Lina Cordeddu scite author profile

Distinct epigenomic patterns exist in important DNA elements of the cardiac genome in human end-stage cardiomyopathy. The epigenome may control the expression of local or distal genes with critical functions in myocardial stress response. If epigenomic patterns track with disease progression, assays for the epigenome may be useful for assessing prognosis in heart failure. Further studies are needed to determine whether and how the epigenome contributes to the development of cardiomyopathy.

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Mutations in RAD21 Disrupt Regulation of APOB in Patients With Chronic Intestinal Pseudo-Obstruction

Bonora

Bianco

Cordeddu

et al. 2015

Gastroenterology

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Background & Aims Chronic intestinal pseudo-obstruction (CIPO) is characterized by severe intestinal dysmotility that mimicks a mechanical sub-occlusion with no evidence of gut obstruction. We searched for genetic variants associated with CIPO to increase our understanding of its pathogenesis and indentify potential biomarkers. Methods We performed whole-exome sequencing of genomic DNA from patients with familial CIPO syndrome. Blood and lymphoblastoid cells were collected from patients and controls (individuals without CIPO); levels of mRNA and proteins were analyzed by quantitative reverse transcription PCR, immunoblot, and mobility shift assays. cDNAs were transfected into HEK293 cells. Expression of rad21 was suppressed in zebrafish embryos using a splice-blocking morpholino (rad21a MO). Gut tissues were collected and analyzed. Results We identified a homozygous mutation (p.622, encodes Ala>Thr) in RAD21 in patients from a consanguineous family with CIPO. Expression of RUNX1, a target of RAD21, was reduced in cells from patients with CIPO compared with controls. In zebrafish, suppression of rad21a reduced expression of runx1; this phenotype was corrected by injection of human RAD21 mRNA, but not with the mRNA from the mutated p.622 allele. rad21a MO zebrafish had delayed intestinal transit and greatly reduced numbers of enteric neurons, similar to patients with CIPO. This defect was greater in zebrafish with suppressed expression of ret and rad21, indicating their interaction in regulation of gut neurogenesis. The promoter region of APOB bound RAD21 but not RAD21 p.622 Ala>Thr; expression of wild-type RAD21 in HEK293 cells repressed expression of APOB, compared with control vector. The gut-specific isoform of APOB (APOB48) is overexpressed in sera from patients with CIPO who carry the RAD21 mutation. APOB48 is also overexpressed in sporadic CIPO in sera and gut biopsies. Conclusions Some patients with CIPO carry mutations in RAD21 that disrupt the ability of its product to regulate genes such as RUNX1 and APOB. Reduced expression of rad21 in zebrafish, and dysregulation of these target genes, disrupts intestinal transit and development of enteric neurons.

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Transcription-coupled recruitment of human CHD1 and CHD2 influences chromatin accessibility and histone H3 and H3.3 occupancy at active chromatin regions

Siggens

Cordeddu

Rönnerblad

et al. 2015

Epigenetics & Chromatin

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BackgroundCHD1 and CHD2 chromatin remodeling enzymes play important roles in development, cancer and differentiation. At a molecular level, the mechanisms are not fully understood but include transcriptional regulation, nucleosome organization and turnover.ResultsHere we show human CHD1 and CHD2 enzymes co-occupy active chromatin regions associated with transcription start sites (TSS), enhancer like regions and active tRNA genes. We demonstrate that their recruitment is transcription-coupled. CHD1 and CHD2 show distinct binding profiles across active TSS regions. Depletion of CHD1 influences chromatin accessibility at TSS and enhancer-like chromatin regions. CHD2 depletion causes increased histone H3 and reduced histone variant H3.3 occupancy.ConclusionsWe conclude that transcription-coupled recruitment of CHD1 and CHD2 occurs at transcribed gene TSSs and at intragenic and intergenic enhancer-like sites. The recruitment of CHD1 and CHD2 regulates the architecture of active chromatin regions through chromatin accessibility and nucleosome disassembly.Electronic supplementary materialThe online version of this article (doi:10.1186/1756-8935-8-4) contains supplementary material, which is available to authorized users.

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Circulating miR-323-3p and miR-652: Candidate markers for the presence and progression of acute coronary syndromes

Pilbrow

Cordeddu

Cameron

et al. 2014

International Journal of Cardiology

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Severe gastrointestinal dysmotility developed after treatment with gonadotropin-releasing hormone analogs

Cordeddu

Bergvall

Sand³

et al. 2015

Scandinavian Journal of Gastroenterology

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Cancer-specific changes in DNA methylation reveal aberrant silencing and activation of enhancers in leukemia

Siggens

Cordeddu

et al. 2017

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Key Points• DNA demethylation activates new and poised enhancers in AML that cause a leukemic transcriptome.• Only a subset of DNA demethylated enhancers becomes activated. A specific additional activation step is required for enhancer activation.Acute myeloid leukemia (AML) is characterized by an impaired differentiation process leading to an accumulation of immature blasts in the blood. One feature of cytogenetically normal AML is alterations to the DNA methylome. We analyzed 57 AML patients with normal karyotype by using Illumina's 450k array and showed that aberrant DNA methylation is significantly altered at enhancer regions and that the methylation levels at specific enhancers predict overall survival of AML patients. The majority of sites that become differentially methylated in AML occur in regulatory elements of the human genome. Hypermethylation associates with enhancer silencing. In addition, chromatin immunoprecipitation sequencing analyses showed that a subset of hypomethylated sites correlate with enhancer activation, indicated by increased H3K27 acetylation. DNA hypomethylation is therefore not sufficient for enhancer activation. Some sites of hypomethylation occur at weak/poised enhancers marked with H3K4 monomethylation in hematopoietic progenitor cells. Other hypomethylated regions occur at sites inactive in progenitors and reflect the de novo acquisition of AML-specific enhancers. Altered enhancer dynamics are reflected in the gene expression of enhancer target genes, including genes involved in oncogenesis and blood cell development. This study demonstrates that histone variants and different histone modifications interact with aberrant DNA methylation and cause perturbed enhancer activity in cytogenetically normal AML that contributes to a leukemic transcriptome. (Blood. 2017;129(7):e13-e25)

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The landscape of DNA repeat elements in human heart failure

Haider

Cordeddu²,

Robinson³

et al. 2012

Genome Biol

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BackgroundThe epigenomes of healthy and diseased human hearts were recently examined by genome-wide DNA methylation profiling. Repetitive elements, heavily methylated in post-natal tissue, have variable methylation profiles in cancer but methylation of repetitive elements in the heart has never been examined.ResultsWe analyzed repetitive elements from all repeat families in human myocardial samples, and found that satellite repeat elements were significantly hypomethylated in end-stage cardiomyopathic hearts relative to healthy normal controls. Satellite repeat elements are almost always centromeric or juxtacentromeric, and their overexpression correlates with disease aggressiveness in cancer. Similarly, we found that hypomethylation of satellite repeat elements correlated with up to 27-fold upregulation of the corresponding transcripts in end-stage cardiomyopathic hearts. No other repeat family exhibited differential methylation between healthy and cardiomyopathic hearts, with the exception of the Alu element SINE1/7SL, for which a modestly consistent trend of increased methylation was observed.ConclusionsSatellite repeat element transcripts, a form of non-coding RNA, have putative functions in maintaining genomic stability and chromosomal integrity. Further studies will be needed to establish the functional significance of these non-coding RNAs in the context of heart failure.

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Functional Analyses of the Crohn’s Disease Risk Gene LACC1

et al. 2016

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BackgroundGenetic variation in the Laccase (multicopper oxidoreductase) domain-containing 1 (LACC1) gene has been shown to affect the risk of Crohn’s disease, leprosy and, more recently, ulcerative colitis and juvenile idiopathic arthritis. LACC1 function appears to promote fatty-acid oxidation, with concomitant inflammasome activation, reactive oxygen species production, and anti-bacterial responses in macrophages. We sought to contribute to elucidating LACC1 biological function by extensive characterization of its expression in human tissues and cells, and through preliminary analyses of the regulatory mechanisms driving such expression.MethodsWe implemented Western blot, quantitative real-time PCR, immunofluorescence microscopy, and flow cytometry analyses to investigate fatty acid metabolism-immune nexus (FAMIN; the LACC1 encoded protein) expression in subcellular compartments, cell lines and relevant human tissues. Gene-set enrichment analyses were performed to initially investigate modulatory mechanisms of LACC1 expression. A small-interference RNA knockdown in vitro model system was used to study the effect of FAMIN depletion on peroxisome function.ResultsFAMIN expression was detected in macrophage-differentiated THP-1 cells and several human tissues, being highest in neutrophils, monocytes/macrophages, myeloid and plasmacytoid dendritic cells among peripheral blood cells. Subcellular co-localization was exclusively confined to peroxisomes, with some additional positivity for organelle endomembrane structures. LACC1 co-expression signatures were enriched for genes involved in peroxisome proliferator-activated receptors (PPAR) signaling pathways, and PPAR ligands downregulated FAMIN expression in in vitro model systems.ConclusionFAMIN is a peroxisome-associated protein with primary role(s) in macrophages and other immune cells, where its metabolic functions may be modulated by PPAR signaling events. However, the precise molecular mechanisms through which FAMIN exerts its biological effects in immune cells remain to be elucidated.

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Lina Cordeddu

Distinct Epigenomic Features in End-Stage Failing Human Hearts

Mutations in RAD21 Disrupt Regulation of APOB in Patients With Chronic Intestinal Pseudo-Obstruction

Transcription-coupled recruitment of human CHD1 and CHD2 influences chromatin accessibility and histone H3 and H3.3 occupancy at active chromatin regions

Circulating miR-323-3p and miR-652: Candidate markers for the presence and progression of acute coronary syndromes

Severe gastrointestinal dysmotility developed after treatment with gonadotropin-releasing hormone analogs

Cancer-specific changes in DNA methylation reveal aberrant silencing and activation of enhancers in leukemia

The landscape of DNA repeat elements in human heart failure

Functional Analyses of the Crohn’s Disease Risk Gene LACC1

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