Cut from the same cloth: RNAs transcribed from regulatory elements.

A certain degree of chromatin openness is necessary for the activity of transcription-regulating regions within the genome, facilitating accessibility to RNA polymerases and subsequent synthesis of regulatory element RNAs (regRNAs) from these regions. The rapidly increasing number of studies underscores the significance of regRNAs across diverse cellular processes and diseases, challenging the paradigm that these transcripts are non-functional transcriptional noise. This review explores the multifaceted roles of regRNAs in human cells, encompassing rather well-studied entities such as promoter RNAs and enhancer RNAs (eRNAs), while also providing insights into overshadowed silencer RNAs and insulator RNAs. Furthermore, we assess notable examples of shorter regRNAs, like miRNAs, snRNAs, and snoRNAs, playing important roles. Expanding our discourse, we deliberate on the potential usage of regRNAs as biomarkers and novel targets for cancer and other human diseases.

[Full and D-Box-Deficient PTTG1 Isoforms: Effects on Cell Proliferation].

Human securin (PTTG1) is a protooncogene whose expression is elevated in many types of malignant cells. We previously discovered a minor short isoform of securin lacking exons 3 and 4. The missing exons encode the main recognition site (D-box) of the anaphase-promoting complex (APC/C). We show that these two PTTG1 isoforms have different effects on transcription. Here, we have studied the effects of overexpression and selective knockdown of the short and complete securin isoforms on cell proliferation using the xCELLigence system. Notably, selective knockdown of the short isoform mRNA led to a dramatic decrease in cell growth, while overexpression of both isoforms accelerated cell growth. To search for genes with alternative isoforms similar to securin, we analyzed the GENCODE database and found that 54 of 128 genes with a PTTG1-like set of APC/C recognition sites have known isoforms without the D-box. Overall, the data obtained indicate the existence of a new class of alternative isoforms and reinstates the importance of minor isoforms.

[Functional Characteristics of Long Noncoding RNAs Containing Sequences of Mobile Genetic Elements].

Long nonconding RNAs (lncRNAs) perform a variety of functions: they are involved in chromatin organization, regulation of gene expression at the transcriptional and post-transcriptional levels, and regulation of activity and stability of some proteins. The majority of known lncRNAs contain sequences of mobile genetic elements (MGEs) in a sense or antisense orientation. According to several studies, MGE may serve as functional modules responsible for interactions between the lncRNA and certain proteins, DNA regions, or other RNAs. The available data make it possible to describe groups of lncRNAs that possess common structural features and contain certain MGEs and to predict the characteristics of new lncRNAs. The review summarizes the data on the role that MGE sequences play in lncRNA functions.

[The Influence of the Minor Short Isoform of Securin (PTTG1) on Transcription is Significantly Different from the Impact of the Full Isoform].

PTTG1 (vertebrate securin) is a separation inhibitor and regulates DNA repair and transcription. The protein is predominantly expressed in the second half of the S phase and at the G2 stage. With the onset of anaphase, securin is ubiquitinated by the APC/C complex and degraded rapidly. Increased expression of PTTG1 is associated with enhanced tumor cell growth and metastasis. Recently, we found a short securin isoform lacking the main APC/C recognition site (D-box) and the DNA-binding domain encoded by exons 3 and 4. The mRNA level of the short isoform in unsynchronized cells is 0.4-2% of the full-length one. We reported earlier on the ability of the short PTTG1 isoform to activate some of the genes controlled by the full-length protein. In this work, groups of genes, whose expression is altered by the action of the short and complete securin isoforms, were determined using RNA sequencing. Groups of genes whose mRNA levels are regulated by both protein isoforms and only one of the isoforms were identified. For a more detailed study of the effect of securin isoforms on the transcriptional program of cells, the NFYB gene, encoding the NF-Y transcription regulator subunit, was chosen. Our data showed that with overexpression of the short isoform, the level of NFYB mRNA decreased 2.4 ± 0.7 times, while the complete isoform did not significantly affect the expression of NFYB. 2.2-fold suppression of the short isoform of securin led to an increase in the expression of NFYB mRNA by 2.7 ± 0.3 times. Moreover, the mRNA expression of full-length securin increased by 2.7 ± 0.4 times. Since NFYB is associated with the PTTG1 promoter region, we suggest that the short isoform may be involved in regulation of the expression of the main isoform of securin by changing the level of this transcription factor. Since NFYB and PTTG1 are involved in the development of tumors and the formation of drug resistance, we assume that the short isoform of securin may play an important role in these processes. Thus, we showed the functional significance of the minor short isoform of securin.

PTPN11 Knockdown Prevents Changes in the Expression of Genes Controlling Cell Cycle, Chemotherapy Resistance, and Oncogene-Induced Senescence in Human Thyroid Cells Overexpressing BRAF V600E Oncogenic Protein.

The MAPK (RAS/BRAF/MEK/ERK) signaling pathway is a kinase cascade involved in the regulation of cell proliferation, differentiation, and survival in response to external stimuli. The V600E mutation in the BRAF gene has been detected in various tumors, resulting in a 500-fold increase in BRAF kinase activity. However, monotherapy with selective BRAF V600E inhibitors often leads to reactivation of MAPK signaling cascade and emergence of drug resistance. Therefore, new targets are being developed for the inhibition of components of the aberrantly activated cascade. It was recently discovered that resistance to BRAF V600E inhibitors may be associated with the activity of the tyrosine phosphatase SHP-2 encoded by the PTPN11 gene. In this paper, we analyzed transcriptional effects of PTPN11 gene knockdown and selective suppression of BRAF V600E in a model of thyroid follicular epithelium. We found that the siRNA-mediated knockdown of PTPN11 after vemurafenib treatment prevented an increase in the expression CCNA1 and NOTCH4 genes involved in the formation of drug resistance of tumors. On the other hand, downregulation of PTPN11 expression blocked the transcriptional activation of genes (p21, p15, p16, RB1, and IGFBP7) involved in cell cycle regulation and oncogene-induced senescence in response to BRAF V600E expression. Therefore, it can be assumed that SHP-2 participates not only in emergence of drug resistance in cancer cells, but also in oncogene-induced cell senescence.

Constitutive Expression of NRAS with Q61R Driver Mutation Activates Processes of Epithelial-Mesenchymal Transition and Leads to Substantial Transcriptome Change of Nthy-ori 3-1 Thyroid Epithelial Cells.

The Q61R mutation of the NRAS gene is one of the most frequent driver mutations of thyroid cancer. Tumors with this mutation are characterized by invasion into blood vessels and formation of distant metastases. To study the role of this mutation in the growth of thyroid cancer, we developed a model system on the basis of thyroid epithelial cell line Nthy-ori 3-1 transduced by a lentiviral vector containing the NRAS gene with the Q61R mutation. It was found that the expression of NRAS(Q61R) in thyroid epithelial cells has a profound influence on groups of genes involved in the formation of intercellular contacts, as well as in processes of epithelial-mesenchymal transition and cell invasion. The alteration in the expression of these genes affects the phenotype of the model cells, which acquire traits of mesenchymal cells and demonstrate increased ability for survival and growth without attachment to the substrate. The key regulators of these processes are transcription factors belonging to families SNAIL, ZEB, and TWIST, and in different types of tumors the contribution of each individual factor can vary greatly. In our model system, phenotype change correlates with an increase in the expression of SNAIL2 and TWIST2 factors, which indicates their possible role in regulating invasive growth of thyroid cancer with the mutation of NRAS(Q61R).

[The Novel Short Isoform of Securin Stimulates the Expression of Cyclin D3 and Angiogenesis Factors VEGFA and FGF2, but Does Not Affect the Expression of MYC Transcription Factor].

Pituitary tumor-transforming gene-1 (PTTG1) encodes securin, a multifunctional protein involved in development of various types of cancer. Securin participates in the regulation of sister chromatids separation and the expression of multiple genes involved in the control of the cell cycle, metabolism, and angiogenesis. In several human cell lines, we have found a novel short isoform of securin mRNA, which does not contain exons 3 and 4. After the translation of this new mRNA, a shortened protein is produced that, like the full-size form, is able to activate the transcription of cyclin D3 gene (CCND3), which controls the G1/S transition and angiogenesis factors VEGFA (vascular endothelial growth factor), and FGF2 (fibroblast growth factor 2) in HEK293 cells. However, unlike the full-size protein, the short isoform of PTTG1 does not affect the MYC gene expression because it lacks the DNA-binding domain, which is needed for its interactions with the MYC promoter. Furthermore, the short form of securin does not influence the expression of MYC transcriptional targets, such as TP53 and IL-8. Thus, we found a novel isoform of securin which is able to activate a more restricted repertoire of genes compared to the full-size protein.

Isolation of Large Amounts of Highly Pure Mitochondria for "Omics" Studies.

Ultracentrifugation on a density gradient remains the only reliable way to obtain highly pure mitochondria preparations. However, it is not readily available for any laboratory and has a serious disadvantage of providing low mitochondria yield, which can be critical when working with limited starting material. Here we describe a combined method for isolation of mitochondria for proteomic studies that includes cell disruption by sonication, differential centrifugation, and magnetic separation. Our method provides remarkable enrichment of mitochondrial proteins as compared to differential centrifugation, magnetic separation, or their combination, and it enables the strongest depletion of cytoplasmic components, as assessed by two-dimensional electrophoresis, mass spectrometry, and Western blot. It also doubles the yield of mitochondria. However, our method should not be used for functional studies as most of the isolated organelles demonstrate disturbed structure in electron microphotographs.

Potential Markers of Autoimmune Diseases, Alleles rs115662534(T) and rs548231435(C), Disrupt the Binding of Transcription Factors STAT1 and EBF1 to the Regulatory Elements of Human CD40 Gene.

CD40 receptor is expressed on B lymphocytes and other professional antigen-presenting cells. The binding of CD40 to its ligand CD154 on the surface of T helper cells plays an important role in the activation of B lymphocytes required for production of antibodies, in particular, against autoantigens. Association of several single nucleotide polymorphisms (SNPs) located in the non-coding areas of human CD40 locus with the elevated risk of autoimmune diseases has been demonstrated. The most studied of these SNPs is rs4810485 located in the first intron of the CD40 gene. Expression of the CD40 gene in B lymphocytes of donors homozygous for the common allelic variant of this polymorphism (G) is higher than in B cells from donors carrying the minor (T) variant. We investigated the enhancer activity of this fragment of the CD40 locus in human B cell lines and showed that it is independent on the rs4810485 alleles. However, the minor allelic variants of the rs4810485-linked SNPs rs548231435 and rs115662534 were associated with a significant decrease in the activity of the CD40 promoter due to the impairments in the binding of EBF1 and STAT1 transcription factors, respectively.