Allosteric Hsp70 Modulator YM-1 Induces Degradation of BRD4.

YM-1, an allosteric modulator of heat-shock 70 kDa protein (Hsp70), inhibits cancer cell growth, but the mechanism is not yet fully understood. Here, we show that YM-1 induces the degradation of bromodomain containing 4 (BRD4), which mediates oncogene expression. Overall, our results indicate that YM-1 promotes the binding of HSP70 to BRD4, and this in turn promotes the ubiquitination of BRD4 by C-terminus of Hsc70-interacting protein (CHIP), an E3 ubiquitin ligase working in concert with Hsp70, leading to proteasomal degradation of BRD4. This YM-1-induced decrease of BRD4 would contribute at least in part to the inhibition of cancer cell growth.

A small proportion of X-linked genes contribute to X chromosome upregulation in early embryos via BRD4-mediated transcriptional activation.

Females have two X chromosomes and males have only one in most mammals. X chromosome inactivation (XCI) occurs in females to equalize X-dosage between sexes. Besides, mammals also balance the dosage between X chromosomes and autosomes via X chromosome upregulation (XCU) to fine-tune X-linked expression and thus maintain genomic homeostasis. Despite some studies highlighting the importance of XCU in somatic cells, little is known about how XCU is achieved and its developmental role during early embryogenesis. Herein, using mouse preimplantation embryos as the model, we reported that XCU initially occurs upon major zygotic genome activation and co-regulates X-linked expression in cooperation with imprinted XCI during preimplantation development. An in-depth analysis further indicated, unexpectedly, only a small proportion of, but not X chromosome-wide, X-linked genes contribute greatly to XCU. Furthermore, we identified that bromodomain containing 4 (BRD4) plays a key role in the transcription activation of XCU during preimplantation development. BRD4 deficiency or inhibition caused an impaired XCU, thus leading to reduced developmental potential and mitochondrial dysfunctions of blastocysts. Our finding was also supported by the tight association of BRD4 dysregulation and XCU disruption in the pathology of cholangiocarcinoma. Thus, our results not only advanced the current knowledge of X-dosage compensation and provided a mechanism for understanding XCU initiation but also presented an important clue for understanding the developmental and pathological role of XCU.

Bromodomain containing 4 transcriptionally activated Deltex E3 ubiquitin ligase 2 contributes to glioma progression and predicts an unfavorable prognosis.

Background: Glioblastoma multiforme (GBM) is the most common type of glioma, and the most aggressive brain malignancy in adults. This study sought to identify novel survival-status related markers, and examine their function in glioma. Methods: The gene expression, survival heatmaps, and Kaplan-Meier survival plots of the genes were analyzed by using gene expression profiling interactive analysis (GEPIA) dataset, Linked Omics. The single-cell data analysis and tumor immune infiltration analysis was conducted by Tumor Immune Estimation Resource (TIMER) dataset. DBTRG and U251 cells with silenced Deltex E3 ubiquitin ligase 2 (DTX2) expression were constructed and used for Cell Counting Kit 8 (CCK-8), and wound healing assay in vitro. Chromatin immunoprecipitation sequencing (ChIP-seq) analysis was used to explore the histone activation marks and transcription factors DTX2 promoter. Dual-luciferase assays were carried out to detect the luciferase activities of bromodomain containing 4 (BRD4) binding to DTX2. Results: We first conducted a survival-status analysis to identify survival status-related genes in The Cancer Genome Atlas GBM and low-grade glioma data sets. A subsequent analysis identified 3 novel prognostic biomarkers; that is, DTX2, cytochrome P450 oxidoreductase, and Williams-Beuren syndrome chromosomal region 16 protein. In the validation Chinese Glioma Genome Atlas data sets, DTX2 showed the best performance, and was examined in a further analysis. Next, 3 short-hairpin ribonucleic acids were designed to silence DTX2 expression, and CCK-8 and wound-healing assays were applied to study the function of DTX2. We found that DTX2-silenced glioma cells exhibited a significant decrease in their growth and migration capabilities. Finally, the molecular basis for increased DTX2 in glioma was investigated via ChIP-Seq analysis and luciferase assays. The analysis revealed that DTX2 was transcriptionally activated by BRD4. Conclusions: In conclusion, BRD4 transcriptionally activates DTX2, contributes to glioma progression, predicts an unfavorable prognosis, and could provide new options for glioma prognosis prediction and treatment.

Susceptibility of Lung Carcinoma Cells to Nanostructured Lipid Carrier of ARV-825, a BRD4 Degrading Proteolysis Targeting Chimera.

The present work was aimed at developing an optimized and modified nanostructured lipid carrier of BRD4 protein degrading Proteolysis Targeting Chimera (PROTAC) against non-small cell lung carcinoma. PROTACs are an emerging class of anticancer molecules with nanomolar activity but associated with significant solubility challenges. Lipid-based colloidal systems like nanostructured lipid carriers are widely explored for such highly lipophilic molecules. ARV-825, a cereblon-based PROTAC was investigated for its anticancer efficacy in vitro in 2D and 3D lung cancer models. ARV-825 loaded PEGylated nanostructured lipid carriers (AP-NLC) was prepared using melt emulsification technique. ARV-825 was stabilized using Precirol® ATO5 and Captex® 300 EP/NF as the solid and liquid lipid, respectively. However, hydrophobic ion-pairing with medium chain fatty acid was required to improve drug loading and stability. A hydrodynamic diameter and polydispersity index of 56.33 ± 0.42 nm and 0.16 respectively with zeta potential of -21 ± 1.24 mV was observed. In vitro migration and colony formation assay confirmed the anticancer activity of ARV-825 alone and AP-NLC. Nearly 38% and 50% apoptotic cell population were observed after ARV-825 and AP-NLC treatment. Immunoblotting assay showed complete suppression of BRD4 and c-Myc protein expression for AP-NLC. Most importantly, significant reduction in the growth of multicellular 3D spheroid of A549 cells confirmed the effectiveness of BRD4 PROTAC and its lipid nanoparticle in non-small cell lung cancer (NSCLC). AP-NLC. Higher amount of red fluorescence throughout the spheroid surface further confirmed superior efficacy of AP-NLC in tumor penetration and cell killing.

LncRNA NEAT1 inhibition upregulates miR-16-5p to restrain the progression of sepsis-induced lung injury via suppressing BRD4 in a mouse model.

OBJECTIVE: Long non-coding RNAs (lncRNAs) are known to sponge microRNAs (miRNAs) to regulate biological processes. However, the role of nuclear paraspeckle assembly transcript 1 (NEAT1) binding miR-16-5p in sepsis-induced lung injury remains largely unknown. We aim to explore the effect of NEAT1 sponging miR-16-5p on sepsis-induced lung injury via regulating bromodomain containing 4 (BRD4). METHODS: A mouse model of sepsis-induced lung injury was established. Expression of NEAT1, miR-16-5p and BRD4 was determined. The pulmonary edema, myeloperoxidase (MPO) activity, pathological changes, levels of inflammatory factors, cell viability and apoptosis in mouse lung tissues were evaluated. The binding relationships between NEAT1 and miR-16-5p, and between miR-16-5p and BRD4 were confirmed. RESULTS: NEAT1 and BRD4 were upregulated while miR-16-5p was downregulated in sepsis-induced lung injury. NEAT1 inhibition or miR-16-5p elevation suppressed pulmonary edema, MPO activity, pathological changes, inflammation and apoptosis, and promoted cell viability in mouse lung tissues. NEAT1 bound with miR-16-5p and miR-16-5p targeted BRD4. CONCLUSION: NEAT1 inhibition upregulates miR-16-5p to repress the progression of sepsis-induced lung injury via downregulating BRD4.

MiR-101-containing extracellular vesicles bind to BRD4 and enhance proliferation and migration of trophoblasts in preeclampsia.

BACKGROUND: Preeclampsia (PE) is a frequently occurring pregnancy disorder in the placenta, which results in various maternal and fetal complications. The current study aims to evaluate the role of extracellular vesicles (EVs)-encapsulated microRNA (miR)-101 in biological processes of trophoblasts in PE and its underlying mechanism. METHODS: Human umbilical cord mesenchymal stem cell (HUCMSC) and HUCMSC-derived EVs were isolated and cultured, after which EV characterization was carried out using PKH67 staining. In silico analyses were adopted to predict the downstream target genes of miR-101, and dual luciferase reporter gene assay was applied to validate the binding affinity. Furthermore, loss- and gain-of-function approaches were adopted to determine the role of miR-101 and bromodomain-containing protein 4 (BRD4) in trophoblast proliferation and invasion using EDU staining and transwell assay. In addition, a rat model of PE was established to verify the function of EV-encapsulated miR-101 in vivo. RESULTS: Placental tissues obtained from PE patients presented with downregulated miR-101 expression and upregulated BRD4 and CXCL11 expression. EV-encapsulated miR-101 from HUCMSCs could be delivered into the trophoblast HTR-8/SVneo cells, thus enhancing proliferation and migration of trophoblasts. Mechanically, miR-101 targeted and negatively regulated BRD4 expression. BRD4 knockdown promoted the proliferation and migration of trophoblasts by suppressing NF-κB/CXCL11 axis. EV-encapsulated miR-101 from HUCMSCs also reduced blood pressure and 24 h urine protein in vivo, thereby ameliorating PE. CONCLUSION: In summary, EV-encapsulated miR-101 promoted proliferation and migration of placental trophoblasts through the inhibition of BRD4 expression via NF-κB/CXCL11 inactivation.

General mechanism of JQ1 in inhibiting various types of cancer.

Bromodomain­containing 4 (BRD4) is a histone modification reader and transcriptional regulator that has been reported to interact with acetylated lysine histone motifs transcription factors (TFs), transcription co­activators and RNA polymerase II. The selective small molecule inhibitor JQ1, which binds competitively to bromodomains, has been reported to exhibit anti­proliferative effects in various types of cancer. Previous studies on the mechanism of action of JQ1 mostly focused on a specific tumor type or disease; however, the general mechanism through which JQ1 affects various tumors remains to be determined. In the present study, chromatin immunoprecipitation sequencing data for BRD4 and its expression profiles in six cancer cell lines were integrated and analyzed systematically. The results indicated that BRD4 binds to enhancers with histone H3 acetylated at lysine 27 (H3K27Ac) and mediator complex subunit 1 in a cell type­specific manner, as well as binds to promoter regions with the oncogenic TFs MYC and E2F1 in a cell type­common manner. The cell type­common sites across the six cell types investigated were found to be functionally important for tumorigenesis, whereas the cell type­specific sites were functionally enriched with the cell identity, all of which were sensitive to JQ1 treatment. Furthermore, a core set of JQ1­regulated BRD4 binding genes were obtained, which were significantly inhibited by JQ1 in various cancer cell lines and contributed to hallmarks of cancer. These results implied a common mechanism underlying the therapeutic effects of JQ1 and suggested its potential suitability as an anti­cancer drug targeting BRD4­mediated transcriptional regulation.

Bromodomain and extraterminal proteins-a novel class of therapeutic targets in epigenetics / 药学学报

Bromodomain and extraterminal (BET) proteins are a class of proteins that can interpret epigenetic codes and play an important role in regulating gene transcription through identifying and binding acetylated histones or non-histones proteins. The BET inhibitors have emerged with good therapeutic effects in preclinical disease models such as cancer and inflammation. Some of them have entered clinical studies, demonstrating that there is considerable prospect for drug development with BET as a potential therapeutic target. This review briefly describes the structures and functions of the BET proteins, the BET inhibitors in various diseases, as well as molecular mechanisms involved.

Intensive treatment and survival outcomes in NUT midline carcinoma of the head and neck.

BACKGROUND: NUT midline carcinoma is a rare and aggressive genetically characterized subtype of squamous cell carcinoma frequently arising from the head and neck. The characteristics and optimal management of head and neck NUT midline carcinoma (HNNMC) are unclear. METHODS: A retrospective review of all known cases of HNNMC in the International NUT Midline Carcinoma Registry as of December 31, 2014, was performed. Forty-eight consecutive patients were treated from 1993 to 2014, and clinicopathologic variables and outcomes for 40 patients were available for analyses; they composed the largest HNNMC cohort studied to date. Overall survival (OS) and progression-free survival (PFS) according to patient characteristics and treatment were analyzed. RESULTS: This study identified a 5-fold increase in the diagnosis of HNNMC from 2011 to 2014. The median age was 21.9 years (range, 0.1-81.7 years); the male and female proportions were 40% and 60%, respectively; and 86% had bromodomain containing 4-nuclear protein in testis (BRD4-NUT) fusion. The initial treatment was initial surgery with or without adjuvant chemoradiation or adjuvant radiation (56%), initial radiation with or without chemotherapy (15%), or initial chemotherapy with or without surgery or radiation (28%). The median PFS was 6.6 months (range, 4.7-8.4 months). The median OS was 9.7 months (range, 6.6-15.6 months). The 2-year PFS rate was 26% (95% confidence interval [CI], 13%-40%). The 2-year OS rate was 30% (95% CI, 16%-46%). Initial surgery with or without postoperative chemoradiation or radiation (P = .04) and complete resection with negative margins (P = .01) were significant predictors of improved OS even after adjustments for age, tumor size, and neck lymphadenopathy. Initial radiation or chemotherapy and the NUT translocation type were not associated with outcomes. CONCLUSIONS: HNNMC portends a poor prognosis. Aggressive initial surgical resection with or without postoperative chemoradiation or radiation is associated with significantly enhanced survival. Chemotherapy or radiation alone is often inadequate. Cancer 2016;122:3632-40. © 2016 American Cancer Society.

Cytopathologic features of NUT midline carcinoma: A series of 26 specimens from 13 patients.

BACKGROUND: NUT midline carcinoma (NMC) is an increasingly recognized neoplasm defined by rearrangements of the nuclear protein in testis (NUT) gene (also known as NUTM1). NMC is important to diagnose for prognostic and diagnostic reasons, but to date, only a small case series and rare case reports of the cytopathologic features of NMC have been published. METHODS: All NMC specimens (confirmed by molecular testing and/or NUT immunoreactivity) with cytopathologic material available were identified at 2 academic centers. All smears were reviewed, and the cytologic characteristics were described. RESULTS: Twenty-six cytopathologic specimens of NMC were identified from 13 patients: 8 men and 5 women ranging in age from 16 to 68 years (mean, 35 years). The NMCs arose in the mediastinum (n = 4), sinonasal tract (n = 4), neck (n = 2), lung (n = 1), lung and mediastinum (n = 1), and kidney (n = 1). Cytologic specimens included serous cavity effusions (n = 13), fine-needle aspirates (n = 9), bronchial brushings (n = 2), bronchial lavage (n = 1), and bronchial washings (n = 1). Ancillary studies were performed on cell blocks for only 6 samples from 4 patients: immunohistochemistry (n = 6) and flow cytometry (n = 1). All 13 NMCs had corresponding surgical pathology material. The NUT rearrangement status was known in 10 cases, and in 3 cases, the diagnosis was established by immunoreactivity for NUT. On cytologic smears, the NMCs were mostly hypercellular with monotonous, small to midsize, primitive-appearing cells largely distributed singly in a discohesive pattern. The tumor cells had round to oval nuclei that appeared mostly naked and devoid of cytoplasm. The nuclei varied in chromatin density from mostly pale, open chromatin to a hyperchromatic, neuroendocrine-type appearance, often with focal cell-to-cell molding, and most examples had a distinct, small nucleolus. CONCLUSIONS: NMC is a recently recognized tumor that should be considered in the differential diagnosis of small round cell tumors, especially but not exclusively in the mediastinum and the head and neck. The cytologic features of NMC overlap considerably with those of other neoplasms, and a definitive diagnosis depends on a demonstration of NUT translocation by either immunohistochemical or molecular means. Cancer Cytopathol 2016;124:901-908. © 2016 American Cancer Society.