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ABSTRACT: MicroRNAs (miRNAs) have recently emerged as being essential for development and for the control of cell proliferation/differentiation in various organisms. However, little is known about miRNA function and mode of action at the cellular level. We have designed a miRNA loss-of-function assay, based on chemically modified locked nucleic acids (LNA) antisense oligonucleotides and usable in tissue culture cells. We show that LNA/DNA mixed oligonucleotides form highly stable duplexes with miRNAs in vitro. Ex vivo, the target miRNA becomes undetectable in cells transfected with the antisense oligonucleotide. The effect is dose-dependent, long-lasting, and specific. Moreover, using a reporter assay, we show that antisense LNA/DNA oligonucleotides inhibit short non-coding RNAs at the functional level. Thus LNA/DNA mixmers represent powerful tools for functional analysis of miRNAs.
Biomedecine [?] Pharmacotherapy 12/2006; 60(9):633-8. · 2.00 Impact Factor
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ABSTRACT: It is well known that histone acetylases are important chromatin modifiers and that they play a central role in chromatin transcription. Here, we present evidence for novel roles of histone acetylases. The TIP60 histone acetylase purifies as a multimeric protein complex. Besides histone acetylase activity on chromatin, the TIP60 complex possesses ATPase, DNA helicase, and structural DNA binding activities. Ectopic expression of mutated TIP60 lacking histone acetylase activity results in cells with defective double-strand DNA break repair. Importantly, the resulting cells lose their apoptotic competence, suggesting a defect in the cells' ability to signal the existence of DNA damage to the apoptotic machinery. These results indicate that the histone acetylase TIP60-containing complex plays a role in DNA repair and apoptosis.
Cell 09/2000; 102(4):463-73. · 32.40 Impact Factor
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ABSTRACT: Differentiation of the human embryonal carcinoma cell line NTERA-2 is characterized by changes in morphology, altered patterns of gene expression, reduced proliferative potential, and a loss of tumorigenicity. The cellular repressor of E1A-stimulated genes, CREG, was previously shown to antagonize transcriptional activation and cellular transformation by the Adenovirus E1A oncoprotein. These properties suggested that CREG may function to inhibit cell growth and/or promote differentiation. Here we show that CREG is a secreted glycoprotein which enhances differentiation of NTERA-2 cells. Northern blot analysis reveals that, although CREG mRNA is widely expressed in adult tissues, CREG mRNA is not significantly expressed in pluripotent mouse embryonic stem cells or NTERA-2 embryonal carcinoma cells. CREG mRNA is rapidly induced upon in vitro differentiation of both mouse embryonic stem cells and human NTERA-2 cells. We show that constitutive expression of CREG in NTERA-2 cells enhances neuronal differentiation upon treatment with retinoic acid. Media enriched in CREG was also found to promote NTERA-2 differentiation in the absence of an inducer such as retinoic acid. These studies suggest that secreted CREG protein participates in a signaling cascade important for differentiation of pluripotent stem cells such as those found in teratocarcinomas.
Oncogene 05/2000; 19(17):2120-8. · 6.37 Impact Factor
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ABSTRACT: The serum response element (SRE) in the c-fos promoter contains an ets box whose integrity is required for full activation of this proto-oncogene by nerve growth factor (NGF) in PC12 rat pheochromocytoma cells. Electrophoretic mobility shift assays (EMSA) detect a protein in nuclear extracts that binds to the wild-type SRE, but not to an SRE containing a mutated ets box. Competition studies using unlabeled probes, and supershift experiments using antibodies and in vitro translated core serum response factor (SRF) indicate that the protein in question is not YY1, SAP-1, nor Elk-1 and that it does not exhibit ternary complex factor (TCF) activity, so that it may correspond to an autonomously binding Ets family protein. The complete disappearance of this "Ets-like autonomous binding factor" upon terminal differentiation of both L6alpha2 myoblastic and PC12 pheochromocytoma cells points to a possible role in the proliferation/differentiation process.
Gene Expression 02/1999; 8(1):33-42. · 1.31 Impact Factor
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ABSTRACT: The balance between cellular proliferation and differentiation is strictly controlled in the cell and the deregulation of this balance can lead to tumour formation. The tumour suppressor protein Rb plays a key role in this balance essentially by repressing progression through the cell cycle and thereby it blocks the cell in G1 phase. Rb represses S phase genes through the recruitment of an enzyme which modifies DNA structure, the histone deacetylase HDAC1. The Rb/HDAC1 complex is a key element in the control of cell proliferation and differentiation. Moreover, this complex is likely to be a target for transforming viral proteins.
Bulletin du cancer 08/1998; 85(7):606-7. · 0.67 Impact Factor
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ABSTRACT: The retinoblastoma tumour-suppressor protein Rb inhibits cell proliferation by repressing a subset of genes that are controlled by the E2F family of transcription factors and which are involved in progression from the G1 to the S phase of the cell cycle. Rb, which is recruited to target promoters by E2F1, represses transcription by masking the E2F1 transactivation domain and by inhibiting surrounding enhancer elements, an active repression that could be crucial for the proper control of progression through the cell cycle. Some transcriptional regulators act by acetylating or deacetylating the tails protruding from the core histones, thereby modulating the local structure of chromatin: for example, some transcriptional repressors function through the recruitment of histone deacetylases. We show here that the histone deacetylase HDAC1 physically interacts and cooperates with Rb. In HDAC1, the sequence involved is an LXCXE motif, similar to that used by viral transforming proteins to contact Rb. Our results strongly suggest that the Rb/HDAC1 complex is a key element in the control of cell proliferation and differentiation and that it is a likely target for transforming viruses.
Nature 03/1998; 391(6667):601-5. · 36.28 Impact Factor
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ABSTRACT: TCFs, which are members of the Ets family of transcription factors, are recruited to the Serum Response Element (SRE) in the c-fos promoter by SRF. These Ets proteins, which are substrates for the MAP kinases, are direct targets of the Ras/MAP kinase signal transduction pathway. In this paper, we demonstrate that one of the TCFs, SAP-1a, displays a significant level of autonomous binding to the SRE Ets box. In contrast to previous observations, deletion of the SRF binding domain did not modulate the autonomous binding of SAP-1a. Also, the autonomous binding was not modulated by the phosphorylation of SAP-1a by MAP kinases. The autonomous binding was also detected in live cells: transfected SAP-1a was able to restore the response of a CArG-less SRE in PC12 cells. The response occurred in the absence of SRF recruitment since a mutant of SAP-1a in which the B-box, a domain required for interaction with SRF, had been deleted was still able to transactivate the CArG-less SRE. The transactivation was repressed by a Ras transdominant negative mutant, indicating the involvement of the Ras/MAP kinase pathway. Taken together, these data demonstrate that SAP-1a is capable of binding to the c-fos SRE in the absence of SRF.
Oncogene 11/1997; 15(14):1661-9. · 6.37 Impact Factor
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ABSTRACT: Myogenin (a member of the myogenic basic helix-loop-helix transcription factor family) seems to be the main effector of proliferation repression, a crucial step which precedes muscle cell terminal differentiation during muscle development. Proliferation repression most likely occurs through inhibition of proliferation-associated genes such as the proto-oncogene, c-fos. Here, we demonstrate that myogenin binds to an E-box located in the main element of the c-fos promoter, the serum response element (SRE). Results from co-transfection experiments indicate that myogenin acts as a repressor for the SRE. Our data suggest that myogenin could play a role in c-fos inhibition at the onset of muscle cell terminal differentiation.
FEBS Letters 04/1995; 361(2-3):140-4. · 3.54 Impact Factor
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ABSTRACT: We have studied the expression of the c-jun gene during dimethyl-sulfoxide (DMSO) induced differentiation of Friend erythroleukemia (F-MEL) cells. No expression of c-jun was detected in a differentiation-competent F-MEL cell line (745A) either before or after treatment with DMSO. By contrast, c-jun expression was constitutive in a F-MEL cell line (TFP10) resistant to DMSO-induced differentiation and increased with DMSO. We have investigated the possible role of c-jun in conferring this resistance by stably transfecting either sense or antisense c-jun constructs into both differentiation-sensitive 745A and defective TFP10 cell lines. Inhibition of c-jun expression by antisense transcripts in the TFP10 cells restored their ability to undergo erythroid differentiation when exposed to DMSO while expression of junB or junD antisense vectors failed to do so. In addition, c-jun overexpression in the 745A cells resulted in decreased DMSO-induced differentiation. These results indicate a correlation between the level of c-jun expression and the ability of F-MEL cells to undergo DMSO-induced differentiation and suggest that c-Jun may be an important negative regulator in this process.
Oncogene 08/1994; 9(7):1957-64. · 6.37 Impact Factor
