogenic seRNA and its functional mechanisms. Lastly, some research strategies on oncogenic seRNA were introduced, and the perspectives on cancer therapy that targets oncogenic seRNA were also discussed.

Published

2020

9. Disruption of super-enhancer-driven tumor suppressor gene RCAN1.4 expression promotes the malignancy of breast carcinoma.

Author

Deng, Rong, Huang, Jun-Hao, Wang, Yan, Zhou, Li-Huan, Wang, Zi-Feng, Hu, Bing-Xin, Chen, Yu-Hong, Yang, Dong, Mai, Jia, Li, Zhi-Ling, Zhang, Hai-Liang, Huang, Yun, Peng, Xiao-Dan, Feng, Gong-Kan, Zhu, Xiao-Feng, and Tang, Jun

Subjects

*TUMOR suppressor genes, *GENE expression, *HUMAN chromosomes, *IMMUNOSTAINING, *CARCINOMA, *LOBULAR carcinoma

Abstract

Background: Super-enhancers (SEs) play a crucial role in cancer, which is often associate with activated oncogenes. However, little is known about how SEs facilitate tumour suppression. Individuals with Down syndrome exhibit a remarkably reduced incidence of breast cancer (BC), moving the search for tumor suppressor genes on human chromosome 21 (HSA21). In this study, we aim to identify and explore potential mechanisms by which SEs are established for tumor suppressor RCAN1.4 on HSA21 in BC. Methods: In silico analysis and immunohistochemical staining were used to assess the expression and clinical relevance of RCAN1.4 and RUNX3 in BC. Function experiments were performed to evaluate the effects of RCAN1.4 on the malignancy of breast carcinoma in vitro and in vivo. ChIP-seq data analysis, ChIP-qPCR, double-CRISPR genome editing, and luciferase reporter assay were utilized to confirm RUNX3 was involved in regulating RCAN1.4-associated SE in BC. The clinical value of co-expression of RCAN1.4 and RUNX3 was evaluated in BC patients. Results: Here, we characterized RCAN1.4 as a potential tumour suppressor in BC. RCAN1.4 loss promoted tumour metastasis to bone and brain, and its overexpression inhibited tumour growth by blocking the calcineurin-NFATc1 pathway. Unexpectedly, we found RCAN1.4 expression was driven by a ~ 23 kb-long SE. RCAN1.4-SEdistal was sensitive to BRD4 inhibition, and its deletion decreased RCAN1.4 expression by over 90% and induced the malignant phenotype of BC cells. We also discovered that the binding sites in the SE region of RCAN1.4 were enriched for consensus sequences of transcription factor RUNX3. Knockdown of RUNX3 repressed the luciferase activity and also decreased H3K27ac enrichment binding at the SE region of RCAN1.4. Furthermore, abnormal SE-driven RCAN1.4 expression mediated by RUNX3 loss could be physiologically significant and clinically relevant in BC patients. Notably, we established a prognostic model based on RCAN1.4 and RUNX3 co-expression that effectively predicted the overall survival in BC patients. Conclusions: These findings reveal an important role of SEs in facilitating tumour suppression in BC. Considering that the combination of low RCAN1.4 and low RUNX3 expression has worse prognosis, RUNX3-RCAN1.4 axis maybe a novel prognostic biomarker and therapeutic target for BC patients. [ABSTRACT FROM AUTHOR]

Published

2020

10. Oncogenic seRNA functional activation: a novel mechanism of tumorigenesis.

Author

Tan, Yuan, Li, Yuejin, and Tang, Faqing

Subjects

*RNA polymerase II, *NON-coding RNA, *EXTRACELLULAR matrix, *CHARACTERISTIC functions, *CANCER invasiveness

Abstract

seRNA is a noncoding RNA (ncRNA) transcribed from active super-enhancer (SE), through which SE exerts biological functions and participates in various physiological and pathological processes. seRNA recruits cofactor, RNA polymerase II and mediator to constitute and stabilize chromatin loop SE and promoter region, which regulates target genes transcription. In tumorigenesis, DNA insertion, deletion, translocation, focal amplification and carcinogen factor mediate oncogenic SE generation, meanwhile, oncogenic SE transcribes into tumor-related seRNA, termed as oncogenic seRNA. Oncogenic seRNA participates in tumorigenesis through activating various signal-pathways. The recent reports showed that oncogenic seRNA implicates in a widespread range of cytopathological processes in cancer progression including cell proliferation, apoptosis, autophagy, epithelial-mesenchymal transition, extracellular matrix stiffness and angiogenesis. In this article, we comprehensively summarized seRNA's characteristics and functions, and emphatically introduced inducible formation of oncogenic seRNA and its functional mechanisms. Lastly, some research strategies on oncogenic seRNA were introduced, and the perspectives on cancer therapy that targets oncogenic seRNA were also discussed. [ABSTRACT FROM AUTHOR]

Published

2020

11. Oncogenic seRNA functional activation: a novel mechanism of tumorigenesis

Author

Yuejin Li, Faqing Tang, and Yuan Tan

Subjects

0301 basic medicine, Cancer Research, Transcription, Genetic, Carcinogenesis, RNA polymerase II, Review, Biology, medicine.disease_cause, lcsh:RC254-282, 03 medical and health sciences, 0302 clinical medicine, Super-enhancer, Mediator, Transcription (biology), Neoplasms, medicine, Animals, Humans, Autophagy, Promoter, Oncogenes, Molecular mechanisms, Non-coding RNA, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Cell biology, Gene Expression Regulation, Neoplastic, Enhancer Elements, Genetic, 030104 developmental biology, Oncology, Cancer progress, 030220 oncology & carcinogenesis, biology.protein, Molecular Medicine, RNA, Long Noncoding, seRNA

Abstract

seRNA is a noncoding RNA (ncRNA) transcribed from active super-enhancer (SE), through which SE exerts biological functions and participates in various physiological and pathological processes. seRNA recruits cofactor, RNA polymerase II and mediator to constitute and stabilize chromatin loop SE and promoter region, which regulates target genes transcription. In tumorigenesis, DNA insertion, deletion, translocation, focal amplification and carcinogen factor mediate oncogenic SE generation, meanwhile, oncogenic SE transcribes into tumor-related seRNA, termed as oncogenic seRNA. Oncogenic seRNA participates in tumorigenesis through activating various signal-pathways. The recent reports showed that oncogenic seRNA implicates in a widespread range of cytopathological processes in cancer progression including cell proliferation, apoptosis, autophagy, epithelial-mesenchymal transition, extracellular matrix stiffness and angiogenesis. In this article, we comprehensively summarized seRNA’s characteristics and functions, and emphatically introduced inducible formation of oncogenic seRNA and its functional mechanisms. Lastly, some research strategies on oncogenic seRNA were introduced, and the perspectives on cancer therapy that targets oncogenic seRNA were also discussed.

Published

2020

12. Targeting CDK7 suppresses super enhancer-linked inflammatory genes and alleviates CAR T cell-induced cytokine release syndrome

Author

Chong Li, Fengtao Su, Xueguan Lu, Bian Huifang, Kairui Jin, Tingting Xu, Guo Xiaomao, Ye Wei, and Wei Qian

Subjects

Lipopolysaccharides, Chimeric antigen receptor engineered T cells, 0301 basic medicine, Cancer Research, Transcription, Genetic, medicine.medical_treatment, Antineoplastic Agents, Cyclin-dependent kinase 7, Phenylenediamines, Immunotherapy, Adoptive, Models, Biological, lcsh:RC254-282, 03 medical and health sciences, 0302 clinical medicine, Super-enhancer, Cytokine release syndrome, Inflammatory genes, medicine, Animals, Humans, STAT1, Enhancer, Protein Kinase Inhibitors, Inflammation, biology, Kinase, Gene Expression Profiling, Research, Macrophages, Super enhancer, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, medicine.disease, Cyclin-Dependent Kinases, Chimeric antigen receptor, Mice, Inbred C57BL, Enhancer Elements, Genetic, Pyrimidines, 030104 developmental biology, Cytokine, Oncology, 030220 oncology & carcinogenesis, biology.protein, Cancer research, Molecular Medicine, Female, RNA Polymerase II, Cyclin-Dependent Kinase-Activating Kinase

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.

Published

2021

13. Disruption of super-enhancer-driven tumor suppressor gene RCAN1.4 expression promotes the malignancy of breast carcinoma

Author

Xiao-Dan Peng, Dong Yang, Gong-Kan Feng, Xiao Feng Zhu, Rong Deng, Jun-Hao Huang, Li-Huan Zhou, Yun Huang, Jia Mai, Yu-Hong Chen, Yan Wang, Hai-Liang Zhang, Zi-Feng Wang, Jun Tang, Bing-Xin Hu, and Zhi-Ling Li

Subjects

0301 basic medicine, Cancer Research, Muscle Proteins, Cell Cycle Proteins, Kaplan-Meier Estimate, law.invention, 0302 clinical medicine, Super-enhancer, law, Genes, Tumor Suppressor, Gene knockdown, Calcineurin, Tumor suppressor, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Prognosis, DNA-Binding Proteins, Gene Expression Regulation, Neoplastic, Cell Transformation, Neoplastic, Enhancer Elements, Genetic, Oncology, 030220 oncology & carcinogenesis, Disease Progression, Molecular Medicine, BRD4, Female, Disease Susceptibility, Protein Binding, Signal Transduction, Tumor suppressor gene, RUNX3, Breast carcinoma, Breast Neoplasms, Biology, Malignancy, lcsh:RC254-282, Models, Biological, 03 medical and health sciences, Cell Line, Tumor, medicine, Humans, Transcription factor, Cell Proliferation, NFATC Transcription Factors, Gene Expression Profiling, Research, Cancer, Computational Biology, medicine.disease, RCAN1.4, 030104 developmental biology, Cancer research, Suppressor, Transcription Factors

Abstract

Background Super-enhancers (SEs) play a crucial role in cancer, which is often associate with activated oncogenes. However, little is known about how SEs facilitate tumour suppression. Individuals with Down syndrome exhibit a remarkably reduced incidence of breast cancer (BC), moving the search for tumor suppressor genes on human chromosome 21 (HSA21). In this study, we aim to identify and explore potential mechanisms by which SEs are established for tumor suppressor RCAN1.4 on HSA21 in BC. Methods In silico analysis and immunohistochemical staining were used to assess the expression and clinical relevance of RCAN1.4 and RUNX3 in BC. Function experiments were performed to evaluate the effects of RCAN1.4 on the malignancy of breast carcinoma in vitro and in vivo. ChIP-seq data analysis, ChIP-qPCR, double-CRISPR genome editing, and luciferase reporter assay were utilized to confirm RUNX3 was involved in regulating RCAN1.4-associated SE in BC. The clinical value of co-expression of RCAN1.4 and RUNX3 was evaluated in BC patients. Results Here, we characterized RCAN1.4 as a potential tumour suppressor in BC. RCAN1.4 loss promoted tumour metastasis to bone and brain, and its overexpression inhibited tumour growth by blocking the calcineurin-NFATc1 pathway. Unexpectedly, we found RCAN1.4 expression was driven by a ~ 23 kb-long SE. RCAN1.4-SEdistal was sensitive to BRD4 inhibition, and its deletion decreased RCAN1.4 expression by over 90% and induced the malignant phenotype of BC cells. We also discovered that the binding sites in the SE region of RCAN1.4 were enriched for consensus sequences of transcription factor RUNX3. Knockdown of RUNX3 repressed the luciferase activity and also decreased H3K27ac enrichment binding at the SE region of RCAN1.4. Furthermore, abnormal SE-driven RCAN1.4 expression mediated by RUNX3 loss could be physiologically significant and clinically relevant in BC patients. Notably, we established a prognostic model based on RCAN1.4 and RUNX3 co-expression that effectively predicted the overall survival in BC patients. Conclusions These findings reveal an important role of SEs in facilitating tumour suppression in BC. Considering that the combination of low RCAN1.4 and low RUNX3 expression has worse prognosis, RUNX3-RCAN1.4 axis maybe a novel prognostic biomarker and therapeutic target for BC patients.

Published

2020