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David Shahbazian Armen Parsyan Emmanuel Petroulakis Ivan Topisirovic Yvan Martineau Bernard F. Gibbs Yuri Svitkin Nahum Sonenberg 《Molecular and cellular biology》2010,30(6):1478-1485
Translation initiation plays an important role in cell growth, proliferation, and survival. The translation initiation factor eIF4B (eukaryotic initiation factor 4B) stimulates the RNA helicase activity of eIF4A in unwinding secondary structures in the 5′ untranslated region (5′UTR) of the mRNA in vitro. Here, we studied the effects of eIF4B depletion in cells using RNA interference (RNAi). In agreement with the role of eIF4B in translation initiation, its depletion resulted in inhibition of this step. Selective reduction of translation was observed for mRNAs harboring strong to moderate secondary structures in their 5′UTRs. These mRNAs encode proteins, which function in cell proliferation (Cdc25C, c-myc, and ODC [ornithine decarboxylase]) and survival (Bcl-2 and XIAP [X-linked inhibitor of apoptosis]). Furthermore, eIF4B silencing led to decreased proliferation rates, promoted caspase-dependent apoptosis, and further sensitized cells to camptothecin-induced cell death. These results demonstrate that eIF4B is required for cell proliferation and survival by regulating the translation of proliferative and prosurvival mRNAs.Targeting the translation initiation pathway is emerging as a potential therapy for inhibiting cancer cell growth (35, 38). Ribosome recruitment to the 5′ ends of eukaryotic mRNAs proceeds via translation initiation mechanisms that are dependent either on the 5′ cap structure (m7GpppN, where N is any nucleotide) or an internal ribosome entry site (IRES). The majority of translation initiation events in eukaryotes are mediated through cap-dependent translation whereby the 40S ribosomal subunit is recruited to the vicinity of the mRNA 5′ cap structure by the eukaryotic initiation factor 4F (eIF4F) complex. eIF4F is comprised of eIF4E (the cap-binding subunit), eIF4A (an RNA helicase), and eIF4G (a large scaffolding protein for eIF4E, eIF4A, and other initiation factors). Once assembled at the 5′ cap, the 40S ribosomal subunit in association with several initiation factors scans the 5′ untranslated region (5′UTR) of the mRNA until it encounters a start codon in a favorable context, followed by polypeptide synthesis (37).Early in vitro studies have shown that the initiation factor eIF4B acts to potentiate ribosome recruitment to the mRNA (3, 45). eIF4B stimulates translation of both capped and uncapped mRNAs in vitro (1, 36). This function is exerted through stimulation of the helicase activity of eIF4A (43), possibly through direct interactions with eIF4A (44) or with mRNA, the ribosome-associated eIF3, and 18S rRNA (28, 29, 44). Thus, eIF4B is thought to form auxiliary bridges between the mRNA and the 40S ribosomal subunit. Toeprinting studies using mammalian eIF4B underscored its importance in the assembly of the 48S initiation complex, especially on mRNAs harboring secondary structures in the 5′UTRs (11).In vivo studies of eIF4B are limited. Ectopic expression of eIF4B in cultured Drosophila melanogaster cells and in developing eye imaginal discs stimulated cell proliferation (16). Enhanced cell proliferation is most likely mediated by increased translation of a subset of mRNAs, since knockdown of Drosophila eIF4B by RNA interference (RNAi) caused a modest reduction in global translation but compromised the survival of insect cells grown under low serum conditions (16). Studies of eIF4B in mammalian cells yielded contradictory results. Transient overexpression of eIF4B stimulated translation initiation in a phosphorylation-dependent manner in some cells (18, 49) while inhibiting translation in others (30, 31, 41). These differences might be attributed to disparate levels of eIF4B overexpression.To address the physiological role of eIF4B in mRNA translation in the cell, RNAi knockdown of eIF4B was used here. We demonstrate that eIF4B is required for optimal translation. Importantly, the translation of mRNAs bearing structured 5′UTRs, such as the cell cycle regulators Cdc25C, c-myc, and ODC (ornithine decarboxylase), and the antiapoptotic factors Bcl-2 and XIAP (X-linked inhibitor of apoptosis), was reduced as a result of eIF4B silencing by RNAi. Furthermore, eIF4B silencing promoted caspase-dependent apoptosis. Thus, we show that mammalian eIF4B is required for cell proliferation and survival, whereby it acts by regulating the translation of a functionally related subset of mRNAs. 相似文献
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Analysis of exopolysaccharide production by Lactobacillus casei CG11, isolated from cheese. 总被引:3,自引:0,他引:3
M Kojic M Vujcic A Banina P Cocconcelli J Cerning L Topisirovic 《Applied and environmental microbiology》1992,58(12):4086-4088
Exopolysaccharide-producing Lactobacillus casei CG11 was isolated from soft, white, homemade cheese. In basal minimal medium, it produces a neutral heteropolysaccharide consisting predominantly of glucose (about 75%) and rhamnose (about 15%). Plasmid curing experiments revealed that exopolysaccharide production by strain CG11 is linked to a plasmid approximately 30 kb in size. 相似文献
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Kojic M Strahinic I Fira D Jovcic B Topisirovic L 《Canadian journal of microbiology》2006,52(11):1110-1120
In this study, the plasmid content and bacteriocin production of natural isolates of lactococci were investigated. Five bacteriocin producing lactococcal strains (Lactococcus lactis subsp. lactis BGMN1-2, BGMN1-3, BGMN1-5, BGMN1-6, and BGMN2-7) were isolated as nonstarter microflora of semi-hard homemade cheese and characterized. All isolates contained a number of plasmids. It was shown that lcnB structural genes for bacteriocin lactococcin B were located on large plasmids in all isolates. In the strains BGMN1-3 and BGMN1-5 proteinase prtP genes collocated with lcnB. Furthermore, these strains produced two additional bacteriocins (LsbA and LsbB) with genes responsible for their production and immunity located on the small rolling circle-replicating plasmid pMN5. Using deletion experiments of pMN5, minimal replicon of the plasmid and involvement of a bacteriocin locus in plasmid maintenance were identified. In addition, plasmid curing experiments showed that genes for catabolism or transport of 10 carbohydrates in the strain BGMN1-5 were plasmid located. 相似文献
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Laine A Topisirovic I Zhai D Reed JC Borden KL Ronai Z 《Molecular and cellular biology》2006,26(23):8901-8913
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Jelena Begovic Djordje Fira Amarela Terzic-Vidojevic Ljubisa Topisirovic 《Central European Journal of Biology》2010,5(1):103-110
Lactobacilli represent normal commensals of the human body, particularly in the gut and vagina where they protect these environments
from incoming pathogens via a variety of mechanisms. The influence of the carbohydrate source present in reconstituted MRS growth medium on the different
cell properties of two Lactobacillus rhamnosus strains were examined. Two human vaginal isolates, BGHV719 and exopolysaccharide producer strain BGHV954 were analyzed. The
results demonstrated that unlike in reconstituted MRS with glucose as a carbon source, the presence of fructose, mannose,
or rhamnose, significantly reduced cell surface hydrophobicity of both strains. In addition, differences in cell wall protein
composition of L. rhamnosus BGHV719 and alterations in colony mucoidity of L. rhamnosus BGHV954 were also demonstrated. Light and SEM microscopy revealed differences on the cellular level when BGHV719 was cultivated
in the presence of different sugars. The results of this study point out the importance of complex relationships between growth
medium composition and the different aspects of bacterial behavior, and call for more detailed analyses of versatile bacterial
responses to the changes in the environment, including vaginal ecosystem. This is especially important since lactobacilli
are amongst the most widely used of probiotics. 相似文献
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Gajic O Buist G Kojic M Topisirovic L Kuipers OP Kok J 《The Journal of biological chemistry》2003,278(36):34291-34298
A natural isolate of Lactococcus lactis was shown to produce two narrow spectrum class II bacteriocins, designated LsbA and LsbB. The cognate genes are located on a 5.6-kb plasmid within a gene cluster specifying LmrB, an ATP-binding cassette-type multidrug resistance transporter protein. LsbA is a hydrophobic peptide that is initially synthesized with an N-terminal extension. The housekeeping surface proteinase HtrA was shown to be responsible for the cleavage of precursor peptide to yield the active bacteriocin. LsbB is a relatively hydrophilic protein synthesized without an N-terminal leader sequence or signal peptide. The secretion of both polypeptides was shown to be mediated by LmrB. An L. lactis strain lacking plasmid-encoded LmrB and the chromosomally encoded LmrA is unable to secrete either of the two bacteriocins. Complementation of the strain with an active LmrB protein resulted in restored export of the two polypeptides across the cytoplasmic membrane. When expressed in an L. lactis strain that is sensitive to LsbA and LsbB, LmrB was shown to confer resistance toward both bacteriocins. It does so, most likely, by removing the two polypeptides from the cytoplasmic membrane. This is the first report in which a multidrug transporter protein is shown to be involved in both secretion and immunity of antimicrobial peptides. 相似文献