13 research outputs found

    Impact of c-MYC expression on proliferation, differentiation, and risk of neoplastic transformation of human mesenchymal stromal cells

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    Background: Mesenchymal stromal cells isolated from bone marrow (MSC) represent an attractive source of adult stem cells for regenerative medicine. However, thorough research is required into their clinical application safety issues concerning a risk of potential neoplastic degeneration in a process of MSC propagation in cell culture for therapeutic applications. Expansion protocols could preselect MSC with elevated levels of growth-promoting transcription factors with oncogenic potential, such as c-MYC. We addressed the question whether c-MYC expression affects the growth and differentiation potential of human MSC upon extensive passaging in cell culture and assessed a risk of tumorigenic transformation caused by MSC overexpressing c-MYC in vivo. Methods: MSC were subjected to retroviral transduction to induce expression of c-MYC, or GFP, as a control. Cells were expanded, and effects of c-MYC overexpression on osteogenesis, adipogenesis, and chondrogenesis were monitored. Ectopic bone formation properties were tested in SCID mice. A potential risk of tumorigenesis imposed by MSC with c-MYC overexpression was evaluated. Results: C-MYC levels accumulated during ex vivo passaging, and overexpression enabled the transformed MSC to significantly overgrow competing control cells in culture. C-MYC-MSC acquired enhanced biological functions of c-MYC: its increased DNA-binding activity, elevated expression of the c-MYC-binding partner MAX, and induction of antagonists P19ARF/P16INK4A. Overexpression of c-MYC stimulated MSC proliferation and reduced osteogenic, adipogenic, and chondrogenic differentiation. Surprisingly, c-MYC overexpression also caused an increased COL10A1/COL2A1 expression ratio upon chondrogenesis, suggesting a role in hypertrophic degeneration. However, the in vivo ectopic bone formation ability of c-MYC-transduced MSC remained comparable to control GFP-MSC. There was no indication of tumor growth in any tissue after transplantation of c-MYC-MSC in mice. Conclusions: C-MYC expression promoted high proliferation rates of MSC, attenuated but not abrogated their differentiation capacity, and did not immediately lead to tumor formation in the tested in vivo mouse model. However, upregulation of MYC antagonists P19ARF/P16INK4A promoting apoptosis and senescence, as well as an observed shift towards a hypertrophic collagen phenotype and cartilage degeneration, point to lack of safety for clinical application of MSC that were manipulated to overexpress c-MYC for their better expansion

    Cell Discovery / Cancer cell specific inhibition of Wnt/-catenin signaling by forced intracellular acidification

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    Use of the diabetes type II drug Metformin is associated with a moderately lowered risk of cancer incidence in numerous tumor entities. Studying the molecular changes associated with the tumor-suppressive action of Metformin we found that the oncogene SOX4, which is upregulated in solid tumors and associated with poor prognosis, was induced by Wnt/-catenin signaling and blocked by Metformin. Wnt signaling inhibition by Metformin was surprisingly specific for cancer cells. Unraveling the underlying specificity, we identified Metformin and other Mitochondrial Complex I (MCI) inhibitors as inducers of intracellular acidification in cancer cells. We demonstrated that acidification triggers the unfolded protein response to induce the global transcriptional repressor DDIT3, known to block Wnt signaling. Moreover, our results suggest that intracellular acidification universally inhibits Wnt signaling. Based on these findings, we combined MCI inhibitors with H+ ionophores, to escalate cancer cells into intracellular hyper-acidification and ATP depletion. This treatment lowered intracellular pH both in vitro and in a mouse xenograft tumor model, depleted cellular ATP, blocked Wnt signaling, downregulated SOX4, and strongly decreased stemness and viability of cancer cells. Importantly, the inhibition of Wnt signaling occurred downstream of -catenin, encouraging applications in treatment of cancers caused by APC and -catenin mutations.(VLID)270614

    The proteomes of transcription factories containing RNA polymerases I, II or III

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    Human nuclei contain three RNA polymerases (I, II and III) that transcribe different groups of genes; the active forms of all three are difficult to isolate because they are bound to the substructure. Here we describe a purification approach for isolating active RNA polymerase complexes from mammalian cells. After isolation, we analyzed their protein content by mass spectrometry. Each complex represents part of the core of a transcription factory. For example, the RNA polymerase II complex contains subunits unique to RNA polymerase II plus various transcription factors but shares a number of ribonucleoproteins with the other polymerase complexes; it is also rich in polymerase II transcripts. We also describe a native chromosome conformation capture method to confirm that the complexes remain attached to the same pairs of DNA templates found in vivo

    Developmentally regulated recruitment of transcription factors and chromatin remodelling activities to chicken lysozyme cis-regulatory elements in vivo

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    Expression of the chicken lysozyme gene is upregulated during macrophage differentiation and reaches its highest level in bacterial lipopolysaccharide (LPS)-stimulated macrophages. This is accompanied by complex alterations in chromatin structure. We have previously shown that chromatin fine-structure alterations precede the onset of gene expression in macrophage precursor cells and mark the lysozyme chromatin domain for expression later in development. To further examine this phenomenon and to investigate the basis for the differentiation-dependent alterations of lysozyme chromatin, we studied the recruitment of transcription factors to the lysozyme locus in vivo at different stages of myeloid differentiation. Factor recruitment occurred in several steps. First, early-acting transcription factors such as NF1 and Fli-1 bound to a subset of enhancer elements and recruited CREB-binding protein. LPS stimulation led to an additional recruitment of C/EBPβ and a significant change in enhancer and promoter structure. Transcription factor recruitment was accompanied by specific changes in histone modification within the lysozyme chromatin domain. Interestingly, we present evidence for a transient interaction of transcription factors with lysozyme chromatin in lysozyme-nonexpressing macrophage precursors, which was accompanied by a partial demethylation of CpG sites. This indicates that a partially accessible chromatin structure of lineage-specific genes is a hallmark of hematopoietic progenitor cells

    Retracted article: Power as a Factor of Educational and Sociocultural Processes

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    The article is retracted by the Editorial Team because of constituting plagiarism from the PhD dissertation of Alexander Kitarioglo “Pedagogicheskaya vlast’ v sovremennom obshchestve: Socialxno-filosofkii analiz (Pedagogical Power in the Modern Society: Social and Philosophical Analysis, in Russian), http://elib.sfu-kras.ru/handle/2311/141030, 2017”. The authors that submit their articles to the journal WISDOM should guarantee that their articles and its essential substance have not previously been published and are not being considered for publication elsewhere.  According to the WISDOM publication policy it is not allowed: a) verbatim copyright of another person’s work without citing the author; b) non accurate paraphrasing of another person’s work where more than one sentence within a paragraph or section of a text has been altered or sentences have been rearranged without an appropriate attribution; c) reuse of elements of other person’s work without citing the author. All cases of not following the publication policy of WISDOM will result in immediate retraction.

    C/EBPβ Induces Chromatin Opening at a Cell-Type-Specific Enhancer▿

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    We have used the chicken mim-1 gene as a model to study the mechanisms by which transcription factors gain initial access to their target sites in compacted chromatin. The expression of mim-1 is restricted to the myelomonocytic lineage of the hematopoietic system where it is regulated synergistically by the Myb and CCAAT/enhancer binding protein (C/EBP) factors. Myb and C/EBPβ cooperate at two distinct cis elements of mim-1, the promoter and a cell-type-specific enhancer, both of which are associated with DNase I hypersensitive sites in myelomonocytic cells but not in mim-1-nonexpressing cells. Previous work has shown that ectopic expression of Myb and C/EBPβ activates the endogenous mim-1 gene in a nonhematopoietic cell type (fibroblasts), where the gene is normally completely silent. Here, we investigated the molecular details of this finding and show that the activation of mim-1 occurs by two independent mechanisms. In the absence of Myb, C/EBPβ triggers the initial steps of chromatin opening at the mim-1 enhancer without inducing transcription of the gene. mim-1 transcription occurs only in the presence of Myb and is associated with chromatin opening at the promoter. Our work identifies a novel function for C/EBPβ in the initial steps of a localized chromatin opening at a specific, physiologically relevant target region

    Differentially methylated regions within lung cancer risk loci are enriched in deregulated enhancers

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    Genome-wide association studies (GWAS) have identified SNPs linked with lung cancer risk. Our aim was to discover the genes, non-coding RNAs, and regulatory elements within GWAS-identified risk regions that are deregulated in non-small cell lung carcinoma (NSCLC) to identify novel, clinically targetable genes and mechanisms in carcinogenesis. A targeted bisulphite-sequencing approach was used to comprehensively investigate DNA methylation changes occurring within lung cancer risk regions in 17 NSCLC and adjacent normal tissue pairs. We report differences in differentially methylated regions between adenocarcinoma and squamous cell carcinoma. Among the minimal regions found to be differentially methylated in at least 50% of the patients, 7 candidates were replicated in 2 independent cohorts (n = 27 and n = 87) and the potential of 6 as methylation-dependent regulatory elements was confirmed by functional assays. This study contributes to understanding the pathways implicated in lung cancer initiation and progression, and provides new potential targets for cancer treatment
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