D. V. Maltseva scite author profile

BackgroundMiRNAs are essential mediators of many biological processes. The aim of this study was to investigate the dynamics of miRNA-mRNA regulatory networks during exercise and the subsequent recovery period.ResultsHere we monitored the transcriptome changes using microarray analysis of the whole blood of eight highly trained athletes before and after 30 min of moderate exercise followed by 30 min and 60 min of recovery period. We combined expression profiling and bioinformatics and analysed metabolic pathways enriched with differentially expressed mRNAs and mRNAs which are known to be validated targets of differentially expressed miRNAs. Finally we revealed four dynamically regulated networks comprising differentially expressed miRNAs and their known target mRNAs with anti-correlated expression profiles over time. The data suggest that hsa-miR-21-5p regulated TGFBR3, PDGFD and PPM1L mRNAs. Hsa-miR-24-2-5p was likely to be responsible for MYC and KCNJ2 genes and hsa-miR-27a-5p for ST3GAL6. The targets of hsa-miR-181a-5p included ROPN1L and SLC37A3. All these mRNAs are involved in processes highly relevant to exercise response, including immune function, apoptosis, membrane traffic of proteins and transcription regulation.ConclusionsWe have identified metabolic pathways involved in response to exercise and revealed four miRNA-mRNA networks dynamically regulated following exercise. This work is the first study to monitor miRNAs and mRNAs in parallel into the recovery period. The results provide a novel insight into the regulatory role of miRNAs in stress adaptation.

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Receptor Mincle promotes skin allergies and is capable of recognizing cholesterol sulfate

Kostarnoy

Gancheva

Lepenies

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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Sterile (noninfected) inflammation underlies the pathogenesis of many widespread diseases, such as allergies and autoimmune diseases. The evolutionarily conserved innate immune system is considered to play a key role in tissue injury recognition and the subsequent development of sterile inflammation; however, the underlying molecular mechanisms are not yet completely understood. Here, we show that cholesterol sulfate, a molecule present in relatively high concentrations in the epithelial layer of barrier tissues, is selectively recognized by Mincle (Clec4e), a C-type lectin receptor of the innate immune system that is strongly up-regulated in response to skin damage. Mincle activation by cholesterol sulfate causes the secretion of a range of proinflammatory mediators, and s.c. injection of cholesterol sulfate results in a Mincle-mediated induction of a severe local inflammatory response. In addition, our study reveals a role of Mincle as a driving component in the pathogenesis of allergic skin inflammation. In a well-established model of allergic contact dermatitis, the absence of Mincle leads to a significant suppression of the magnitude of the skin inflammatory response as assessed by changes in ear thickness, myeloid cell infiltration, and cytokine and chemokine secretion. Taken together, our results provide a deeper understanding of the fundamental mechanisms underlying sterile inflammation.innate immunity | sterile inflammation | allergy | Mincle | cholesterol sulfate

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Impact of 7,8-Dihydro-8-oxoguanine on Methylation of the CpG Site by Dnmt3a

et al. 2009

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7,8-Dihydro-8-oxoguanine (8-oxoG) is a ubiquitous oxidative DNA lesion resulting from injury to DNA via reactive oxygen species. 8-oxoG lesions may play a role in the formation of aberrant DNA methylation patterns during carcinogenesis. In this study, we assessed the effects of 8-oxoG on methylation and complex formation of nine 30-mer oligodeoxynucleotide duplexes by the catalytic domain of murine Dnmt3a DNA methyltransferase (Dnmt3a-CD). The effects of 8-oxoG on the methylation rate of hemimethylated duplexes varied from a 25-fold decrease to a 1.8-fold increase, depending on the position of the lesion relative to the Dnmt3a-CD recognition site (CpG) and target cytosine (C). The most significant effect was observed when 8-oxoG replaced guanine within the recognition site immediately downstream of the target cytosine. Fluorescence polarization experiments with fluorescein-labeled duplexes revealed that two molecules of Dnmt3a-CD bind per duplex, generating sigmoid binding curves. Duplexes exhibiting the highest apparent binding cooperativity formed the least stable 1:2 complexes with Dnmt3a-CD and were methylated at the lowest rate. Kinetic analyses disclosed the formation of very stable nonproductive enzyme-substrate complexes with hemimethylated duplexes that act as suicide substrates of Dnmt3a-CD. The presence of 8-oxoG within the CpG site downstream of the target cytosine markedly diminished productive versus nonproductive binding. We propose that 8-oxoG located adjacent to the target cytosine interferes with methylation by weakening the affinity of DNA for Dnmt3a-CD, thereby favoring a nonproductive binding mode.

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c-FOS suppresses ovarian cancer progression by changing adhesion

et al. 2013

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Background:C-Fos was initially described as oncogene, but was associated with favourable prognosis in ovarian cancer (OvCa) patients. The molecular and functional aspects underlying this effect are still unknown.Methods:Using stable transfectants of SKOV3 and OVCAR8 cells, proliferation, migration, invasion and apoptotic potential of c-FOS-overexpressing clones and controls were compared. Adherence to components of the extracellular matrix was analysed in static assays, and adhesion to E-selectin, endothelial and mesothelial cells in dynamic flow assays. The effect of c-FOS in vivo was studied after intraperitoneal injection of SKOV3 clones into SCID mice, and changes in gene expression were determined by microarray analysis.Results:Tumour growth after injection into SCID mice was strongly delayed by c-FOS overexpression, with reduction of lung metastases and circulating tumour cells. In vitro, c-FOS had only weak influence on proliferation and migration, but was strongly pro-apoptotic. Adhesion to components of the extracellular matrix (collagen I, IV) and to E-selectin, endothelial and mesothelial cells was significantly reduced in c-FOS-overexpressing OvCa cells. This corresponds to deregulation of adhesion proteins and glycosylation enzymes in microarray analysis.Conclusion:In addition to its known pro-apoptotic effect, c-FOS might influence OvCa progression by changing the adhesion of OvCa cells to peritoneal surfaces.

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D. V. Maltseva

Dynamically regulated miRNA-mRNA networks revealed by exercise

Receptor Mincle promotes skin allergies and is capable of recognizing cholesterol sulfate

Impact of 7,8-Dihydro-8-oxoguanine on Methylation of the CpG Site by Dnmt3a

c-FOS suppresses ovarian cancer progression by changing adhesion

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