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Irmina Diala Nicole Wagner Frédérique Magdinier Marina Shkreli Serge Bauwens Caroline Schluth‐Bolard Thomas Simonet Valérie M Renault Jing Ye Abdelnnadir Djerbi Pascal Pineau Jinkuk Choi Steven Artandi Anne Dejean Eric Gilson 《EMBO reports》2013,14(4):356-363
The DNA‐binding protein TRF2 is essential for telomere protection and chromosome stability in mammals. We show here that TRF2 expression is activated by the Wnt/β‐catenin signalling pathway in human cancer and normal cells as well as in mouse intestinal tissues. Furthermore, β‐catenin binds to TRF2 gene regulatory regions that are functional in a luciferase transactivating assay. Reduced β‐catenin expression in cancer cells triggers a marked increase in telomere dysfunction, which can be reversed by TRF2 overexpression. We conclude that the Wnt/β‐catenin signalling pathway maintains a level of TRF2 critical for telomere protection. This is expected to have an important role during development, adult stem cell function and oncogenesis. 相似文献
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Corcelle E Djerbi N Mari M Nebout M Fiorini C Fénichel P Hofman P Poujeol P Mograbi B 《Autophagy》2007,3(1):57-59
Macroautophagy (hereafter referred to as autophagy) is the major degradative pathway of long-lived proteins and organelles that fulfils key functions in cell survival, tissue remodeling and tumor suppression. Consistently, alterations in autophagy have been involved in a growing list of pathologies including toxic injury, infections, neurodegeneration, myopathies and cancers. Although critical, the molecular mechanisms that control autophagy remain largely unknown. We have recently exploited the disruption of autophagy by environmental carcinogens as a powerful model to uncover the underlying signaling pathways. Our work published in Cancer Research revealed that the sustained activation of the MAPK ERK pathway by the carcinogen Lindane or the MEK1(+) oncogene alters autophagy selectively at the maturation step resulting in the accumulation of large defective autolysosomes. Consistent with our findings, a similar defect is observed with other common xenobiotics such as dichlorodiphenyltrichloroethane and biphenol A that specifically activate ERK. Conversely, Pentachlorophenol that activates both ERK and p38, fails to induce autophagic vacuolation. In addition, evidence is provided that abrogation of p38 by SB203580 is sufficient to interfere with the normal autophagic maturation step. Altogether, these findings underscore the critical role played by MAPK ERK and p38 in the tight control of the autophagy process at the maturation step. 相似文献
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Carbohydrate-active enzymes involved in the secondary cell wall biogenesis in hybrid aspen 下载免费PDF全文
Aspeborg H Schrader J Coutinho PM Stam M Kallas A Djerbi S Nilsson P Denman S Amini B Sterky F Master E Sandberg G Mellerowicz E Sundberg B Henrissat B Teeri TT 《Plant physiology》2005,137(3):983-997
Wood formation is a fundamental biological process with significant economic interest. While lignin biosynthesis is currently relatively well understood, the pathways leading to the synthesis of the key structural carbohydrates in wood fibers remain obscure. We have used a functional genomics approach to identify enzymes involved in carbohydrate biosynthesis and remodeling during xylem development in the hybrid aspen Populus tremula x tremuloides. Microarrays containing cDNA clones from different tissue-specific libraries were hybridized with probes obtained from narrow tissue sections prepared by cryosectioning of the developing xylem. Bioinformatic analyses using the sensitive tools developed for carbohydrate-active enzymes allowed the identification of 25 xylem-specific glycosyltransferases belonging to the Carbohydrate-Active EnZYme families GT2, GT8, GT14, GT31, GT43, GT47, and GT61 and nine glycosidases (or transglycosidases) belonging to the Carbohydrate-Active EnZYme families GH9, GH10, GH16, GH17, GH19, GH28, GH35, and GH51. While no genes encoding either polysaccharide lyases or carbohydrate esterases were found among the secondary wall-specific genes, one putative O-acetyltransferase was identified. These wood-specific enzyme genes constitute a valuable resource for future development of engineered fibers with improved performance in different applications. 相似文献
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Adélaïde Saint-Léger Melanie Koelblen Livia Civitelli Amadou Bah Nadir Djerbi Marie-Josèphe Giraud-Panis 《Cell cycle (Georgetown, Tex.)》2014,13(15):2469-2474
The stability of mammalian telomeres depends upon TRF2, which prevents inappropriate repair and checkpoint activation. By using a plasmid integration assay in yeasts carrying humanized telomeres, we demonstrated that TRF2 possesses the intrinsic property to both stimulate initial homologous recombination events and to prevent their resolution via its basic N-terminal domain. In human cells, we further showed that this TRF2 domain prevents telomere shortening mediated by the resolvase-associated protein SLX4 as well as GEN1 and MUS81, 2 different types of endonucleases with resolvase activities. We propose that various types of resolvase activities are kept in check by the basic N-terminal domain of TRF2 in order to favor an accurate repair of the stalled forks that occur during telomere replication. 相似文献
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Ohlsson AB Djerbi S Winzell A Bessueille L Ståldal V Li X Blomqvist K Bulone V Teeri TT Berglund T 《Protoplasma》2006,228(4):221-229
Summary. Compared to wood, cell suspension cultures provide convenient model systems to study many different cellular processes in
plants. Here we have established cell suspension cultures of Populus tremula L. × P. tremuloides Michx. and characterized them by determining the enzymatic activities and/or mRNA expression levels of selected cell wall-specific
proteins at the different stages of growth. While enzymes and proteins typically associated with primary cell wall synthesis
and expansion were detected in the exponential growth phase of the cultures, the late stationary phase showed high expression
of the secondary-cell-wall-associated cellulose synthase genes. Interestingly, detergent extracts of membranes from aging
cell suspension cultures exhibited high levels of in vitro cellulose synthesis. The estimated ratio of cellulose to callose
was as high as 50 : 50, as opposed to the ratio of 30 : 70 so far achieved with membrane preparations extracted from other
systems. The increased cellulose synthase activity was also evidenced by higher levels of Calcofluor white binding in the
cell material from the stationary-phase cultures. The ease of handling cell suspension cultures and the improved capacity
for in vitro cellulose synthesis suggest that these cultures offer a new basis for studying the mechanism of cellulose biosynthesis.
Correspondence and reprints: School of Biotechnology, Royal Institute of Technology, AlbaNova University Centre, 106 91 Stockholm,
Sweden.
Present address: Department of Biotechnology, Beijing Forestry University, Beijing, People’s Republic of China 相似文献
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Djerbi M Abdul-Majid KB Abedi-Valugerdi M Olsson T Harris RA Grandien A 《Journal of immunology (Baltimore, Md. : 1950)》2003,170(4):2064-2073
Subsidence of inflammation and clinical recovery in experimental autoimmune encephalomyelitis (EAE) is postulated to involve apoptosis of inflammatory cells. To test this concept, we examined the effects of overexpressing the long form of human FLICE-inhibitory protein, a potent inhibitor of death receptor-mediated apoptosis, in myelin oligodendrocyte glycoprotein-induced EAE in DBA/1 mice. We found that overexpression of the long form of human FLICE-inhibitory protein by retroviral gene transfer of hemopoietic stem cells led to a clinically more severe EAE in these mice compared with control mice receiving the retroviral vector alone. The exacerbated disease was evident by an enhanced and prolonged inflammatory reaction in the CNS of these animals compared with control mice. The acute phase of EAE was characterized by a massive infiltration of macrophages and granulocytes and a simultaneous increase in TNF-alpha production in the CNS. In the chronic phase of the disease, there was a prolonged inflammatory response in the form of persistent CD4(+) T and B cells in the CNS and a peripheral Th1 cytokine bias caused by elevated levels of IFN-gamma and reduced levels of IL-4 in the spleen. Our findings demonstrate that death receptor-mediated apoptosis can be important in the pathogenesis of EAE and further emphasize the need for effective apoptotic elimination of inflammatory cells to achieve disease remission. 相似文献
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Johanna Fugelstad Jamel Bouzenzana Soraya Djerbi Gea Guerriero Ins Ezcurra Tuula T. Teeri Lars Arvestad Vincent Bulone 《Fungal genetics and biology : FG & B》2009,46(10):759-767
Cellulose biosynthesis is a vital but yet poorly understood biochemical process in Oomycetes. Here, we report the identification and characterization of the cellulose synthase genes (CesA) from Saprolegnia monoica. Southern blot experiments revealed the occurrence of three CesA homologues in this species and phylogenetic analyses confirmed that Oomycete CesAs form a clade of their own. All gene products contained the D,D,D,QXXRW signature of most processive glycosyltransferases, including cellulose synthases. However, their N-terminal ends exhibited Oomycete-specific domains, i.e. Pleckstrin Homology domains, or conserved domains of an unknown function together with additional putative transmembrane domains. Mycelial growth was inhibited in the presence of the cellulose biosynthesis inhibitors 2,6-dichlorobenzonitrile or Congo Red. This inhibition was accompanied by a higher expression of all CesA genes in the mycelium and increased in vitro glucan synthase activities. Altogether, our data strongly suggest a direct involvement of the identified CesA genes in cellulose biosynthesis. 相似文献