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PML modulates epigenetic composition of chromatin to regulate expression of pro-metastatic genes in triple-negative breast cancer [ChIP-seq]

ABSTRACT: The promyelocytic leukemia (PML) protein organizes nuclear aggregates known as PML nuclear bodies (PML-NBs), where many transcription factors and transcriptional regulators converge to be regulated. Specific associations of PML and PML-NBs with chromatin are described in different cell types, further implicating PML in transcriptional regulation. However, a complete understanding of the functional consequences of PML association to DNA in a cellular context where it regulates relevant phenotypes is still lacking.We examined the role of PML in chromatin association and transcription in triple-negative breast cancer (TNBC), a pathological condition where PML exerts important oncogenic functions. We find that PML associates discontinuously with large heterochromatic PML-associated domains (PADs) that contain gene-rich euchromatic sub-domains locally depleted of PML. PML promotes heterochromatic organization in PADs and expression of pro-metastatic genes embedded in these sub-domains. Importantly, this occurs outside PML-NBs, suggesting that nucleoplasmic PML exerts a cell type-relevant function of transcriptional regulation. PML also plays an indirect regulatory function in TBNC cells by promoting the expression of pro-metastatic genes outside PADs.Our findings demonstrate that PML is an important transcriptional regulator of metastasis and pro-oncogenic metagenes in TNBC cells, via distinct molecular activities that include indirect transcriptional regulation and direct epigenetic organization of heterochromatin domains that embed regions of localized transcriptional activity.

ORGANISM(S): Homo sapiens

PROVIDER: GSE226060 | GEO | 2023/09/11

REPOSITORIES: GEO

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PML modulates epigenetic composition of chromatin to regulate expression of pro-metastatic genes in triple-negative breast cancer [ATAC-seq]

Project description:The promyelocytic leukemia (PML) protein organizes nuclear aggregates known as PML nuclear bodies (PML-NBs), where many transcription factors and transcriptional regulators converge to be regulated. Specific associations of PML and PML-NBs with chromatin are described in different cell types, further implicating PML in transcriptional regulation. However, a complete understanding of the functional consequences of PML association to DNA in a cellular context where it regulates relevant phenotypes is still lacking.We examined the role of PML in chromatin association and transcription in triple-negative breast cancer (TNBC), a pathological condition where PML exerts important oncogenic functions. We find that PML associates discontinuously with large heterochromatic PML-associated domains (PADs) that contain gene-rich euchromatic sub-domains locally depleted of PML. PML promotes heterochromatic organization in PADs and expression of pro-metastatic genes embedded in these sub-domains. Importantly, this occurs outside PML-NBs, suggesting that nucleoplasmic PML exerts a cell type-relevant function of transcriptional regulation. PML also plays an indirect regulatory function in TBNC cells by promoting the expression of pro-metastatic genes outside PADs.Our findings demonstrate that PML is an important transcriptional regulator of metastasis and pro-oncogenic metagenes in TNBC cells, via distinct molecular activities that include indirect transcriptional regulation and direct epigenetic organization of heterochromatin domains that embed regions of localized transcriptional activity.

2023-09-11 | GSE240309 | GEO

PML modulates epigenetic composition of chromatin to regulate expression of pro-metastatic genes in triple-negative breast cancer [RNA-seq]

2023-09-11 | GSE226111 | GEO

PML protein organizes heterochromatin domains where it regulates histone H3.3 deposition by ATRX/DAXX

Project description:Maintenance of chromatin homeostasis involves proper delivery of histone variants to the genome. The interplay between different chaperones regulating the supply of histone variants to distinct chromatin domains remains largely undeciphered. We report a role of promyelocytic leukemia (PML) protein in the routing of histone variant H3.3 to chromatin and in the organization of megabase-size heterochromatic PML-associated domains that we call PADs. Loss of PML alters the heterochromatic state of PADs by shifting the histone H3 methylation balance from K9me3 to K27me3. Loss of PML impairs deposition of H3.3 by ATRX and DAXX in PADs but preserves the H3.3 loading function of HIRA in these regions. Our results unveil an unappreciated role of PML in the large-scale organization of chromatin and demonstrate a PML-dependent role of ATRX/DAXX in the deposition of H3.3 in PADs. Our data suggest that H3.3 loading by HIRA and ATRX-dependent H3K27 trimethylation constitute mechanisms ensuring maintenance of heterochromatin when the integrity of these domains is compromised.

2017-03-06 | GSE66364 | GEO

PML is a novel constitutive component of chromatin domains of enriched repetitive elements and duplicated gene clusters in cancer cells

Project description:Heterochromatin is a pivotal element in the functional organization of genomes. In our study, we delve into the heterochromatin pattern of association by the PML (promyelocytic leukemia) protein. By using PML chromatin immunoprecipitation and sequencing data and comparing computational methodologies to depict PML chromatin association, we describe PML-associated domains or PADs as large heterochromatic regions that exhibit similar genomic features across cancer cell lines. We show that PADs are specifically enriched in non-coding genes, duplicated gene clusters, and repetitive DNA elements. Moreover, we find enriched binding motifs of KZFPs, which are involved in orchestrating epigenetic repression at repetitive DNA elements. Hence, our findings suggest that PML conservatively associates to heterochromatic domains enriched in repetitive DNA elements and duplicated gene clusters in cancer. These findings contribute to a broader understanding of the complex regulatory framework of genome organization by heterochromatin in cancer.

2024-08-22 | GSE261929 | GEO

Interplay between PML NBs and HIRA for H3.3 deposition on transcriptionally active interferon-stimulated genes

Project description:Promyelocytic Leukemia Nuclear Bodies (PML NBs) are nuclear membrane-less organelles physically associated with chromatin underscoring their crucial role in genome function. The H3.3 histone chaperone complex HIRA accumulates in PML NBs upon senescence, viral infection or IFN-I treatment in primary cells. Yet, the molecular mechanisms of this partitioning and its function in regulating histone dynamics have remained elusive. Here, by using specific siRNAs and protein Affimers, we identify intermolecular SUMO-SIM interactions as an essential mechanism for HIRA recruitment in PML NBs. In addition, we demonstrate that HIRA localization in the nuclear bodies is intimately linked to the presence of a soluble pool of H3.3-H4 dimers inside PML NBs, that is not found in cancer cells. Transcription inhibition prevents HIRA accumulation in PML NBs underscoring the importance of transcriptional activity to drive HIRA through PML NBs. Finally, in the context of inflammatory responses, HIRA and PML are necessary for the prolonged H3.3 deposition at the transcriptional end sites of interferon-stimulated genes (ISGs), well beyond the peak of transcription. We thus propose that HIRA partitioning in PML NBs is essential to regulate H3.3 deposition on transcriptionally active regions.

2023-05-30 | GSE186937 | GEO

Interplay between PML NBs and HIRA for H3.3 deposition on transcriptionally active interferon-stimulated genes

2023-05-25 | GSE233298 | GEO

PML nuclear bodies form a regulatory hub via liquid-liquid phase separation for TRIM33 control of Lefty1/2 genes in mouse embryonic stem cells [RNA-seq]

Project description:TRIM33 is a chromatin reader required for nodal signaling during mesendoderm differentiation, although differences in its function between mouse embryonic stem cells (mESCs) and differentiated mesendoderm cells are unknown. Here, we found that TRIM33 co-condenses with PML nuclear bodies (NBs) via liquid-liquid phase separation specifically in mESCs to mediate nodal signaling-directed transcription of Lefty1/2. Our findings show that TRIM33 puncta formation depends on the presence of PML NBs. TurboID proximity labeling further revealed that PML NBs recruit distinct sets of client proteins in NaAsO2-treated, untreated mESCs, and differentiated cells. TRIM33 and PML co-regulate Lefty1/2 expression, while PML NBs directly associate with the Lefty1/2 loci and regulate a gene cluster that includes Lefty1/2 loci specifically in mESCs. Moreover, TRIM33 association with chromatin depends on PML NBs. Thus, PML NBs serve as a hub for transcriptional regulation of Lefty1/2 by TRIM33 and other pluripotency factors in mESCs.

2022-12-08 | GSE199737 | GEO

PML nuclear bodies form a regulatory hub via liquid-liquid phase separation for TRIM33 control of Lefty1/2 genes in mouse embryonic stem cells [CHIP-seq]

2022-12-08 | GSE199736 | GEO

Recruitment of TRIM33 to cell-context specific PML nuclear bodies regulates Nodal signaling in mESCs

Project description:TRIM33 is a chromatin reader required for mesendoderm differentiation upon activation of Nodal signaling. But, its role in mESCs is still elusive. Here, we found that TRIM33 co-localizes with promyelocytic leukemia nuclear bodies (PML NBs) specifically in mESCs to mediate Nodal signaling-directed transcription of Lefty1/2. We showed that TRIM33 puncta formation in mESCs depends on PML and specific assembly of PML NBs. Moreover, TRIM33 and PML co-regulate Lefty1/2 expression in mESCs. In addition, both PML and mESCs-specific PML NBs are required for TRIM33 recruitment at Lefty1/2 loci. Remarkably, PML NBs directly associate with the Lefty1/2 loci in mESCs. Finally, a TurboID proximity labeling experiment confirmed that TRIM33 is highly enriched in the mESCs-specific PML NBs. Thus, our study provides the mechanistic insight about TRIM33 condensate in regulating Nodal signaling-directed transcription in mESCs, it also reveals that PML NBs recruit distinct sets of client proteins in cell context dependent manner.

2022-12-08 | GSE199738 | GEO

Gene expression profiling of Pml wt and Pml KO mice liver after fasted 6h

Project description:The Pml gene is essential to the formation of PML nuclear bodies, domains which have been associated with various functions such as apoptosis/senescence, DNA repair and cell proliferation( Lallemand-Breitenbach 2010). PML-NBs formation is regulated by cellular stress including oxidative stress(Jeanne 2010, de The 2012). To investigate the role of PML in ROS response in vivo, we analyse the expression difference betweem Pml wt and Pml KO under fasted condition, which easily up-regulate ROS in BALB/cByJ background

2017-09-22 | GSE100615 | GEO

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