Che1/AATF interacts with subunits of the histone acetyltransferase core module of SAGA complexes

Caliskan, Gizem; Barış, İkbal Cansu; Ayaydin, Ferhan; Dobson, Melanie J.; Senarisoy, Müge; Boros, Imre; Topçu, Zeki; Zencir, Sevil

doi:10.1371/journal.pone.0189193

Cited by 5 publications

(6 citation statements)

References 44 publications

(71 reference statements)

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“…Che-1 is known to interact with several components of histone acetyltransferase complexes. 17,18 Herein, we broadly estimate whether Che-1 was required for correct histone acetylation on different lysine residues by performing a mass spectrometry analysis quantifying the majority of histone modifications in Che-1-depleted or not Kms27 cells. Because Che-1 depletion induces apoptosis in MM cells, 23 all subsequent analyses were performed 48 hours after small interfering RNA (siRNA) Che-1 transfection or doxycycline treatment (shChe-1 activation), when the apoptotic process was not yet activated (supplemental Figure 2A-C).…”

Section: Che-1 Sustains Histone Acetylationmentioning

confidence: 99%

“…12 Several studies have described the involvement of Che-1 in the regulation of gene transcription and tumor cell proliferation. [13][14][15][16] It is present in the histone acetyltransferase complexes SAGA and ATAC through its interaction with the transcriptional coactivators ADA2, ADA3, and GCN5, 17,18 and it acts as an endogenous histone deacetylase 1 (HDAC1) inhibitor through its ability to disrupt the binding of pRb and Sp1 proteins to this enzyme. 13,19 In addition, Che-1 plays an important role in the cellular response to DNA damage or to other cellular stressors, [20][21][22] and it sustains cell survival in MM cells by inhibiting mTORC1 activity and inducing autophagy.…”

Section: Introductionmentioning

confidence: 99%

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Che-1/AATF-induced transcriptionally active chromatin promotes cell proliferation in multiple myeloma

Bruno¹,

Nicola²,

Corleone³

et al. 2020

Blood Advances

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Multiple myeloma (MM) is a hematologic malignancy produced by a clonal expansion of plasma cells and characterized by abnormal production and secretion of monoclonal antibodies. This pathology exhibits an enormous heterogeneity resulting not only from genetic alterations but also from several epigenetic dysregulations. Here we provide evidence that Che-1/AATF (Che-1), an interactor of RNA polymerase II, promotes MM proliferation by affecting chromatin structure and sustaining global gene expression. We found that Che-1 depletion leads to a reduction of “active chromatin” by inducing a global decrease of histone acetylation. In this context, Che-1 directly interacts with histones and displaces histone deacetylase class I members from them. Strikingly, transgenic mice expressing human Che-1 in plasma cells develop MM with clinical features resembling those observed in the human disease. Finally, Che-1 downregulation decreases BRD4 chromatin accumulation to further sensitize MM cells to bromodomain and external domain inhibitors. These findings identify Che-1 as a promising target for MM therapy, alone or in combination with bromodomain and external domain inhibitors.

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Section: Che-1 Sustains Histone Acetylationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Che-1/AATF-induced transcriptionally active chromatin promotes cell proliferation in multiple myeloma

Bruno¹,

Nicola²,

Corleone³

et al. 2020

Blood Advances

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“…At the same time, AATF plays a role in such processes as proliferation, stress reactions to DNA injury, and regulation of the cell cycle . AATF is crucial in stress reactions related to DNA injury, such as the stimulation of p53 and, possibly, p21 . Excessive AATF expression is present in some human leukemic cells .…”

mentioning

confidence: 99%

“…Transcription factors (TFs) such as apoptosis‐antagonizing transcription factor (AATF, also known as TRB), are specific to RNA polymerase II, indicating their modulation of cell death . At the same time, AATF plays a role in such processes as proliferation, stress reactions to DNA injury, and regulation of the cell cycle . AATF is crucial in stress reactions related to DNA injury, such as the stimulation of p53 and, possibly, p21 .…”

mentioning

confidence: 99%

Retracted: The PI3K/AKT axis modulates AATF activity in Wilms’ tumor cells

et al. 2018

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Previous studies have reported excessive expression of apoptosis‐antagonizing transcription factor ( AATF ) in various tumors, where it reinforces the generation and development of cancers and is linked to the clinical outcome. Nevertheless, the expression and influence of AATF in Wilms’ tumor ( WT ) is largely unknown. Here, we discovered that AATF expression was markedly increased in WT tissues as compared to the surrounding normal tissues. Elevated levels of AATF expression were related to tumor relapse and pulmonary metastasis, congruent with it being a predictor of clinical outcome in people suffering from WT . Proliferation, invasion, and migration of WT cells were suppressed by knockdown of AATF and promoted by AATF overexpression in vitro . Furthermore, the tumor generation capability of WT cells noticeably decreased after knockout of AATF in vivo . The phosphoinositide‐3‐kinase ( PI 3K)/ AKT pathway modulated the activity of AATF in WT . The findings of our study indicate that AATF expression is increased in WT and can serve as a predictor of clinical outcome; in addition, it may enhance the development of WT via the PI 3K/ AKT axis and may be a promising marker for WT diagnosis and therapy.

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“…Methods that have been used to investigate protein-protein interactions in histones and histone-modifying enzymes range from two-hybrid selection systems [282][283][284] and fluorescence techniques [285,286] to proximity-induced labelling, [287,288] to name a few. Among the many proximity-dependent methods available to investigate these interactions, a classic approach involves the use of chemical crosslinkers to elucidate points of interaction as well as novel interacting proteins.…”

Section: Chemical Crosslinking Techniques In Ubiquitin Epigeneticsmentioning

confidence: 99%

Advances and Opportunities in Epigenetic Chemical Biology

2020

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The study of epigenetics has greatly benefited from the development and application of various chemical biology approaches. In this review, we highlight the key targets for modulation and recent methods developed to enact such modulation. We discuss various chemical biology techniques to study DNA methylation and the post-translational modification of histones as well as their effect on gene expression. Additionally , we address the wealth of protein synthesis approaches to yield histones and nucleosomes bearing epigenetic modifications. Throughout, we highlight targets that present opportunities for the chemical biology community, as well as exciting new approaches that will provide additional insight into the roles of epigenetic marks.

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Che1/AATF interacts with subunits of the histone acetyltransferase core module of SAGA complexes

Cited by 5 publications

References 44 publications

Che-1/AATF-induced transcriptionally active chromatin promotes cell proliferation in multiple myeloma

Che-1/AATF-induced transcriptionally active chromatin promotes cell proliferation in multiple myeloma

Retracted: The PI3K/AKT axis modulates AATF activity in Wilms’ tumor cells

Advances and Opportunities in Epigenetic Chemical Biology

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