Your search keyword '"Agrawal-Singh, Shuchi"' showing total 36 results

1. Acute resistance to BET inhibitors remodels compensatory transcriptional programs via p300 coactivation

Author

Shah, Viral, Giotopoulos, George, Osaki, Hikari, Meyerhöfer, Markus, Meduri, Eshwar, Gallego-Crespo, Aaron, Behrendt, Malte A., Saura-Pañella, Maria, Tarkar, Aarti, Schubert, Benedict, Yun, Haiyang, Horton, Sarah J., Agrawal-Singh, Shuchi, Haehnel, Patricia S., Basheer, Faisal, Lugo, Dave, Eleftheriadou, Ioanna, Barbash, Olena, Dhar, Arindam, Kühn, Michael W.M., Guezguez, Borhane, Theobald, Matthias, Kindler, Thomas, Gallipoli, Paolo, Yeh, Paul, Dawson, Mark A., Prinjha, Rab K., Huntly, Brian J. P., and Sasca, Daniel

Published

2024

2. HOXA9 forms a repressive complex with nuclear matrix–associated protein SAFB to maintain acute myeloid leukemia

Author

Agrawal-Singh, Shuchi, Bagri, Jaana, Giotopoulos, George, Azazi, Dhoyazan M. A., Horton, Sarah J., Lopez, Cecile K., Anand, Shubha, Bach, Anne-Sophie, Stedham, Frances, Antrobus, Robin, Houghton, Jack W., Vassiliou, George S., Sasca, Daniel, Yun, Haiyang, Whetton, Anthony D., and Huntly, Brian J. P.

Published

2023

3. Mutational synergy during leukemia induction remodels chromatin accessibility, histone modifications and three-dimensional DNA topology to alter gene expression

Author

Yun, Haiyang, Narayan, Nisha, Vohra, Shabana, Giotopoulos, George, Mupo, Annalisa, Madrigal, Pedro, Sasca, Daniel, Lara-Astiaso, David, Horton, Sarah J., Agrawal-Singh, Shuchi, Meduri, Eshwar, Basheer, Faisal, Marando, Ludovica, Gozdecka, Malgorzata, Dovey, Oliver M., Castillo-Venzor, Aracely, Wang, Xiaonan, Gallipoli, Paolo, Müller-Tidow, Carsten, Osborne, Cameron S., Vassiliou, George S., and Huntly, Brian J. P.

Published

2021

4. Histone deacetylase 4 promotes type I interferon signaling, restricts DNA viruses, and is degraded via vaccinia virus protein C6

Author

Lu, Yongxu, Stuart, Jennifer H., Talbot-Cooper, Callum, Agrawal-Singh, Shuchi, Huntly, Brian, Smid, Andrei I., Snowden, Joseph S., Dupont, Liane, and Smith, Geoffrey L.

Published

2019

5. A guide to epigenetics in leukaemia stem cells

Author

Agrawal‐Singh, Shuchi, primary, Bagri, Jaana, additional, Sakakini, Nathalie, additional, and Huntly, Brian J. P., additional

Published

2023

6. Genetic or pharmacological inactivation of CREBBP sensitizes B-cell Acute Lymphoblastic Leukemia to Ferroptotic Cell Death upon BCL2 Inhibition

Author

Garcia-Gimenez, Alicia, primary, Ditcham, Jonathan E, additional, Azazi, Dhoyazan M.A., additional, Meduri, Eshwar, additional, Asby, Ryan, additional, Sakakini, Nathalie, additional, Lopez, Cecile K, additional, Narayan, Nisha, additional, Beinortas, Tumas, additional, Bagri, Jaana, additional, Agrawal Singh, Shuchi, additional, Giotopoulos, George, additional, Murphy, Michael P, additional, Horton, Sarah J, additional, Huntly, Brian, additional, and Richardson, Simon E, additional

Published

2023

7. HOXA9 Nucleates a Repressive Chromatin Complex with Nuclear Matrix-Associated Protein- Safb to Maintain Acute Myeloid Leukemia

Author

Agrawal Singh, Shuchi, primary, Bagri, Jaana, additional, Giotopoulos, George, additional, Meduri, Eshwar, additional, Anad, Shubha, additional, Horton, Sarah J., additional, Sasca, Daniel, additional, Yun, Haiyang, additional, Whetton, Anthony, additional, and Huntly, Brian James Patrick, additional

Published

2022

8. Loss of the histone methyltransferase EZH2 induces resistance to multiple drugs in acute myeloid leukemia

Author

Göllner, Stefanie, Oellerich, Thomas, Agrawal-Singh, Shuchi, Schenk, Tino, Klein, Hans-Ulrich, Rohde, Christian, Pabst, Caroline, Sauer, Tim, Lerdrup, Mads, Tavor, Sigal, Stölzel, Friedrich, Herold, Sylvia, Ehninger, Gerhard, Köhler, Gabriele, Pan, Kuan-Ting, Urlaub, Henning, Serve, Hubert, Dugas, Martin, Spiekermann, Karsten, Vick, Binje, Jeremias, Irmela, Berdel, Wolfgang E, Hansen, Klaus, Zelent, Arthur, Wickenhauser, Claudia, Müller, Lutz P, Thiede, Christian, and Müller-Tidow, Carsten

Subjects

Methyltransferases -- Health aspects, Drug resistance -- Genetic aspects, Acute myelocytic leukemia -- Genetic aspects -- Development and progression -- Care and treatment, Biological sciences, Health

Abstract

In acute myeloid leukemia (AML), therapy resistance frequently occurs, leading to high mortality among patients. However, the mechanisms that render leukemic cells drug resistant remain largely undefined. Here, we identified loss of the histone methyltransferase EZH2 and subsequent reduction of histone H3K27 trimethylation as a novel pathway of acquired resistance to tyrosine kinase inhibitors (TKIs) and cytotoxic drugs in AML. Low EZH2 protein levels correlated with poor prognosis in AML patients. Suppression of EZH2 protein expression induced chemoresistance of AML cell lines and primary cells in vitro and in vivo. Low EZH2 levels resulted in derepression of HOX genes, and knockdown of HOXB7 and HOXA9 in the resistant cells was sufficient to improve sensitivity to TKIs and cytotoxic drugs. The endogenous loss of EZH2 expression in resistant cells and primary blasts from a subset of relapsed AML patients resulted from enhanced CDK1-dependent phosphorylation of EZH2 at Thr487. This interaction was stabilized by heat shock protein 90 (HSP90) and followed by proteasomal degradation of EZH2 in drug-resistant cells. Accordingly, inhibitors of HSP90, CDK1 and the proteasome prevented EZH2 degradation, decreased HOX gene expression and restored drug sensitivity. Finally, patients with reduced EZH2 levels at progression to standard therapy responded to the combination of bortezomib and cytarabine, concomitant with the re-establishment of EZH2 expression and blast clearance. These data suggest restoration of EZH2 protein as a viable approach to overcome treatment resistance in this AML patient population., Author(s): Stefanie Göllner (corresponding author) [1]; Thomas Oellerich [2, 3]; Shuchi Agrawal-Singh [4]; Tino Schenk [5]; Hans-Ulrich Klein [6]; Christian Rohde [1]; Caroline Pabst [1]; Tim Sauer [7]; Mads Lerdrup [...]

Published

2017

9. Acute resistance to BET inhibitors remodels compensatory transcriptional programs via p300 co-activation

Author

Shah, Viral, primary, Giotopoulos, George, additional, Osaki, Hikari, additional, Meyerhöfer, Markus, additional, Meduri, Eshwar, additional, Schubert, Benedict, additional, Yun, Haiyang, additional, Horton, Sarah J, additional, Agrawal-Singh, Shuchi, additional, Haehnel, Patricia S, additional, Basheer, Faisal, additional, Lugo, Dave, additional, Kühn, Michael WM, additional, Guezguez, Borhane, additional, Theobald, Matthias, additional, Kindler, Thomas, additional, Gallipoli, Paolo, additional, Prinjha, Rab K, additional, Huntly, Brian JP, additional, and Sasca, Daniel, additional

Published

2022

10. DNA methylation changes are a late event in acute promyelocytic leukemia and coincide with loss of transcription factor binding

Author

Schoofs, Till, Rohde, Christian, Hebestreit, Katja, Klein, Hans-Ulrich, Göllner, Stefanie, Schulze, Isabell, Lerdrup, Mads, Dietrich, Nikolaj, Agrawal-Singh, Shuchi, Witten, Anika, Stoll, Monika, Lengfelder, Eva, Hofmann, Wolf-Karsten, Schlenke, Peter, Büchner, Thomas, Hansen, Klaus, Berdel, Wolfgang E., Rosenbauer, Frank, Dugas, Martin, and Müller-Tidow, Carsten

Published

2013

11. Genome-wide analysis of histone H3 acetylation patterns in AML identifies PRDX2 as an epigenetically silenced tumor suppressor gene

Author

Agrawal-Singh, Shuchi, Isken, Fabienne, Agelopoulos, Konstantin, Klein, Hans-Ulrich, Thoennissen, Nils H., Koehler, Gabriele, Hascher, Antje, Bäumer, Nicole, Berdel, Wolfgang E., Thiede, Christian, Ehninger, Gerhard, Becker, Anke, Schlenke, Peter, Wang, Yipeng, McClelland, Michael, Krug, Utz, Koschmieder, Steffen, Büchner, Thomas, Yu, Dae-Yeul, Singh, Shailendra Vikram, Hansen, Klaus, Serve, Hubert, Dugas, Martin, and Müller-Tidow, Carsten

Published

2012

12. Inhibitor of Cyclin-dependent Kinase (CDK) Interacting with Cyclin A1 (INCA1) Regulates Proliferation and Is Repressed by Oncogenic Signaling

Author

Bäumer, Nicole, Tickenbrock, Lara, Tschanter, Petra, Lohmeyer, Lisa, Diederichs, Sven, Bäumer, Sebastian, Skryabin, Boris V., Zhang, Feng, Agrawal-Singh, Shuchi, Köhler, Gabriele, Berdel, Wolfgang E., Serve, Hubert, Koschmieder, Steffen, and Müller-Tidow, Carsten

Published

2011

13. Profiling of histone H3 lysine 9 trimethylation levels predicts transcription factor activity and survival in acute myeloid leukemia

Author

Müller-Tidow, Carsten, Klein, Hans-Ulrich, Hascher, Antje, Isken, Fabienne, Tickenbrock, Lara, Thoennissen, Nils, Agrawal-Singh, Shuchi, Tschanter, Petra, Disselhoff, Christine, Wang, Yipeng, Becker, Anke, Thiede, Christian, Ehninger, Gerhard, zur Stadt, Udo, Koschmieder, Steffen, Seidl, Matthias, Müller, Frank U., Schmitz, Wilhelm, Schlenke, Peter, McClelland, Michael, Berdel, Wolfgang E., Dugas, Martin, and Serve, Hubert

Published

2010

14. Polycomb Group Protein Displacement and Gene Activation through MSK-Dependent H3K27me3S28 Phosphorylation

Author

Gehani, Simmi Suman, Agrawal-Singh, Shuchi, Dietrich, Nikolaj, Christophersen, Nicolaj Strøyer, Helin, Kristian, and Hansen, Klaus

Published

2010

15. Pim2 cooperates with PML-RARα to induce acute myeloid leukemia in a bone marrow transplantation model

Author

Agrawal-Singh, Shuchi, Koschmieder, Steffen, Gelsing, Sandra, Stocking, Carol, Stehling, Martin, Thiede, Christian, Thoennissen, Nils H., Köhler, Gabriele, Valk, Peter J.M., Delwel, Ruud, Mills, Ken, Bäumer, Nicole, Tickenbrock, Lara, Hansen, Klaus, Berdel, Wolfgang E., Müller-Tidow, Carsten, and Serve, Hubert

Published

2010

16. Acute resistance to BET inhibitors remodels compensatory transcriptional programs via p300 coactivation

Author

Shah, Viral, Giotopoulos, George, Osaki, Hikari, Meyerhöfer, Markus, Meduri, Eshwar, Gallego-Crespo, Aaron, Behrendt, Malte A., Saura-Pañella, Maria, Tarkar, Aarti, Schubert, Benedict, Yun, Haiyang, Horton, Sarah J., Agrawal-Singh, Shuchi, Haehnel, Patricia S., Basheer, Faisal, Lugo, Dave, Eleftheriadou, Ioanna, Barbash, Olena, Dhar, Arindam, Kühn, Michael W.M., Guezguez, Borhane, Theobald, Matthias, Kindler, Thomas, Gallipoli, Paolo, Yeh, Paul, Dawson, Mark A., Prinjha, Rab K., Huntly, Brian J. P., and Sasca, Daniel

Abstract

•A prosurvival transcriptional feedback loop via p300 enables acute tolerance to BET inhibition.•BET followed by p300 inhibition improves cytotoxicity in AML and is optimally deployed during early stages of resistance to BET inhibitors.

Published

2025

17. Mutational synergy coordinately remodels chromatin accessibility, enhancer landscape and 3-Dimensional DNA topology to alter gene expression during leukemia induction

Author

Yun, Haiyang, primary, Vohra, Shabana, additional, Mupo, Annalisa, additional, Giotopoulos, George, additional, Sasca, Daniel, additional, Horton, Sarah J., additional, Agrawal-Singh, Shuchi, additional, Meduri, Eshwar, additional, Basheer, Faisal, additional, Marando, Ludovica, additional, Gozdecka, Malgorzata, additional, Dovey, Oliver M., additional, Castillo-Venzor, Aracely, additional, Wang, Xiaonan, additional, Gallipoli, Paolo, additional, Müller-Tidow, Carsten, additional, Osborne, Cameron S., additional, Vassiliou, George S., additional, and Huntly, Brian J. P., additional

Published

2020

18. Mutational Synergy Coordinately Remodels Chromatin Accessibility, Enhancer Landscape and 3-Dimensional DNA Topology to Alter Gene Expression during Leukemia Induction

Author

Yun, Haiyang, primary, Vohra, Shabana, primary, Mupo, Annalisa, primary, Giotopoulos, George, primary, Sasca, Daniel, primary, Horton, Sarah J., primary, Agrawal-Singh, Shuchi, primary, Meduri, Eshwar, primary, Basheer, Faisal, primary, Marando, Ludovica, primary, Gozdecka, Malgorzata, primary, Dovey, Oliver M., primary, Wang, Xiaonan, primary, Gallipoli, Paolo, primary, Osborne, Cameron, primary, Vassiliou, George S., primary, and Huntly, Brian J. P., primary

Published

2019

19. PLZF targets developmental enhancers for activation during osteogenic differentiation of human mesenchymal stem cells

Author

Agrawal-Singh, Shuchi, Lerdrup, Mads, Gomes, Ana-Luisa R., van de Werken, Harmen J. G., Johansen, Jens Vilstrup, Andersson, Robin, Sandelin, Albin, Helin, Kristian, Hansen, Klaus, Agrawal-Singh, Shuchi, Lerdrup, Mads, Gomes, Ana-Luisa R., van de Werken, Harmen J. G., Johansen, Jens Vilstrup, Andersson, Robin, Sandelin, Albin, Helin, Kristian, and Hansen, Klaus

Published

2019

20. PLZF targets developmental enhancers for activation during osteogenic differentiation of human mesenchymal stem cells

Author

Agrawal Singh, Shuchi, primary, Lerdrup, Mads, additional, Gomes, Ana-Luisa R, additional, van de Werken, Harmen JG, additional, Vilstrup Johansen, Jens, additional, Andersson, Robin, additional, Sandelin, Albin, additional, Helin, Kristian, additional, and Hansen, Klaus, additional

Published

2019

21. Author response: PLZF targets developmental enhancers for activation during osteogenic differentiation of human mesenchymal stem cells

Author

Agrawal Singh, Shuchi, primary, Lerdrup, Mads, additional, Gomes, Ana-Luisa R, additional, van de Werken, Harmen JG, additional, Vilstrup Johansen, Jens, additional, Andersson, Robin, additional, Sandelin, Albin, additional, Helin, Kristian, additional, and Hansen, Klaus, additional

Published

2018

22. Histone deacetylase 4 promotes type I interferon signaling, restricts DNA viruses, and is degraded via vaccinia virus protein C6.

Author

Yongxu Lu, Stuart, Jennifer H., Talbot-Cooper, Callum, Agrawal-Singh, Shuchi, Huntly, Brian, Smid, Andrei I., Snowden, Joseph S., Dupont, Liane, and Smith, Geoffrey L.

Subjects

TYPE I interferons, VACCINIA, HISTONE deacetylase, VIRAL proteins, HUMAN herpesvirus 1, DNA viruses

Abstract

Interferons (IFNs) represent an important host defense against viruses. Type I IFNs induce JAK-STAT signaling and expression of IFN-stimulated genes (ISGs), which mediate antiviral activity. Histone deacetylases (HDACs) perform multiple functions in regulating gene expression and some class I HDACs and the class IV HDAC, HDAC11, influence type I IFN signaling. Here, HDAC4, a class II HDAC, is shown to promote type I IFN signaling and coprecipitate with STAT2. Pharmacological inhibition of class II HDAC activity, or knockout of HDAC4 from HEK-293T and HeLa cells, caused a defective response to IFN-α. This defect in HDAC4-/- cells was rescued by reintroduction of HDAC4 or catalytically inactive HDAC4, but not HDAC1 or HDAC5. ChIP analysis showed HDAC4 was recruited to ISG promoters following IFN stimulation andwas needed for binding of STAT2 to these promoters. The biological importance of HDAC4 as a virus restriction factor was illustrated by the observations that (i) the replication and spread of vaccinia virus (VACV) and herpes simplex virus type 1 (HSV-1) were enhanced in HDAC4-/- cells and inhibited by overexpression of HDAC4; and (ii) HDAC4 is targeted for proteasomal degradation during VACV infection by VACV protein C6, a multifunctional IFN antagonist that coprecipitates with HDAC4 and is necessary and sufficient for HDAC4 degradation. [ABSTRACT FROM AUTHOR]

Published

2019

23. An interactive environment for agile analysis and visualization of ChIP-sequencing data

Author

Lerdrup, Mads, Johansen, Jens Vilstrup, Agrawal-Singh, Shuchi, Hansen, Klaus, Lerdrup, Mads, Johansen, Jens Vilstrup, Agrawal-Singh, Shuchi, and Hansen, Klaus

Abstract

To empower experimentalists with a means for fast and comprehensive chromatin immunoprecipitation sequencing (ChIP-seq) data analyses, we introduce an integrated computational environment, EaSeq. The software combines the exploratory power of genome browsers with an extensive set of interactive and user-friendly tools for genome-wide abstraction and visualization. It enables experimentalists to easily extract information and generate hypotheses from their own data and public genome-wide datasets. For demonstration purposes, we performed meta-analyses of public Polycomb ChIP-seq data and established a new screening approach to analyze more than 900 datasets from mouse embryonic stem cells for factors potentially associated with Polycomb recruitment. EaSeq, which is freely available and works on a standard personal computer, can substantially increase the throughput of many analysis workflows, facilitate transparency and reproducibility by automatically documenting and organizing analyses, and enable a broader group of scientists to gain insights from ChIP-seq data.

Published

2016

24. Loss of the histone methyltransferase EZH2 induces resistance to multiple drugs in acute myeloid leukemia

Author

Göllner, Stefanie, primary, Oellerich, Thomas, additional, Agrawal-Singh, Shuchi, additional, Schenk, Tino, additional, Klein, Hans-Ulrich, additional, Rohde, Christian, additional, Pabst, Caroline, additional, Sauer, Tim, additional, Lerdrup, Mads, additional, Tavor, Sigal, additional, Stölzel, Friedrich, additional, Herold, Sylvia, additional, Ehninger, Gerhard, additional, Köhler, Gabriele, additional, Pan, Kuan-Ting, additional, Urlaub, Henning, additional, Serve, Hubert, additional, Dugas, Martin, additional, Spiekermann, Karsten, additional, Vick, Binje, additional, Jeremias, Irmela, additional, Berdel, Wolfgang E, additional, Hansen, Klaus, additional, Zelent, Arthur, additional, Wickenhauser, Claudia, additional, Müller, Lutz P, additional, Thiede, Christian, additional, and Müller-Tidow, Carsten, additional

Published

2016

25. An interactive environment for agile analysis and visualization of ChIP-sequencing data

Author

Lerdrup, Mads, primary, Johansen, Jens Vilstrup, additional, Agrawal-Singh, Shuchi, additional, and Hansen, Klaus, additional

Published

2016

26. The lncRNA MIR31HG regulates p16(INK4A) expression to modulate senescence

Author

Montes Resano, Marta, Nielsen, Morten M, Maglieri, Giulia, Jacobsen, Anders, Højfeldt, Jonas, Agrawal-Singh, Shuchi, Hansen, Klaus, Helin, Kristian, van de Werken, Harmen J G, Pedersen, Jakob S, Lund, Anders H., Montes Resano, Marta, Nielsen, Morten M, Maglieri, Giulia, Jacobsen, Anders, Højfeldt, Jonas, Agrawal-Singh, Shuchi, Hansen, Klaus, Helin, Kristian, van de Werken, Harmen J G, Pedersen, Jakob S, and Lund, Anders H.

Abstract

Oncogene-induced senescence (OIS) can occur in response to oncogenic insults and is considered an important tumour suppressor mechanism. Here we identify the lncRNA MIR31HG as upregulated in OIS and find that knockdown of MIR31HG promotes a strong p16(INK4A)-dependent senescence phenotype. Under normal conditions, MIR31HG is found in both nucleus and cytoplasm, but following B-RAF expression MIR31HG is located mainly in the cytoplasm. We show that MIR31HG interacts with both INK4A and MIR31HG genomic regions and with Polycomb group (PcG) proteins, and that MIR31HG is required for PcG-mediated repression of the INK4A locus. We further identify a functional enhancer, located between MIR31HG and INK4A, which becomes activated during OIS and interacts with the MIR31HG promoter. Data from melanoma patients show a negative correlation between MIR31HG and p16(INK4A) expression levels, suggesting a role for this transcript in cancer. Hence, our data provide a new lncRNA-mediated regulatory mechanism for the tumour suppressor p16(INK4A).

Published

2015

27. Abstract 4430: Loss of the histone methyltransferase EZH2 induces chemoresistance in acute myeloid leukemia (AML)

Author

Göllner, Stefanie, primary, Agrawal-Singh, Shuchi, additional, Schenk, Tino, additional, Klein, Hans-Ulrich, additional, Rohde, Christian, additional, Sauer, Tim, additional, Lerdrup, Mads, additional, Tavor, Sigal, additional, Stölzel, Friedrich, additional, Ehninger, Gerhard, additional, Köhler, Gabriele, additional, Dugas, Martin, additional, Zelent, Arthur, additional, Thiede, Christian, additional, Berdel, Wolfgang E., additional, Hansen, Klaus, additional, and Müller-Tidow, Carsten, additional

Published

2015

28. The lncRNA MIR31HG regulates p16INK4A expression to modulate senescence

Author

Montes, Marta, primary, Nielsen, Morten M., additional, Maglieri, Giulia, additional, Jacobsen, Anders, additional, Højfeldt, Jonas, additional, Agrawal-Singh, Shuchi, additional, Hansen, Klaus, additional, Helin, Kristian, additional, van de Werken, Harmen J. G., additional, Pedersen, Jakob S., additional, and Lund, Anders H., additional

Published

2015

29. REST-mediated recruitment of polycomb repressor complexes in mammalian cells

Author

Dietrich, Nikolaj, Lerdrup, Mads, Landt, Eskild, Agrawal-Singh, Shuchi, Bak, Mads, Tommerup, Niels, Rappsilber, Juri, Södersten, Erik, Hansen, Klaus, Dietrich, Nikolaj, Lerdrup, Mads, Landt, Eskild, Agrawal-Singh, Shuchi, Bak, Mads, Tommerup, Niels, Rappsilber, Juri, Södersten, Erik, and Hansen, Klaus

Abstract

Polycomb Repressive Complex (PRC) 1 and PRC2 regulate genes involved in differentiation and development. However, the mechanism for how PRC1 and PRC2 are recruited to genes in mammalian cells is unclear. Here we present evidence for an interaction between the transcription factor REST, PRC1, and PRC2 and show that RNF2 and REST co-regulate a number of neuronal genes in human teratocarcinoma cells (NT2-D1). Using NT2-D1 cells as a model of neuronal differentiation, we furthermore showed that retinoic-acid stimulation led to displacement of PRC1 at REST binding sites, reduced H3K27Me3, and increased gene expression. Genome-wide analysis of Polycomb binding in Rest¿/¿ and Eed¿/¿ mouse embryonic stem (mES) cells showed that Rest was required for PRC1 recruitment to a subset of Polycomb regulated neuronal genes. Furthermore, we found that PRC1 can be recruited to Rest binding sites independently of CpG islands and the H3K27Me3 mark. Surprisingly, PRC2 was frequently increased around Rest binding sites located in CpG-rich regions in the Rest¿/¿ mES cells, indicating a more complex interplay where Rest also can limit PRC2 recruitment. Therefore, we propose that Rest has context-dependent functions for PRC1- and PRC2- recruitment, which allows this transcription factor to act both as a recruiter of Polycomb as well as a limiting factor for PRC2 recruitment at CpG islands.

Published

2012

30. Inhibitor of CDK interacting with cyclin A1 (INCA1) regulates proliferation and is repressed by oncogenic signaling

Author

Baumer, Nicole, Tickenbrock, Lara, Tschanter, Petra, Lohmeyer, Lisa, Diederichs, Sven, Baumer, Sebastian, Skryabin, Boris V, Zhang, Feng, Agrawal-Singh, Shuchi, Koehler, Gabriele, Berdel, Wolfgang E, Serve, Hubert, Koschmieder, Steffen, Muller-Tidow, Carsten, Baumer, Nicole, Tickenbrock, Lara, Tschanter, Petra, Lohmeyer, Lisa, Diederichs, Sven, Baumer, Sebastian, Skryabin, Boris V, Zhang, Feng, Agrawal-Singh, Shuchi, Koehler, Gabriele, Berdel, Wolfgang E, Serve, Hubert, Koschmieder, Steffen, and Muller-Tidow, Carsten

Abstract

The cell cycle is driven by the kinase activity of cyclin/CDK complexes which is negatively regulated by CDK inhibitor proteins. Recently, we identified INCA1 as interaction partner and substrate of cyclin A1 in complex with CDK2. On a functional level, we identified a novel cyclin binding site in the INCA1 protein. INCA1 inhibited CDK2 activity and cell proliferation. The inihibitory effects depended on the cyclin-interacting domain. Mitogenic and oncogenic signals suppressed INCA1 expression, while it was induced by cell cycle arrest. We established a deletional mouse model that showed increased CDK2 activity in spleen with altered spleen architecture in Inca1-/- mice. Inca1-/- embryonic fibroblasts showed an increase in the fraction of S-phase cells. Furthermore, blasts from ALL and AML patients expressed significantly reduced INCA1 levels highlighting its relevance for growth control in vivo. Taken together, this study identifies a novel CDK inhibitor with reduced expression in acute myeloid and lymphoid leukemia.

Published

2011

31. Agrawal-Singh, Shuchi

Author

Agrawal-Singh, Shuchi and Agrawal-Singh, Shuchi

Published

2009

32. REST–Mediated Recruitment of Polycomb Repressor Complexes in Mammalian Cells

Author

Dietrich, Nikolaj, primary, Lerdrup, Mads, additional, Landt, Eskild, additional, Agrawal-Singh, Shuchi, additional, Bak, Mads, additional, Tommerup, Niels, additional, Rappsilber, Juri, additional, Södersten, Erik, additional, and Hansen, Klaus, additional

Published

2012

33. ChIP-Chip in Primary AML Blasts Identifies Peroxiredoxin-II as An Epigenetically Silenced Tumor Suppressor.

Author

Agrawal-Singh, Shuchi, primary, Wiechmann, Markus, additional, Doths, Sandra, additional, Nolte, Christina, additional, Thoennissen, Nils Heinrich, additional, Klein, Hans-Ulrich, additional, Dugas, Martin, additional, Berdel, Wolfgang E., additional, Koschmieder, Steffen, additional, Serve, Hubert, additional, and Mueller-Tidow, Carsten, additional

Published

2008

34. Histone deacetylase 4 promotes type I interferon signaling, restricts DNA viruses, and is degraded via vaccinia virus protein C6

Author

Lu, Yongxu, Stuart, Jennifer H, Talbot-Cooper, Callum, Agrawal-Singh, Shuchi, Huntly, Brian, Smid, Andrei I, Snowden, Joseph S, Dupont, Liane, and Smith, Geoffrey L

Subjects

STAT2 recruitment, viruses, DNA Viruses, Vaccinia virus, histone deactylase 4, Herpesvirus 1, Human, Virus Replication, Histone Deacetylases, 3. Good health, type I interferon signaling, Cell Line, Repressor Proteins, Viral Proteins, HEK293 Cells, Cell Line, Tumor, Interferon Type I, vaccinia virus protein C6, Vaccinia, Humans, immune evasion, HeLa Cells, Signal Transduction

Abstract

Interferons (IFNs) represent an important host defense against viruses. Type I IFNs induce JAK-STAT signaling and expression of IFN-stimulated genes (ISGs), which mediate antiviral activity. Histone deacetylases (HDACs) perform multiple functions in regulating gene expression and some class I HDACs and the class IV HDAC, HDAC11, influence type I IFN signaling. Here, HDAC4, a class II HDAC, is shown to promote type I IFN signaling and coprecipitate with STAT2. Pharmacological inhibition of class II HDAC activity, or knockout of HDAC4 from HEK-293T and HeLa cells, caused a defective response to IFN-α. This defect in HDAC4-/- cells was rescued by reintroduction of HDAC4 or catalytically inactive HDAC4, but not HDAC1 or HDAC5. ChIP analysis showed HDAC4 was recruited to ISG promoters following IFN stimulation and was needed for binding of STAT2 to these promoters. The biological importance of HDAC4 as a virus restriction factor was illustrated by the observations that (i) the replication and spread of vaccinia virus (VACV) and herpes simplex virus type 1 (HSV-1) were enhanced in HDAC4-/- cells and inhibited by overexpression of HDAC4; and (ii) HDAC4 is targeted for proteasomal degradation during VACV infection by VACV protein C6, a multifunctional IFN antagonist that coprecipitates with HDAC4 and is necessary and sufficient for HDAC4 degradation.

35. The lncRNA MIR31HG regulates p16INK4A expression to modulate senescence.

Author

Montes, Marta, Nielsen, Morten M., Maglieri, Giulia, Jacobsen, Anders, Højfeldt, Jonas, Agrawal-Singh, Shuchi, Hansen, Klaus, Helin, Kristian, van de Werken, Harmen J. G., Pedersen, Jakob S., and Lund, Anders H.

Published

2015

36. HOXA9 forms a repressive complex with nuclear matrix-associated protein SAFB to maintain acute myeloid leukemia

Author

Shuchi Agrawal-Singh, Jaana Bagri, George Giotopoulos, Dhoyazan M. A. Azazi, Sarah J. Horton, Cecile K. Lopez, Shubha Anand, Anne-Sophie Bach, Frances Stedham, Robin Antrobus, Jack W. Houghton, George S. Vassiliou, Daniel Sasca, Haiyang Yun, Anthony D. Whetton, Brian J. P. Huntly, Agrawal-Singh, Shuchi [0000-0001-8632-4556], Bagri, Jaana [0000-0002-2450-8226], Giotopoulos, George [0000-0003-1390-6592], Azazi, Dhoyazan MA [0000-0001-9085-4031], Horton, Sarah J [0000-0001-8418-5783], Vassiliou, George S [0000-0003-4337-8022], Sasca, Daniel [0000-0003-0330-7959], Yun, Haiyang [0000-0001-8714-205X], Whetton, Anthony D [0000-0002-1098-3878], Huntly, Brian JP [0000-0003-0312-161X], and Apollo - University of Cambridge Repository

Subjects

Proteomics, Homeodomain Proteins, Leukemia, Myeloid, Acute, Nuclear Matrix-Associated Proteins, Receptors, Estrogen, Immunology, Humans, Cell Biology, Hematology, Matrix Attachment Region Binding Proteins, Biochemistry, Chromatin, Transcription Factors

Abstract

HOXA9 is commonly upregulated in acute myeloid leukemia (AML), in which it confers a poor prognosis. Characterizing the protein interactome of endogenous HOXA9 in human AML, we identified a chromatin complex of HOXA9 with the nuclear matrix attachment protein SAFB. SAFB perturbation phenocopied HOXA9 knockout to decrease AML proliferation, increase differentiation and apoptosis in vitro, and prolong survival in vivo. Integrated genomic, transcriptomic, and proteomic analyses further demonstrated that the HOXA9-SAFB (H9SB)–chromatin complex associates with nucleosome remodeling and histone deacetylase (NuRD) and HP1γ to repress the expression of factors associated with differentiation and apoptosis, including NOTCH1, CEBPδ, S100A8, and CDKN1A. Chemical or genetic perturbation of NuRD and HP1γ–associated catalytic activity also triggered differentiation, apoptosis, and the induction of these tumor-suppressive genes. Importantly, this mechanism is operative in other HOXA9-dependent AML genotypes. This mechanistic insight demonstrates the active HOXA9-dependent differentiation block as a potent mechanism of disease maintenance in AML that may be amenable to therapeutic intervention by targeting the H9SB interface and/or NuRD and HP1γ activity.

Published

2022