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1.
Cancer Immunol Immunother ; 71(5): 1139-1155, 2022 May.
Article in English | MEDLINE | ID: mdl-34608548

ABSTRACT

BACKGROUND: CD155 immune checkpoint has recently emerged as a compelling immunotherapeutic target. Epigenetic DNA methylation changes are recognized as key molecular mechanisms in cancer development. Hence, the identification of methylation markers that are sensitive and specific for breast cancer may improve early detection and predict prognosis. We speculate that CD155 promoter methylation can be a valuable epigenetic biomarker, based upon strong indications for its immunoregulatory functions. METHODS: Methylation analyses were conducted on 14 CpGs sites in the CD155 promoter region by bisulfite pyrosequencing. To elucidate the related gene expression changes, a transcriptional study using RT-qPCR was performed. Statistical analyses were performed to evaluate correlations of CD155 methylation profiles with mRNA expression together with clinical-pathological features, prognosis and immune infiltrate. RESULTS: CD155 promoter methylation profile was significantly associated with SBR grade, tumor size, molecular subgroups, HER2 and hormonal receptors expression status. Low CD155 methylation rates correlated with better prognosis in univariate cox proportional hazard analysis and appeared as an independent survival predictor in cox-regression multivariate analysis. Further, methylation changes at CD155 specific CpG sites were consistent with CD155 membranous mRNA isoform expression status. Statistical analyses also showed a significant association with immune Natural Killer cell infiltrate when looking at the CpG7, CpG8, CpG9 and CpG11 sites. CONCLUSION: Altogether, our results contribute to a better understanding of the impact of CD155 immune checkpoint modality expression in breast tumors, revealing for the first time that specific CpG sites from CD155 promoter may be a potential biomarker in breast cancer monitoring.


Subject(s)
Breast Neoplasms , Breast Neoplasms/metabolism , CpG Islands , DNA Methylation , Epigenesis, Genetic , Female , Gene Expression Regulation, Neoplastic , Humans , Prognosis , Promoter Regions, Genetic , Receptors, Virus
2.
Mar Drugs ; 19(2)2021 Jan 22.
Article in English | MEDLINE | ID: mdl-33499163

ABSTRACT

Marine plants have become an inexhaustible reservoir of new phytopharmaceuticals for cancer treatment. We demonstrate in vitro/in vivo antitumor efficacy of a standardized polyphenol extract from the marine angiosperm Thalassia testudinum (TTE) in colon tumor cell lines (RKO, SW480, and CT26) and a syngeneic allograft murine colorectal cancer model. MTT assays revealed a dose-dependent decrease of cell viability of RKO, CT26, and SW480 cells upon TTE treatment with IC50 values of, respectively, 175, 115, and 60 µg/mL. Furthermore, TTE significantly prevented basal and bFGF-induced angiogenesis in the chicken chorioallantoic membrane angiogenesis assay. In addition, TTE suppressed bFGF-induced migration of endothelial cells in a wound closure assay. Finally, TTE treatment abrogated CT26 colorectal cancer growth and increased overall organism survival in a syngeneic murine allograft model. Corresponding transcriptome profiling and pathway analysis allowed for the identification of the mechanism of action for the antitumor effects of TTE. In line with our in vitro/in vivo results, TTE treatment triggers ATF4-P53-NFκB specific gene expression and autophagy stress pathways. This results in suppression of colon cancer cell growth, cell motility, and angiogenesis pathways in vitro and in addition promotes antitumor immunogenic cell death in vivo.


Subject(s)
Antineoplastic Agents, Phytogenic/therapeutic use , Cell Movement/drug effects , Colorectal Neoplasms/pathology , Hydrocharitaceae , Immunogenic Cell Death/drug effects , Neovascularization, Pathologic/pathology , Plant Extracts/therapeutic use , Animals , Antineoplastic Agents, Phytogenic/isolation & purification , Antineoplastic Agents, Phytogenic/pharmacology , Autophagy/drug effects , Autophagy/physiology , Cell Line, Tumor , Cell Movement/physiology , Colorectal Neoplasms/drug therapy , Colorectal Neoplasms/metabolism , Humans , Hydrocharitaceae/chemistry , Immunogenic Cell Death/physiology , Male , Mice , Mice, Inbred BALB C , Neovascularization, Pathologic/drug therapy , Neovascularization, Pathologic/metabolism , Plant Extracts/isolation & purification , Plant Extracts/pharmacology , Xenograft Model Antitumor Assays/methods
3.
Hum Reprod ; 35(2): 293-307, 2020 02 29.
Article in English | MEDLINE | ID: mdl-32112081

ABSTRACT

STUDY QUESTION: Does oocyte maturation under lipolytic conditions have detrimental carry-over effects on post-hatching embryo development of good-quality blastocysts after transfer? SUMMARY ANSWER: Surviving, morphologically normal blastocysts derived from bovine oocytes that matured under lipotoxic conditions exhibit long-lasting cellular dysfunction at the transcriptomic and metabolic levels, which coincides with retarded post-hatching embryo development. WHAT IS KNOWN ALREADY: There is increasing evidence showing that following maturation in pathophysiologically relevant lipotoxic conditions (as in obesity or metabolic syndrome), surviving blastocysts of good (transferable) morphological quality have persistent transcriptomic and epigenetic alteration even when in vitro embryo culture takes place under standard conditions. However, very little is known about subsequent development in the uterus after transfer. STUDY DESIGN, SIZE, DURATION: Bovine oocytes were matured in vitro in the presence of pathophysiologically relevant, high non-esterified fatty acid (NEFA) concentrations (HIGH PA), or in basal NEFA concentrations (BASAL) as a physiological control. Eight healthy multiparous non-lactating Holstein cows were used for embryo transfers. Good-quality blastocysts (pools of eight) were transferred per cow, and cows were crossed over for treatments in the next replicate. Embryos were recovered 7 days later and assessed for post-hatching development, phenotypic features and gene expression profile. Blastocysts from solvent-free and NEFA-free maturation (CONTROL) were also tested for comparison. PARTICIPANTS/MATERIALS, SETTING, METHODS: Recovered Day 14 embryos were morphologically assessed and dissected into embryonic disk (ED) and extraembryonic tissue (EXT). Samples of EXT were cultured for 24 h to assess cellular metabolic activity (glucose and pyruvate consumption and lactate production) and embryos' ability to signal for maternal recognition of pregnancy (interferon-τ secretion; IFN-τ). ED and EXT samples were subjected to RNA sequencing to evaluate the genome-wide transcriptome patterns. MAIN RESULTS AND THE ROLE OF CHANCE: The embryo recovery rate at Day 14 p.i. was not significantly different among treatment groups (P > 0.1). However, higher proportions of HIGH PA embryos were retarded in growth (in spherical stage) compared to the more elongated tubular stage embryos in the BASAL group (P < 0.05). Focusing on the normally developed tubular embryos in both groups, HIGH PA exposure resulted in altered cellular metabolism and altered transcriptome profile particularly in pathways related to redox-regulating mechanisms, apoptosis, cellular growth, interaction and differentiation, energy metabolism and epigenetic mechanisms, compared to BASAL embryos. Maturation under BASAL conditions did not have any significant effects on post-hatching development and cellular functions compared to CONTROL. LARGE-SCALE DATA: The datasets of RNA sequencing analysis are available in the NCBI's Gene Expression Omnibus (GEO) repository, series accession number GSE127889 (https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE127889). Datasets of differentially expressed genes and their gene ontology functions are available in the Mendeley datasets at http://dx.doi.org/10.17632/my2z7dvk9j.2. LIMITATIONS, REASONS FOR CAUTION: The bovine model was used here to allow non-invasive embryo transfer and post-hatching recovery on Day 14. There are physiological differences in some characteristics of post-hatching embryo development between human and cows, such as embryo elongation and trophoblastic invasion. However, the main carry-over effects of oocyte maturation under lipolytic conditions described here are evident at the cellular level and therefore may also occur during post-hatching development in other species including humans. In addition, post-hatching development was studied here under a healthy uterine environment to focus on carry-over effects originating from the oocyte, whereas additional detrimental effects may be induced by maternal metabolic disorders due to adverse changes in the uterine microenvironment. RNA sequencing results were not verified by qPCR, and no solvent control was included. WIDER IMPLICATIONS OF THE FINDINGS: Our observations may increase the awareness of the importance of maternal metabolic stress at the level of the preovulatory oocyte in relation to carry-over effects that may persist in the transferrable embryos. It should further stimulate new research about preventive and protective strategies to optimize maternal metabolic health around conception to maximize embryo viability and thus fertility outcome. STUDY FUNDING/COMPETING INTEREST(S): This study was supported by the Flemish Research Fund (FWO grant 11L8716N and FWO project 42/FAO10300/6541). The authors declare there are no conflicts of interest.


Subject(s)
In Vitro Oocyte Maturation Techniques , Transcriptome , Animals , Blastocyst , Cattle , Embryo Transfer , Female , Humans , Oocytes , Pregnancy
4.
Brain Behav Immun ; 64: 103-115, 2017 Aug.
Article in English | MEDLINE | ID: mdl-28390980

ABSTRACT

Stroke represents one of the first causes of mortality and morbidity worldwide. We evaluated the therapeutic potential of a novel semi-synthetic spirosteroid sapogenin derivative "S15" in a transient middle cerebral artery occlusion (tMCAO) focal ischemia model in rat. S15-treated rats had significantly reduced infarct volumes and improved neurological functions at 24h post-reperfusion, compared with ischemia. Corresponding gene expression changes in brain were characterized by mRNA sequencing and qPCR approaches. Next, we applied geneset, pathway and transcription factor motif enrichment analysis to identify relevant signaling networks responsible for neuronal damage upon ischemia-reperfusion or neuroprotection upon pretreatment with S15. As expected, ischemia-reperfusion brain damage strongly modulates transcriptional programs associated with immune responses, increased differentiation of immune cells as well as reduced (cat)ion transport and synaptic activity. Interestingly, S15-dependent neuroprotection regulates inflammation-associated genes involved in phagosome specific resolution of tissue damage, chemotaxis and anti-inflammatory alternative activation of microglia. Altogether our transcriptome wide RNA sequencing and integrated pathway analysis provides new clues in the neuroprotective properties of a novel spirosteroid S15 or neuronal damage in rat brains subjected to ischemia, which opens new perspectives for successful treatment of stroke.


Subject(s)
Brain Ischemia/metabolism , Neuroprotective Agents/administration & dosage , Sapogenins/administration & dosage , Stroke/metabolism , Transcriptome , Animals , Brain Ischemia/drug therapy , Infarction, Middle Cerebral Artery/drug therapy , Infarction, Middle Cerebral Artery/metabolism , Rats, Wistar , Reperfusion Injury/drug therapy , Reperfusion Injury/metabolism , Stroke/drug therapy
5.
Mol Nutr Food Res ; 66(21): e2100991, 2022 11.
Article in English | MEDLINE | ID: mdl-35094491

ABSTRACT

SCOPE: While cocoa flavanol (CF) consumption improves cardiovascular risk biomarkers, molecular mechanisms underlying their protective effects are not understood. OBJECTIVE: To investigate nutri(epi)genomic effects of CF and identify regulatory networks potential mediating vascular health benefits. METHODS AND RESULTS: Twenty healthy middle-aged men consume CF (bi-daily 450 mg) or control drinks for 1 month. Microarray analysis identifies 2235 differentially expressed genes (DEG) involved in processes regulating immune response, cell adhesion, or cytoskeleton organization. Distinct patterns of DEG correlate with CF-related changes in endothelial function, arterial stiffness, and blood pressure. DEG profile negatively correlates with expression profiles of cardiovascular disease patients. CF modulated DNA methylation profile of genes implicates in cell adhesion, actin cytoskeleton organization, or cell signaling. In silico docking analyses indicate that CF metabolites have the potential of binding to cell signaling proteins and transcription factors. Incubation of plasma obtained after CF consumption decrease monocyte to endothelial adhesion and dose-dependently increase nitric oxide-dependent chemotaxis of circulating angiogenic cells further validating the biological functions of CF metabolites. CONCLUSION: In healthy humans, CF consumption may mediate vascular protective effects by modulating gene expression and DNA methylation towards a cardiovascular protective effect, in agreement with clinical results, by preserving integrity of immunological-endothelial barrier functions.


Subject(s)
Cacao , Flavonols , Middle Aged , Male , Humans , Flavonols/pharmacology , Cacao/chemistry , Polyphenols/pharmacology , Blood Pressure , Genomics , Double-Blind Method
6.
BMC Complement Med Ther ; 21(1): 141, 2021 May 12.
Article in English | MEDLINE | ID: mdl-33980308

ABSTRACT

BACKGROUND: Herbal remedies of Echinacea purpurea tinctures are widely used today to reduce common cold respiratory tract infections. METHODS: Transcriptome, epigenome and kinome profiling allowed a systems biology level characterisation of genomewide immunomodulatory effects of a standardized Echinacea purpurea (L.) Moench extract in THP1 monocytes. RESULTS: Gene expression and DNA methylation analysis revealed that Echinaforce® treatment triggers antiviral innate immunity pathways, involving tonic IFN signaling, activation of pattern recognition receptors, chemotaxis and immunometabolism. Furthermore, phosphopeptide based kinome activity profiling and pharmacological inhibitor experiments with filgotinib confirm a key role for Janus Kinase (JAK)-1 dependent gene expression changes in innate immune signaling. Finally, Echinaforce® treatment induces DNA hypermethylation at intergenic CpG, long/short interspersed nuclear DNA repeat elements (LINE, SINE) or long termininal DNA repeats (LTR). This changes transcription of flanking endogenous retroviral sequences (HERVs), involved in an evolutionary conserved (epi) genomic protective response against viral infections. CONCLUSIONS: Altogether, our results suggest that Echinaforce® phytochemicals strengthen antiviral innate immunity through tonic IFN regulation of pattern recognition and chemokine gene expression and DNA repeat hypermethylated silencing of HERVs in monocytes. These results suggest that immunomodulation by Echinaforce® treatment holds promise to reduce symptoms and duration of infection episodes of common cold corona viruses (CoV), Severe Acute Respiratory Syndrome (SARS)-CoV, and new occurring strains such as SARS-CoV-2, with strongly impaired interferon (IFN) response and weak innate antiviral defense.


Subject(s)
COVID-19 Drug Treatment , Echinacea , Immunologic Factors/pharmacology , Monocytes/drug effects , Plant Extracts/pharmacology , SARS-CoV-2/drug effects , Gene Expression , Humans , Immunity, Innate/drug effects , Immunologic Factors/therapeutic use , Interferons/drug effects , Phytotherapy , Plant Extracts/therapeutic use
7.
Cancers (Basel) ; 13(7)2021 Mar 31.
Article in English | MEDLINE | ID: mdl-33807411

ABSTRACT

Multiple myeloma (MM) is a hematological malignancy characterized by plasma cells' uncontrolled growth. The major barrier in treating MM is the occurrence of primary and acquired therapy resistance to anticancer drugs. Often, this therapy resistance is associated with constitutive hyperactivation of tyrosine kinase signaling. Novel covalent kinase inhibitors, such as the clinically approved BTK inhibitor ibrutinib (IBR) and the preclinical phytochemical withaferin A (WA), have, therefore, gained pharmaceutical interest. Remarkably, WA is more effective than IBR in killing BTK-overexpressing glucocorticoid (GC)-resistant MM1R cells. To further characterize the kinase inhibitor profiles of WA and IBR in GC-resistant MM cells, we applied phosphopeptidome- and transcriptome-specific tyrosine kinome profiling. In contrast to IBR, WA was found to reverse BTK overexpression in GC-resistant MM1R cells. Furthermore, WA-induced cell death involves covalent cysteine targeting of Hinge-6 domain type tyrosine kinases of the kinase cysteinome classification, including inhibition of the hyperactivated BTK. Covalent interaction between WA and BTK could further be confirmed by biotin-based affinity purification and confocal microscopy. Similarly, molecular modeling suggests WA preferably targets conserved cysteines in the Hinge-6 region of the kinase cysteinome classification, favoring inhibition of multiple B-cell receptors (BCR) family kinases. Altogether, we show that WA's promiscuous inhibition of multiple BTK family tyrosine kinases represents a highly effective strategy to overcome GC-therapy resistance in MM.

8.
Front Pharmacol ; 12: 670167, 2021.
Article in English | MEDLINE | ID: mdl-34924998

ABSTRACT

In spite of the current advances and achievements in cancer treatments, colorectal cancer (CRC) persists as one of the most prevalent and deadly tumor types in both men and women worldwide. Drug resistance, adverse side effects and high rate of angiogenesis, metastasis and tumor relapse remain one of the greatest challenges in long-term management of CRC and urges need for new leads of anticancer drugs. We demonstrate that CRC treatment with the phytopharmaceutical mangiferin (MGF), a glucosylxanthone present in Mango tree stem bark and leaves (Mangifera Indica L.), induces dose-dependent tumor regression and decreases lung metastasis in a syngeneic immunocompetent allograft mouse model of murine CT26 colon carcinoma, which increases overall survival of mice. Antimetastatic and antiangiogenic MGF effects could be further validated in a wound healing in vitro model in human HT29 cells and in a matrigel plug implant mouse model. Interestingly, transcriptome pathway enrichment analysis demonstrates that MGF inhibits tumor growth, metastasis and angiogenesis by multi-targeting of mitochondrial oxidoreductase and fatty acid ß-oxidation metabolism, PPAR, SIRT, NFκB, Stat3, HIF, Wnt and GP6 signaling pathways. MGF effects on fatty acid ß-oxidation metabolism and carnitine palmitoyltransferase 1 (CPT1) protein expression could be further confirmed in vitro in human HT29 colon cells. In conclusion, antitumor, antiangiogenic and antimetastatic effects of MGF treatment hold promise to reduce adverse toxicity and to mitigate therapeutic outcome of colorectal cancer treatment by targeting mitochondrial energy metabolism in the tumor microenvironment.

9.
Melanoma Res ; 30(1): 39-51, 2020 02.
Article in English | MEDLINE | ID: mdl-31651714

ABSTRACT

Advanced metastatic melanoma, one of the most aggressive skin malignancies, is currently without reliable therapy. The process of angiogenesis is crucial for progression and metastasis of the majority of solid tumors including melanomas. Therefore, new therapies are urgently needed. Mangiferin is a naturally occurring glucosylxanthone which exerts many pharmacological activities against cancer-inflammation. However, the effect of mangiferin on metastasis and tumor growth of metastatic melanoma remains unclear. In this study, we demonstrate that mangiferin interferes with inflammation, lipid and calcium signaling which selectively inhibits multiple NFkB target genes including interleukin-6, tumor necrosis factor, interferon gamma, vascular endothelial growth factor receptor 2, plasminogen activator urokinase, matrix metalloprotease 19, C-C Motif Chemokine Ligand 2 and placental growth factor. This abrogates angiogenic and invasive processes and capillary tube formation of metastatic melanoma cells as well as human placental blood vessel explants in-vitro and blocks angiogenesis characteristic of the chicken egg chorioallantoic membrane assay and in melanoma syngeneic studies in vivo. The results obtained in this research illustrate promising anti-angiogenic effects of the natural glucosylxanthone mangiferin for further (pre)clinical studies in melanoma cancer patients.


Subject(s)
Angiogenesis Inhibitors/therapeutic use , Melanoma/drug therapy , Skin Neoplasms/drug therapy , Xanthones/therapeutic use , Angiogenesis Inhibitors/pharmacology , Humans , Melanoma/pathology , Skin Neoplasms/pathology , Xanthones/pharmacology
10.
Biochem Pharmacol ; 173: 113699, 2020 03.
Article in English | MEDLINE | ID: mdl-31756325

ABSTRACT

Ingestion of (-)-epicatechin flavanols reverses endothelial dysfunction by increasing flow mediated dilation and by reducing vascular inflammation and oxidative stress, monocyte-endothelial cell adhesion and transendothelial monocyte migration in vitro and in vivo. This involves multiple changes in gene expression and epigenetic DNA methylation by poorly understood mechanisms. By in silico docking and molecular modeling we demonstrate favorable binding of different glucuronidated, sulfated or methylated (-)-epicatechin metabolites to different DNA methyltransferases (DNMT1/DNMT3A). In favor of this model, genome-wide DNA methylation profiling of endothelial cells treated with TNF and different (-)-epicatechin metabolites revealed specific DNA methylation changes in gene networks controlling cell adhesion-extravasation endothelial hyperpermeability as well as gamma-aminobutyric acid, renin-angiotensin and nitric oxide hypertension pathways. Remarkably, blood epigenetic profiles of an 8 weeks intervention with monomeric and oligomeric flavanols (MOF) including (-)-epicatechin in male smokers revealed individual epigenetic gene changes targeting similar pathways as the in vitro exposure experiments in endothelial cells. Furthermore, epigenetic changes following MOF diet intervention oppose atherosclerosis associated epigenetic changes. In line with biological data, the individual epigenetic response to a MOF diet is associated with different vascular health parameters (glutathione peroxidase 1 and endothelin-1 expression, acetylcholine-mediated microvascular response), in part involving systemic shifts in blood immune cell types which reduce the neutrophil-lymphocyte ratio (NLR). Altogether, our study suggests that different (-)-epicatechin metabolites promote vascular health in part via epigenetic reprogramming of endothelial-immune cell signaling and reversing systemic low-grade inflammation.


Subject(s)
Catechin/pharmacology , Endothelium, Vascular/drug effects , Epigenesis, Genetic/drug effects , Human Umbilical Vein Endothelial Cells/drug effects , Inflammation/prevention & control , Signal Transduction/drug effects , Catechin/chemistry , Catechin/metabolism , Cell Adhesion/drug effects , Cell Adhesion/genetics , DNA (Cytosine-5-)-Methyltransferases/chemistry , DNA (Cytosine-5-)-Methyltransferases/metabolism , DNA Methylation/drug effects , Endothelium, Vascular/metabolism , Endothelium, Vascular/pathology , Gene Expression Regulation/drug effects , Human Umbilical Vein Endothelial Cells/immunology , Human Umbilical Vein Endothelial Cells/metabolism , Humans , Inflammation/genetics , Inflammation/metabolism , Lymphocytes/drug effects , Lymphocytes/immunology , Molecular Docking Simulation , Neutrophils/drug effects , Neutrophils/immunology , Oxidative Stress/drug effects , Signal Transduction/genetics , Signal Transduction/immunology , Transendothelial and Transepithelial Migration/drug effects , Transendothelial and Transepithelial Migration/genetics
11.
J Clin Endocrinol Metab ; 105(12)2020 12 01.
Article in English | MEDLINE | ID: mdl-32685970

ABSTRACT

PURPOSE: In a significant proportion of children born small for gestational age (SGA) with failure of catch-up growth, the etiology of short stature remains unclear after routine diagnostic workup. We wanted to investigate if extensive analysis of the (epi)genome can unravel the cause of growth failure in a significant portion of these children. PATIENTS AND METHODS: Twenty SGA children treated with GH because of short stature were selected from the BELGROW database of the Belgian Society for Pediatric Endocrinology and Diabetology for exome sequencing, single-nucleotide polymorphism (SNP) array and genome-wide methylation analysis to identify the (epi)genetic cause. First-year response to GH was compared with the response of SGA patients in the KIGS database. RESULTS: We identified (likely) pathogenic variants in 4 children (from 3 families) using exome sequencing and found pathogenic copy number variants in 2 probands using SNP array. In a child harboring a NSD1-containing microduplication, we identified a DNA methylation signature that is opposite to the genome-wide DNA methylation signature of Sotos syndrome. Moreover, we observed multilocus imprinting disturbances in 2 children in whom no other genomic alteration could be identified. Five of 6 children with a genetic diagnosis had an "above average" response to GH. CONCLUSIONS: The study indicates that a more advanced approach with deep genotyping can unravel unexpected (epi)genomic alterations in SGA children with persistent growth failure. Most SGA children with a genetic diagnosis had a good response to GH treatment.


Subject(s)
DNA Methylation/genetics , Infant, Newborn, Diseases/genetics , Infant, Small for Gestational Age/physiology , Epigenome , Female , Genomics , Humans , Infant, Newborn , Male
12.
Food Funct ; 11(6): 5040-5064, 2020 Jun 24.
Article in English | MEDLINE | ID: mdl-32537624

ABSTRACT

Flavanol intake positively influences several cardiometabolic risk factors in humans. However, the specific molecular mechanisms of action of flavanols, in terms of gene regulation, in the cell types relevant to cardiometabolic disease have never been systematically addressed. On this basis, we conducted a systematic literature review and a comprehensive bioinformatic analysis of genes whose expression is affected by flavanols in cells defining cardiometabolic health: hepatocytes, adipocytes, endothelial cells, smooth muscle cells and immune cells. A systematic literature search was performed using the following pre-defined criteria: treatment with pure compounds and metabolites (no extracts) at low concentrations that are close to their plasma concentrations. Differentially expressed genes were analyzed using bioinformatics tools to identify gene ontologies, networks, cellular pathways and interactions, as well as transcriptional and post-transcriptional regulators. The systematic literature search identified 54 differentially expressed genes at the mRNA level in in vitro models of cardiometabolic disease exposed to flavanols and their metabolites. Global bioinformatic analysis revealed that these genes are predominantly involved in inflammation, leukocyte adhesion and transendothelial migration, and lipid metabolism. We observed that, although the investigated cells responded differentially to flavanol exposure, the involvement of anti-inflammatory responses is a common mechanism of flavanol action. We also identified potential transcriptional regulators of gene expression: transcriptional factors, such as GATA2, NFKB1, FOXC1 or PPARG, and post-transcriptional regulators: miRNAs, such as mir-335-5p, let-7b-5p, mir-26b-5p or mir-16-5p. In parallel, we analyzed the nutrigenomic effects of flavanols in intestinal cells and demonstrated their predominant involvement in the metabolism of circulating lipoproteins. In conclusion, the results of this systematic analysis of the nutrigenomic effects of flavanols provide a more comprehensive picture of their molecular mechanisms of action and will support the future setup of genetic studies to pave the way for individualized dietary recommendations.


Subject(s)
Cardiovascular Diseases , Flavonols/metabolism , Computational Biology , Humans , Models, Biological , Nutrigenomics
13.
Blood Cancer Discov ; 1(3): 274-289, 2020 11.
Article in English | MEDLINE | ID: mdl-33179015

ABSTRACT

Cancer cells display DNA hypermethylation at specific CpG islands in comparison to their normal healthy counterparts, but the mechanism that drives this so-called CpG island methylator phenotype (CIMP) remains poorly understood. Here, we show that CpG island methylation in human T-cell acute lymphoblastic leukemia (T-ALL) mainly occurs at promoters of Polycomb Repressor Complex 2 (PRC2) target genes that are not expressed in normal or malignant T-cells and which display a reciprocal association with H3K27me3 binding. In addition, we revealed that this aberrant methylation profile reflects the epigenetic history of T-ALL and is established already in pre-leukemic, self-renewing thymocytes that precede T-ALL development. Finally, we unexpectedly uncover that this age-related CpG island hypermethylation signature in T-ALL is completely resistant to the FDA-approved hypomethylating agent Decitabine. Altogether, we here provide conceptual evidence for the involvement of a pre-leukemic phase characterized by self-renewing thymocytes in the pathogenesis of human T-ALL.


Subject(s)
Aging , Precursor T-Cell Lymphoblastic Leukemia-Lymphoma , Thymocytes , CpG Islands/genetics , DNA Methylation/genetics , Humans , Precursor T-Cell Lymphoblastic Leukemia-Lymphoma/genetics
14.
Front Genet ; 10: 1229, 2019.
Article in English | MEDLINE | ID: mdl-31827492

ABSTRACT

Alzheimer's disease (AD) and atherosclerosis are both chronic age- and inflammation-dependent diseases. In addition, atherosclerosis is frequently observed in AD patients indicating common involvement of vascular components in both disease etiologies. Recently, epigenome-wide association studies have identified epigenetic alterations, and in particularly DNA methylation changes for both disorders. We hypothesized the existence of a common DNA methylation profile in atherosclerosis and AD which may be valuable as a blood-based DNA methylation inflammaging biomarker. Using publicly available 450k Illumina methylation datasets, we identified a co-methylation network associated with both atherosclerosis and AD in whole blood samples. This methylation profile appeared to indicate shifts in blood immune cell type distribution. Remarkably, similar methylation changes were also detected in disease tissues, including AD brain tissues, atherosclerotic plaques, and tumors and were found to correlate with immune cell infiltration. In addition, this immune-related methylation profile could also be detected in other inflammaging diseases, including Parkinson's disease and obesity, but not in multiple sclerosis, schizophrenia, and osteoporosis. In conclusion, we identified a blood-based immune-related DNA methylation signature in multiple inflammaging diseases associated with changes in blood immune cell counts and predictive for immune cell infiltration in diseased tissues. In addition to epigenetic clock measurements, this immune-methylation signature may become a valuable blood-based biomarker to prevent chronic inflammatory disease development or monitor lifestyle intervention strategies which promote healthy aging.

15.
Neuroscience ; 412: 233-247, 2019 08 01.
Article in English | MEDLINE | ID: mdl-31158439

ABSTRACT

Neuroglobin (Ngb) is a REST/NRSF-regulated protein, active in reactive oxygen species detoxification and cytochrome c inhibition, which provides a beneficial outcome in pathologies as Alzheimer's disease and strokes. Considering that oxidative stress and cell death are typical hallmarks of amyotrophic lateral sclerosis (ALS), we sought to explore Ngb's involvement along this disease progression. Ngb transcription was detected to be two-fold down-regulated in late-stage SODG93A mice, similarly as previously described for Alzheimer disease. Interestingly, in accordance with REST/NRSF transcription, Ngb expression is higher in spinal cords than in cortices. Hence, downstream REST/NRSF mechanisms were studied. A methylation cluster in Ngb's exon 1 (Chr12:87101763-87102586) was selected to assess methylation alterations, based on significantly altered positions in GEO DataSets of human c9orf72 and sporadic ALS cases. However, only the methylation percentage on position Chr12.87102586 was significantly increased in SODG93A mice. A larger impact can therefore be expected from the detected altered REST splicing; with levels of alternatively spliced, gene-activating REST4 to be lower than those of the gene-inhibitory full variant. To look further into the link between Ngb and ALS, we generated a double mutant Ngb-/-SODG93A mouse model, which shows an earlier onset and severity of hind limb deficits. Mitochondria derived thereof showed an altered mean volume, granularity and Ca2+-induced swelling as compared to NgbWt/WtSODG93A mice. These results indicate Ngb to be involved in and affected by the SOD1G93A pathology, which could in part be attributed to its role in halting destabilizing events of mitochondrial swelling and phenotypes.


Subject(s)
Amyotrophic Lateral Sclerosis/metabolism , Mitochondria/metabolism , Neuroglobin/metabolism , Spinal Cord/metabolism , Amyotrophic Lateral Sclerosis/genetics , Animals , Calcium/metabolism , Disease Models, Animal , Mice , Mice, Knockout , Mitochondria/genetics , Neuroglobin/genetics , Oxidative Stress/physiology , Reactive Oxygen Species/metabolism
16.
Mech Ageing Dev ; 174: 18-29, 2018 09.
Article in English | MEDLINE | ID: mdl-29337038

ABSTRACT

Aging is the most important risk factor for major human lifestyle diseases, including cancer, neurological and cardiometabolic disorders. Due to the complex interplay between genetics, lifestyle and environmental factors, some individuals seem to age faster than others, whereas centenarians seem to have a slower aging process. Therefore, a biochemical biomarker reflecting the relative biological age would be helpful to predict an individual's health status and aging disease risk. Although it is already known for years that cumulative epigenetic changes occur upon aging, DNA methylation patterns were only recently used to construct an epigenetic clock predictor for biological age, which is a measure of how well your body functions compared to your chronological age. Moreover, the epigenetic DNA methylation clock signature is increasingly applied as a biomarker to estimate aging disease susceptibility and mortality risk. Finally, the epigenetic clock signature could be used as a lifestyle management tool to monitor healthy aging, to evaluate preventive interventions against chronic aging disorders and to extend healthy lifespan. Dissecting the mechanism of the epigenetic aging clock will yield valuable insights into the aging process and how it can be manipulated to improve health span.


Subject(s)
Aging/physiology , DNA Methylation/physiology , Epigenesis, Genetic/physiology , Animals , Humans
17.
Sci Rep ; 8(1): 15487, 2018 10 19.
Article in English | MEDLINE | ID: mdl-30341379

ABSTRACT

Although vasculo-protective effects of flavan-3-ols are widely accepted today, their impact on endothelial cell functions and molecular mechanisms of action involved is not completely understood. The aim of this study was to characterize the potential endothelium-protective effects of circulating epicatechin metabolites and to define underlying mechanisms of action by an integrated systems biology approach. Reduced leukocyte rolling over vascular endothelium was observed following epicatechin supplementation in a mouse model of inflammation. Integrative pathway analysis of transcriptome, miRNome and epigenome profiles of endothelial cells exposed to epicatechin metabolites revealed that by acting at these different levels of regulation, metabolites affect cellular pathways involved in endothelial permeability and interaction with immune cells. In-vitro experiments on endothelial cells confirmed that epicatechin metabolites reduce monocyte adhesion and their transendothelial migration. Altogether, our in-vivo and in-vitro results support the outcome of a systems biology based network analysis which suggests that epicatechin metabolites mediate their vasculoprotective effects through dynamic regulation of endothelial cell monocyte adhesion and permeability. This study illustrates complex and multimodal mechanisms of action by which epicatechin modulate endothelial cell integrity.


Subject(s)
Catechin/pharmacology , Epigenomics , Human Umbilical Vein Endothelial Cells/metabolism , Metabolome , Nutrigenomics , Systems Biology , Animals , Cell Adhesion/drug effects , Cell Movement/drug effects , Cell Movement/genetics , Cytoskeleton/drug effects , Cytoskeleton/metabolism , DNA Methylation/genetics , Gene Expression Regulation/drug effects , Gene Regulatory Networks , Human Umbilical Vein Endothelial Cells/drug effects , Humans , Inflammation/pathology , Leukocyte Rolling/drug effects , Male , Metabolome/drug effects , Mice, Inbred C57BL , MicroRNAs/genetics , MicroRNAs/metabolism , Microcirculation/drug effects , Transendothelial and Transepithelial Migration/drug effects
18.
J Clin Invest ; 128(8): 3341-3355, 2018 08 01.
Article in English | MEDLINE | ID: mdl-29939160

ABSTRACT

High-risk neuroblastoma is a devastating malignancy with very limited therapeutic options. Here, we identify withaferin A (WA) as a natural ferroptosis-inducing agent in neuroblastoma, which acts through a novel double-edged mechanism. WA dose-dependently either activates the nuclear factor-like 2 pathway through targeting of Kelch-like ECH-associated protein 1 (noncanonical ferroptosis induction) or inactivates glutathione peroxidase 4 (canonical ferroptosis induction). Noncanonical ferroptosis induction is characterized by an increase in intracellular labile Fe(II) upon excessive activation of heme oxygenase-1, which is sufficient to induce ferroptosis. This double-edged mechanism might explain the superior efficacy of WA as compared with etoposide or cisplatin in killing a heterogeneous panel of high-risk neuroblastoma cells, and in suppressing the growth and relapse rate of neuroblastoma xenografts. Nano-targeting of WA allows systemic application and suppressed tumor growth due to an enhanced accumulation at the tumor site. Collectively, our data propose a novel therapeutic strategy to efficiently kill cancer cells by ferroptosis.


Subject(s)
Apoptosis/drug effects , Neuroblastoma/drug therapy , Withanolides/pharmacology , Animals , Cell Line, Tumor , Chick Embryo , Heme Oxygenase-1/metabolism , Humans , Kelch-Like ECH-Associated Protein 1/metabolism , Mice , Neoplasm Proteins/metabolism , Neuroblastoma/metabolism , Neuroblastoma/pathology , Xenograft Model Antitumor Assays
20.
Basic Clin Pharmacol Toxicol ; 121 Suppl 3: 93-101, 2017 Sep.
Article in English | MEDLINE | ID: mdl-27901320

ABSTRACT

Is it not more comfortable to spit saliva in a tube than to be pricked with a needle to draw blood to analyse your health and disease risk? Many patients, study participants and (parents of) young children undoubtedly prefer non-invasive and convenient procedures. Such procedures increase compliance rates especially for longitudinal prospective studies. Saliva is an attractive biofluid providing good quality DNA to study epigenetic mechanisms underlying disease across development. In this MiniReview, we will describe the different applications of saliva in the field of epigenetics, focusing on genomewide methylation analysis. Advantages of the use of saliva and its comparability with blood will be discussed, as will the challenges in data processing and interpretation. Knowledge gaps will be identified and suggestions given on how to improve the analysis, making saliva 'the' biofluid of choice for future biomarker initiatives in many different epidemiological and public health studies.


Subject(s)
DNA Methylation , DNA/analysis , Epigenesis, Genetic , Saliva/chemistry , Specimen Handling/methods , Biomarkers/analysis , Biomarkers/metabolism , DNA/metabolism , Humans , Specimen Handling/instrumentation
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