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1.
Mol Cell ; 65(3): 504-514.e4, 2017 Feb 02.
Artigo em Inglês | MEDLINE | ID: mdl-28157507

RESUMO

Transcription starts with the assembly of pre-initiation complexes on promoters followed by their opening. Current models suggest that class II gene transcription requires ATP and the TFIIH XPB subunit to open a promoter. Here, we observe that XPB depletion surprisingly leaves transcription virtually intact. In contrast, inhibition of XPB ATPase activity affects transcription, revealing that mRNA expression paradoxically accommodates the absence of XPB while being sensitive to the inhibition of its ATPase activity. The XPB-depleted TFIIH complex is recruited to active promoters and contributes to transcription. We finally demonstrate that the XPB ATPase activity is only used to relieve a transcription initiation block imposed by XPB itself. In the absence of this block, transcription initiation can take place without XPB ATPase activity. These results suggest that a helicase is dispensable for mRNA transcription, thereby unifying the mechanism of promoter DNA opening for the three eukaryotic RNA polymerases.


Assuntos
DNA Helicases/genética , DNA Helicases/metabolismo , Proteínas de Ligação a DNA/genética , Proteínas de Ligação a DNA/metabolismo , Transcrição Gênica , Adenosina Trifosfatases/metabolismo , Linhagem Celular , Perfilação da Expressão Gênica/métodos , Humanos , Mutação , Regiões Promotoras Genéticas , Análise de Sequência de RNA/métodos , Fator de Transcrição TFIIH/química , Fator de Transcrição TFIIH/metabolismo
2.
EMBO Rep ; 22(9): e51683, 2021 09 06.
Artigo em Inglês | MEDLINE | ID: mdl-34296805

RESUMO

Melanoma cell phenotype switching between differentiated melanocytic and undifferentiated mesenchymal-like states drives metastasis and drug resistance. CDK7 is the serine/threonine kinase of the basal transcription factor TFIIH. We show that dedifferentiation of melanocytic-type melanoma cells into mesenchymal-like cells and acquisition of tolerance to targeted therapies is achieved through chronic inhibition of CDK7. In addition to emergence of a mesenchymal-type signature, we identify a GATA6-dependent gene expression program comprising genes such as AMIGO2 or ABCG2 involved in melanoma survival or targeted drug tolerance, respectively. Mechanistically, we show that CDK7 drives expression of the melanocyte lineage transcription factor MITF that in turn binds to an intronic region of GATA6 to repress its expression in melanocytic-type cells. We show that GATA6 expression is activated in MITF-low melanoma cells of patient-derived xenografts. Taken together, our data show how the poorly characterized repressive function of MITF in melanoma participates in a molecular cascade regulating activation of a transcriptional program involved in survival and drug resistance in melanoma.


Assuntos
Melanoma , Fator de Transcrição Associado à Microftalmia , Linhagem Celular Tumoral , Tolerância a Medicamentos , Regulação Neoplásica da Expressão Gênica , Humanos , Melanoma/tratamento farmacológico , Melanoma/genética , Fator de Transcrição Associado à Microftalmia/genética , Fator de Transcrição Associado à Microftalmia/metabolismo
3.
J Exp Clin Cancer Res ; 43(1): 127, 2024 Apr 29.
Artigo em Inglês | MEDLINE | ID: mdl-38685100

RESUMO

BACKGROUND: TP53, the most frequently mutated gene in human cancers, orchestrates a complex transcriptional program crucial for cancer prevention. While certain TP53-dependent genes have been extensively studied, others, like the recently identified RNF144B, remained poorly understood. This E3 ubiquitin ligase has shown potent tumor suppressor activity in murine Eµ Myc-driven lymphoma, emphasizing its significance in the TP53 network. However, little is known about its targets and its role in cancer development, requiring further exploration. In this work, we investigate RNF144B's impact on tumor suppression beyond the hematopoietic compartment in human cancers. METHODS: Employing TP53 wild-type cells, we generated models lacking RNF144B in both non-transformed and cancerous cells of human and mouse origin. By using proteomics, transcriptomics, and functional analysis, we assessed RNF144B's impact in cellular proliferation and transformation. Through in vitro and in vivo experiments, we explored proliferation, DNA repair, cell cycle control, mitotic progression, and treatment resistance. Findings were contrasted with clinical datasets and bioinformatics analysis. RESULTS: Our research underscores RNF144B's pivotal role as a tumor suppressor, particularly in lung adenocarcinoma. In both human and mouse oncogene-expressing cells, RNF144B deficiency heightened cellular proliferation and transformation. Proteomic and transcriptomic analysis revealed RNF144B's novel function in mediating protein degradation associated with cell cycle progression, DNA damage response and genomic stability. RNF144B deficiency induced chromosomal instability, mitotic defects, and correlated with elevated aneuploidy and worse prognosis in human tumors. Furthermore, RNF144B-deficient lung adenocarcinoma cells exhibited resistance to cell cycle inhibitors that induce chromosomal instability. CONCLUSIONS: Supported by clinical data, our study suggests that RNF144B plays a pivotal role in maintaining genomic stability during tumor suppression.


Assuntos
Instabilidade Genômica , Proteína Supressora de Tumor p53 , Ubiquitina-Proteína Ligases , Animais , Humanos , Camundongos , Linhagem Celular Tumoral , Proliferação de Células , Neoplasias Pulmonares/genética , Neoplasias Pulmonares/patologia , Neoplasias Pulmonares/metabolismo , Proteína Supressora de Tumor p53/metabolismo , Proteína Supressora de Tumor p53/genética , Ubiquitina-Proteína Ligases/metabolismo , Ubiquitina-Proteína Ligases/genética
4.
Nat Commun ; 14(1): 341, 2023 01 20.
Artigo em Inglês | MEDLINE | ID: mdl-36670096

RESUMO

The transcriptional response to genotoxic stress involves gene expression arrest, followed by recovery of mRNA synthesis (RRS) after DNA repair. We find that the lack of the EXD2 nuclease impairs RRS and decreases cell survival after UV irradiation, without affecting DNA repair. Overexpression of wild-type, but not nuclease-dead EXD2, restores RRS and cell survival. We observe that UV irradiation triggers the relocation of EXD2 from mitochondria to the nucleus. There, EXD2 is recruited to chromatin where it transiently interacts with RNA Polymerase II (RNAPII) to promote the degradation of nascent mRNAs synthesized at the time of genotoxic attack. Reconstitution of the EXD2-RNAPII partnership on a transcribed DNA template in vitro shows that EXD2 primarily interacts with an elongation-blocked RNAPII and efficiently digests mRNA. Overall, our data highlight a crucial step in the transcriptional response to genotoxic attack in which EXD2 interacts with elongation-stalled RNAPII on chromatin to potentially degrade the associated nascent mRNA, allowing transcription restart after DNA repair.


Assuntos
Dano ao DNA , Reparo do DNA , Cromatina/genética , Transcrição Gênica , RNA Polimerase II/genética , RNA Polimerase II/metabolismo , RNA Mensageiro/genética
5.
Nat Commun ; 10(1): 1288, 2019 03 20.
Artigo em Inglês | MEDLINE | ID: mdl-30894545

RESUMO

The TFIIH subunit XPB is involved in combined Xeroderma Pigmentosum and Cockayne syndrome (XP-B/CS). Our analyses reveal that XPB interacts functionally with KAT2A, a histone acetyltransferase (HAT) that belongs to the hSAGA and hATAC complexes. XPB interacts with KAT2A-containing complexes on chromatin and an XP-B/CS mutation specifically elicits KAT2A-mediated large-scale chromatin decondensation. In XP-B/CS cells, the abnormal recruitment of TFIIH and KAT2A to chromatin causes inappropriate acetylation of histone H3K9, leading to aberrant formation of transcription initiation complexes on the promoters of several hundred genes and their subsequent overexpression. Significantly, this cascade of events is similarly sensitive to KAT2A HAT inhibition or to the rescue with wild-type XPB. In agreement, the XP-B/CS mutation increases KAT2A HAT activity in vitro. Our results unveil a tight connection between TFIIH and KAT2A that controls higher-order chromatin structure and gene expression and provide new insights into transcriptional misregulation in a cancer-prone DNA repair-deficient disorder.


Assuntos
Cromatina/química , Síndrome de Cockayne/genética , Histona Acetiltransferases/genética , Histonas/metabolismo , Subunidades Proteicas/genética , Fator de Transcrição TFIIH/genética , Xeroderma Pigmentoso/genética , Acetilação , Proteína 9 Associada à CRISPR/genética , Proteína 9 Associada à CRISPR/metabolismo , Sistemas CRISPR-Cas , Linhagem Celular Tumoral , Cromatina/metabolismo , Síndrome de Cockayne/metabolismo , Síndrome de Cockayne/patologia , Fibroblastos/citologia , Fibroblastos/metabolismo , Edição de Genes , Regulação da Expressão Gênica , Histona Acetiltransferases/antagonistas & inibidores , Histona Acetiltransferases/metabolismo , Histonas/genética , Humanos , Modelos Biológicos , Osteoblastos/citologia , Osteoblastos/metabolismo , Cultura Primária de Células , Subunidades Proteicas/metabolismo , RNA Guia de Cinetoplastídeos/genética , RNA Guia de Cinetoplastídeos/metabolismo , RNA Interferente Pequeno/genética , RNA Interferente Pequeno/metabolismo , Transdução de Sinais , Fator de Transcrição TFIIH/metabolismo , Iniciação da Transcrição Genética , Xeroderma Pigmentoso/metabolismo , Xeroderma Pigmentoso/patologia
6.
Oncotarget ; 8(49): 84614-84615, 2017 Oct 17.
Artigo em Inglês | MEDLINE | ID: mdl-29156658
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