Aroul Ramadass scite author profile

Alternative promoters within the same gene are a general phenomenon in gene expression. Mechanisms of their selective regulation vary from one gene to another and are still poorly understood. Here we show that in quiescent cells the mechanism of transcriptional repression of the major promoter of the gene encoding dihydrofolate reductase depends on a non-coding transcript initiated from the upstream minor promoter and involves both the direct interaction of the RNA and promoter-specific interference. The specificity and efficiency of repression is ensured by the formation of a stable complex between non-coding RNA and the major promoter, direct interaction of the non-coding RNA with the general transcription factor IIB and dissociation of the preinitiation complex from the major promoter. By using in vivo and in vitro assays such as inducible and reconstituted transcription, RNA bandshifts, RNA interference, chromatin immunoprecipitation and RNA immunoprecipitation, we show that the regulatory transcript produced from the minor promoter has a critical function in an epigenetic mechanism of promoter-specific transcriptional repression.

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Super-Enhancers and Broad H3K4me3 Domains Form Complex Gene Regulatory Circuits Involving Chromatin Interactions

Cao

Fang

Tan

et al. 2017

Sci Rep

111

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Stretched histone regions, such as super-enhancers and broad H3K4me3 domains, are associated with maintenance of cell identity and cancer. We connected super-enhancers and broad H3K4me3 domains in the K562 chronic myelogenous leukemia cell line as well as the MCF-7 breast cancer cell line with chromatin interactions. Super-enhancers and broad H3K4me3 domains showed higher association with chromatin interactions than their typical counterparts. Interestingly, we identified a subset of super-enhancers that overlap with broad H3K4me3 domains and show high association with cancer-associated genes including tumor suppressor genes. Besides cell lines, we could observe chromatin interactions by a Chromosome Conformation Capture (3C)-based method, in primary human samples. Several chromatin interactions involving super-enhancers and broad H3K4me3 domains are constitutive and can be found in both cancer and normal samples. Taken together, these results reveal a new layer of complexity in gene regulation by super-enhancers and broad H3K4me3 domains.

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Autocatalytic RNA cleavage in the human β-globin pre-mRNA promotes transcription termination

Teixeira

Tahiri-Alaoui

West

et al. 2004

Nature

101

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New evidence indicates that termination of transcription is an important regulatory step, closely related to transcriptional interference and even transcriptional initiation. However, how this occurs is poorly understood. Recently, in vivo analysis of transcriptional termination for the human beta-globin gene revealed a new phenomenon--co-transcriptional cleavage (CoTC). This primary cleavage event within beta-globin pre-messenger RNA, downstream of the poly(A) site, is critical for efficient transcriptional termination by RNA polymerase II. Here we show that the CoTC process in the human beta-globin gene involves an RNA self-cleaving activity. We characterize the autocatalytic core of the CoTC ribozyme and show its functional role in efficient termination in vivo. The identified core CoTC is highly conserved in the 3' flanking regions of other primate beta-globin genes. Functionally, it resembles the 3' processive, self-cleaving ribozymes described for the protein-encoding genes from the myxomycetes Didymium iridis and Physarum polycephalum, indicating evolutionary conservation of this molecular process. We predict that regulated autocatalytic cleavage elements within pre-mRNAs may be a general phenomenon and that functionally it may provide the entry point for exonucleases involved in mRNA maturation, turnover and, in particular, transcriptional termination.

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Chromosome conformation signatures define predictive markers of inadequate response to methotrexate in early rheumatoid arthritis

Carini

Hunter²,

Ramadass³

et al. 2018

J Transl Med

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BackgroundThere is a pressing need in rheumatoid arthritis (RA) to identify patients who will not respond to first-line disease-modifying anti-rheumatic drugs (DMARD). We explored whether differences in genomic architecture represented by a chromosome conformation signature (CCS) in blood taken from early RA patients before methotrexate (MTX) treatment could assist in identifying non-response to DMARD and, whether there is an association between such a signature and RA specific expression quantitative trait loci (eQTL).MethodsWe looked for the presence of a CCS in blood from early RA patients commencing MTX using chromosome conformation capture by EpiSwitch™. Using blood samples from MTX responders, non-responders and healthy controls, a custom designed biomarker discovery array was refined to a 5-marker CCS that could discriminate between responders and non-responders to MTX. We cross-validated the predictive power of the CCS by generating 150 randomized groups of 59 early RA patients (30 responders and 29 non-responders) before MTX treatment. The CCS was validated using a blinded, independent cohort of 19 early RA patients (9 responders and 10 non-responders). Last, the loci of the CCS markers were mapped to RA-specific eQTL.ResultsWe identified a 5-marker CCS that could identify, at baseline, responders and non-responders to MTX. The CCS consisted of binary chromosome conformations in the genomic regions of IFNAR1, IL-21R, IL-23, CXCL13 and IL-17A. When tested on a cohort of 59 RA patients, the CCS provided a negative predictive value of 90.0% for MTX response. When tested on a blinded independent validation cohort of 19 early RA patients, the signature demonstrated a true negative response rate of 86 and a 90% sensitivity for detection of non-responders to MTX. Only conformations in responders mapped to RA-specific eQTL.ConclusionsHere we demonstrate that detection of a CCS in blood in early RA is able to predict inadequate response to MTX with a high degree of accuracy. Our results provide a proof of principle that a priori stratification of response to MTX is possible, offering a mechanism to provide alternative treatments for non-responders to MTX earlier in the course of the disease.Electronic supplementary materialThe online version of this article (10.1186/s12967-018-1387-9) contains supplementary material, which is available to authorized users.

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A pilot study of chromosomal aberrations and epigenetic changes in peripheral blood samples to identify patients with melanoma

Jakub

Grotz

Jordan

et al. 2015

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Prognosis is markedly improved when melanoma is diagnosed early. Improved methods are needed for earlier detection and screening. We hypothesized that epigenetic analysis of blood samples could discriminate patients with melanoma from patients with other cutaneous lesions and from healthy volunteers. After institutional review board approval and consent, whole blood was obtained from 59 patients with melanoma, 20 patients with other skin cancers, 20 patients with benign skin conditions, and 20 healthy volunteers. Fifteen conformation biomarkers from five gene loci were analyzed on chromatin with the EpiSwitch technology using a modified chromatin conformation capture assay. Differentiation between patients with melanoma and those with nonmelanoma skin cancers was correct 85% of the time, resulting in a sensitivity of 88% and a specificity of 82%. Differentiation of patients with melanoma from healthy controls was correct 80% of the time, resulting in a sensitivity of 85% and a specificity of 75%. The noninvasive test was more accurate in early-stage melanoma (1/10 and 1/16 stage I and stage II patients were misclassified, respectively) and became less accurate with more advanced disease (3/14 and 4/19 stage III and IV patients were misclassified, respectively). We report the results of a noninvasive test using chromosomal aberrations and epigenetic changes identified in peripheral blood that, in this pilot study, distinguished patients with early-stage melanoma from other cohorts.

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Aroul Ramadass

Repression of the human dihydrofolate reductase gene by a non-coding interfering transcript

Super-Enhancers and Broad H3K4me3 Domains Form Complex Gene Regulatory Circuits Involving Chromatin Interactions

Autocatalytic RNA cleavage in the human β-globin pre-mRNA promotes transcription termination

Chromosome conformation signatures define predictive markers of inadequate response to methotrexate in early rheumatoid arthritis

A pilot study of chromosomal aberrations and epigenetic changes in peripheral blood samples to identify patients with melanoma

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