Lurogers5490

Human colorectal adenocarcinoma cell line Caco-2 is often used as a model of healthy intestinal epithelium, in particular, in miRNA studies. Berzosertib datasheet The work of the enzymes Drosha and Dicer is an integral part of the process of miRNA formation. Inaccuracies in the work of these enzymes lead to a change in the nucleotide sequences of miRNAs with the formation of new isoforms, which, in turn, can change intracellular regulatory mechanisms. In the framework of this study, it was shown that the quantitative estimates of inaccuracies in Drosha and Dicer activity significantly differ between the specimens of normal colon tissue and malignant colorectal tumors.One of the main complications of pregnancy and causes of maternal and perinatal mortality is preeclampsia. The pathophysiology of preeclampsia is associated with the development of placenta and fetal hypoxia and secretion of a number of effective molecules. The human choriocarcinoma cell line BeWo b30 is often used as a model of the placental barrier. It was shown that oxyquinoline derivatives can mimic hypoxia by suppressing HIF-prolyl hydroxylases and the accumulation of HIF-1α. This effect also leads to a change in the expression of microRNAs and their target genes. However, with hypoxia in cells, not only the level of individual miRNAs but also the ratio of miRNA isoforms (isomiRs) can change, presumably due to inaccuracies in the work of the Drosha and Dicer enzymes. In this work, we showed a change in the expression of the factors involved in the maturation of miRNAs when simulating hypoxia in BeWo b30 cells with an oxyquinoline derivative, which may be one of the causes for the change in the ratio of miRNA isoforms.This work is aimed at studying the mechanisms of reciprocal humoral regulation of noradrenaline-producing organs in rats in the perinatal period of development. The activity of noradrenaline synthesis enzymes tyrosine hydroxylase and dopamine-beta-hydroxylase was measured in the brain and adrenal glands 48 and 72 h after the injection of immunotoxin (anti-dopamine-beta-hydroxylase-saporin) into the rat brain ventricles. It was shown that, 48 h after the immunotoxin injection into the brain, the activity of tyrosine hydroxylase in the brain decreased; however, 72 h after the injection it reached the control levels. This fact indicates that noradrenaline synthesis in the survived neurons increases. In the adrenal glands, 72 h after the immunotoxin injection into the brain, the activity of dopamine-beta-hydroxylase increased. This points to a compensatory increase in the rate of noradrenaline synthesis in the adrenal glands when the synthesis of noradrenaline in the brain is inhibited.The role of proteasome proteins and proteins of the ERAD system in the cytotoxicity of type II ribosome-inactivating proteins ricin and viscumin was investigated. For this, the cell line of colorectal adenocarcinoma HT29, as well as the HT29-sh002 line obtained on its basis, were used. On the basis on the proteome analysis of these lines and the estimation of the proportion of inactivated ribosomes, it was shown that the contribution of the proteasome to the degradation of the catalytic subunits of toxins is different. The role of the Cdc37 co-chaperone in maintaining the stability of A subunit of viscumin in the cytoplasm is shown.The cellular response to DNA damage protects the essential information stored in the genome. This mechanism is crucial in terms of the cancer prevention and aging progression. The DNA damage response (DDR) consists of a complex network controlling the cell cycle and multiple mechanisms of the DNA repair. The DDR disruption is a cornerstone feature of the tumor cells, which allows them to enhance beneficial mutations that prevent successful disease treatment. The important checkpoints of the DDR are currently poorly understood due to the complexity and diversity of the DNA repair machinery. Histone ubiquitination is intensively involved in the repair of the double-stranded DNA breaks. This post-translational modification is known to be a key factor in the recruitment of the repair factors to the DNA damage sites. Here, the crucial role of the ubiquitin lysine residue K27 in the process of histone H2A monoubiquitination mediated by the ubiquitin ligase RNF168 has been showed. The presented data suggest forced and intensive diffusion of ubiquitin from the cytoplasm to the nucleus, which is characterized by the dynamic equilibrium less than 10 min. The comparison of the turnover rate of the wild-type ubiquitin and its variant with a single functional lysine residue K27 suggests an important role of the ubiquitin deposition as a covalent conjugate with histone H2A in terms of the stability of the entire ubiquitinome.Previously we have shown that the neuropeptide cycloprolylglycine is an endogenous positive modulator of AMPA receptors and assumed that the pharmacological effects of CPG are associated with the brain neurotrophic factor. In this paper, we have first demonstrated that DNQX, an inhibitor of AMPA receptors, and K252A, an ihibitor of Trk receptors, prevented the anxiolytic effect of CPG, which confirms the formulated hypothesis.The possibility to visualize small bacterial RNAs inside macrophages infected with Mycobacterium tuberculosis was demonstrated for the first time. A macrophage cell line was infected with the M. tuberculosis strain expressing small noncoding mycobacterial RNA MTS1338 fused with an RNA aptamer, which could bind a fluorophore and trigger its fluorescence. As a result, treatment of the infected macrophages with the DFHBI-1T fluorophore allowed fluorescence-based detection of the aptamer-labeled MTS1338 both in mycobacteria and in the host cell cytoplasm. This system can significantly aid in revealing the role of small M. tuberculosis RNAs in the pathogenesis of tuberculosis through identification of their secretion routes and eukaryotic targets and elucidation of the associated molecular pathways.Long noncoding RNAs (lncRNAs) are promising biomarkers and potential targets for liver cancer therapy. Stable hepatocyte lines are used in vitro to investigate functions of lncRNAs which amount in cell fluctuates during carcinogenesis. For the first time we compared gene expression of known lncRNAs in human conditional normal liver cells HepaRG and cancer cell lines Huh7 and HepG2. We showed that relative amounts of these lncRNAs in HepaRG are close to analogous variables measured for liver samples from healthy donors. Obtained data demonstrate exclusive peculiarities of HepaRG and confirm its reasonable application as a model of normal human hepatocytes for studying functions of lncRNAs.