45 research outputs found
Polyglutamine Expanded Huntingtin Dramatically Alters the Genome-Wide Binding of HSF1
In Huntington's disease (HD), polyglutamine expansions in the huntingtin (Htt) protein cause subtle changes in cellular functions that, over-time, lead to neurodegeneration and death. Studies have indicated that activation of the heat shock response can reduce many of the effects of mutant Htt in disease models, suggesting that the heat shock response is impaired in the disease. To understand the basis for this impairment, we have used genome-wide chromatin immunoprecipitation followed by massively parallel sequencing (ChIP-Seq) to examine the effects of mutant Htt on the master regulator of the heat shock response, HSF1. We find that, under normal conditions, HSF1 function is highly similar in cells carrying either wild-type or mutant Htt. However, polyQ-expanded Htt severely blunts the HSF1-mediated stress response. Surprisingly, we find that the HSF1 targets most affected upon stress are not directly associated with proteostasis, but with cytoskeletal binding, focal adhesion and GTPase activity. Our data raise the intriguing hypothesis that the accumulated damage from life-long impairment in these stress responses may contribute significantly to the etiology of Huntington's disease.National Institutes of Health (U.S.) (Grant R24 DK-090963)National Institutes of Health (U.S.) (Grant R01-GM089903)National Institutes of Health (U.S.) (Grant P30-ES002109)National Science Foundation (U.S.) (Award DB1-0821391
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Direct Recruitment of Polycomb Repressive Complex 1 to Chromatin by Core Binding Transcription Factors
Polycomb repressive complexes (PRCs) play key roles in developmental epigenetic regulation. Yet the mechanisms that target PRCs to specific loci in mammalian cells remain incompletely understood. In this study we show that Bmi1, a core component of Polycomb Repressive Complex 1 (PRC1), binds directly to the Runx1/CBFβ transcription factor complex. Genome-wide studies in megakaryocytic cells demonstrate significant chromatin occupancy overlap between the PRC1 core component Ring1b and Runx1/CBFβ and functional regulation of a considerable fraction of commonly bound genes. Bmi1/Ring1b and Runx1/CBFβ deficiencies generate partial phenocopies of one another in vivo. We also show that Ring1b occupies key Runx1 binding sites in primary murine thymocytes and that this occurs via PRC2-independent mechanisms. Genetic depletion of Runx1 results in reduced Ring1b binding at these sites in vivo. These findings provide evidence for site-specific PRC1 chromatin recruitment by core binding transcription factors in mammalian cells.Stem Cell and Regenerative Biolog
Clonal expansion and epigenetic reprogramming following deletion or amplification of mutant
IDH1 mutation is the earliest genetic alteration in low-grade gliomas (LGGs), but its role in tumor recurrence is unclear. Mutant IDH1 drives overproduction of the oncometabolite d-2-hydroxyglutarate (2HG) and a CpG island (CGI) hypermethylation phenotype (G-CIMP). To investigate the role of mutant IDH1 at recurrence, we performed a longitudinal analysis of 50 IDH1 mutant LGGs. We discovered six cases with copy number alterations (CNAs) at the IDH1 locus at recurrence. Deletion or amplification of IDH1 was followed by clonal expansion and recurrence at a higher grade. Successful cultures derived from IDH1 mutant, but not IDH1 wild type, gliomas systematically deleted IDH1 in vitro and in vivo, further suggestive of selection against the heterozygous mutant state as tumors progress. Tumors and cultures with IDH1 CNA had decreased 2HG, maintenance of G-CIMP, and DNA methylation reprogramming outside CGI. Thus, while IDH1 mutation initiates gliomagenesis, in some patients mutant IDH1 and 2HG are not required for later clonal expansions
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Evolution of low-grade glioma through intratumoral heterogeneity of the genome and epigenome
Low-grade glioma (LGG) is a diffuse and infiltrative adult brain tumor. Due to the invasive nature of the tumor, surgical resection is rarely curative. LGG often undergo malignant progression and recur as a high-grade glioblastoma (GBM). The genomic and epigenomic landscapes of these tumors, particularly at recurrence, are understudied yet clinically important. Recurrent tumors may be driven by a distinct set of genetic and epigenetic alterations than their initial tumors, yet therapeutic decisions are often made based on profiling of initial malignancies. Here we comprehensively profiled 33 LGGs and their patient-matched recurrences, including cases with 2-6 intratumoral samples, with exome sequencing to identify somatic mutations, with the Infinium 450K array to investigate DNA methylation changes, and with RNA sequencing to measure gene expression changes. We found a wide range in the degree of evolution from initial to recurrence, in terms of both somatic mutations and DNA methylation changes. Tumors treated with the alkylating chemotherapy temozolomide (TMZ) often recurred with a hypermutation phenotype that was suggestive of therapy-driven malignant progression to GBM. Therapy-associated mutational activation of the AKT-mTOR pathway was a consistent feature of these hypermutated recurrences, which promoted a new clinical trial combining the anti-tumor activity of TMZ with an mTOR inhibitor. Recurrence as GBM was associated with aberrations to cell cycle genes through convergence of both genetic and epigenetic mechanisms. Moreover, we found that the evolutionary history of a tumor is similar whether inferred from genetic or epigenetic data, suggesting co-evolution of the genome and epigenome. Finally, we identified cases in which mutations in IDH1, which are the earliest known alteration in LGG and drive gliomagenesis, were either deleted or amplified at recurrence. Mutant IDH1 reprograms the epigenome and these recurrences showed partial reversion of these epigenomic alterations. Together, these findings highlight the heterogeneity and continual evolution of LGG and emphasize the importance of studying recurrent tumors for a more complete understanding of tumor evolution and to make more informed treatment decisions
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Intratumoral Heterogeneity of the Epigenome
Investigation into intratumoral heterogeneity (ITH) of the epigenome is in a formative stage. The patterns of tumor evolution inferred from epigenetic ITH and genetic ITH are remarkably similar, suggesting widespread co-dependency of these disparate mechanisms. The biological and clinical relevance of epigenetic ITH are becoming more apparent. Rare tumor cells with unique and reversible epigenetic states may drive drug resistance, and the degree of epigenetic ITH at diagnosis may predict patient outcome. This perspective presents these current concepts and clinical implications of epigenetic ITH, and the experimental and computational techniques at the forefront of ITH exploration
Unbiased, Genome-Wide In Vivo Mapping of Transcriptional Regulatory Elements Reveals Sex Differences in Chromatin Structure Associated with Sex-Specific Liver Gene Expression
We have used a simple and efficient method to identify condition-specific transcriptional regulatory sites in vivo to help elucidate the molecular basis of sex-related differences in transcription, which are widespread in mammalian tissues and affect normal physiology, drug response, inflammation, and disease. To systematically uncover transcriptional regulators responsible for these differences, we used DNase hypersensitivity analysis coupled with high-throughput sequencing to produce condition-specific maps of regulatory sites in male and female mouse livers and in livers of male mice feminized by continuous infusion of growth hormone (GH). We identified 71,264 hypersensitive sites, with 1,284 showing robust sex-related differences. Continuous GH infusion suppressed the vast majority of male-specific sites and induced a subset of female-specific sites in male livers. We also identified broad genomic regions (up to ~100 kb) showing sex-dependent hypersensitivity and similar patterns of GH responses. We found a strong association of sex-specific sites with sex-specific transcription; however, a majority of sex-specific sites were >100 kb from sex-specific genes. By analyzing sequence motifs within regulatory regions, we identified two known regulators of liver sexual dimorphism and several new candidates for further investigation. This approach can readily be applied to mapping condition-specific regulatory sites in mammalian tissues under a wide variety of physiological conditions.National Institutes of Health (U.S) ( DK33765)National Institutes of Health (U.S) (grant 577 5 P42 ES07381
Isolated hydramnios at term gestation and the occurrence of peripartum complications
Objective: To determine if hydramnios at term gestation is an independent risk factor for poor pregnancy outcome and perinatal death. Study design: The study population consisted of 60 702 patients with singleton gestation who delivered at term (>37 weeks). Patients were classified into two groups according to the presence or the absence of hydramnios. Hydramnios was diagnosed in the presence of an amniotic fluid index greater than 25 cm or of a maximum vertical pocket of amniotic fluid of at least 8 cm or by subjective assessment. Logistic regression analysis was used to evaluate the unique contribution of hydramnios to fetal death and to perinatal and maternal morbidity. Results: The prevalence of hydramnios was 1211/60702 (2%). Patients with hydramnios had a higher incidence of complications than those with a normal amount of amniotic fluid: cesarean section (22.8 vs. 8.5%, P<0.01), antepartum death (0.6 vs. 0.2%, P<0.005), postpartum death (2.8 vs. 0.4%, P<0.01), abruptio placenta (0.9 vs, 0.3%, P<0.001), fetal distress (6.1 vs. 3.65%, P<0.0015), meconium-stained amniotic fluid (17.8 vs. 15%, P<0.001), low Apgar score at 5 min (2.95 vs. 1%, P<0.01), malpresentation (6.8 vs. 2.9%, P<0.01), clinical chorioamnionitis (0.3 vs. 0.1%, P<0.05), prolapse of cord (2.2 vs. 0.3%, P<0.01), and large-for- gestational-age infant (LGA) (23.8 vs. 8.1%, P<0.01). When adjusted for confounding variables, the presence of hydramnios remained strongly associated with perinatal mortality (odds ratio 5.5 (95% Cl 3.2-9.3)) and neonatal and maternal morbidity (odds ratios 2.1 (Cl 1.1-3.7) and 2.3 (Cl 1.9-2.7), respectively). Conclusions: (1) Hydramnios at term is an independent risk factor for perinatal death; (2) Fetal surveillance is warranted in patients with hydramnios even in the absence of other known risk factors for adverse pregnancy outcome