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Translation Initiation (translation + initiation)
Kinds of Translation Initiation Terms modified by Translation Initiation Selected AbstractsCo-crystallization of Leptospira interrogans peptide deformylase with a potent inhibitor and molecular-replacement schemes with eight subunits in an asymmetric unitACTA CRYSTALLOGRAPHICA SECTION D, Issue 1 2004Peptide deformylase Translation initiation in eubacteria involves a formylmethionine at the N-terminus of newly synthesized polypeptides. This N-formyl group is removed by peptide deformylase (PDF) during the post-translation process. Such a formylation/deformylation cycle is essential for the cell survival of eubacteria, but is not utilized in eukaryotic cytosolic protein biosynthesis. In view of the absence of deformylase activity in mammalian cells, this is an attractive target for the design of novel antibiotic drugs. Co-crystallization of peptide deformylase from Leptospira interrogans (LiPDF) with its natural inhibitor actinonin produced diffraction-quality crystals that belong to space group P21, with unit-cell parameters a = 87.5, b = 119.1, c = 95.8,Ĺ, , = 111.6°. The 3.1,Ĺ resolution data set collected in-house was used to obtain phases by molecular replacement. Three schemes for the correction of the preliminary solutions were proposed and proved successful in determining the structure of LiPDF with eight subunits in the asymmetric unit. [source] Non-core subunit eIF3h of translation initiation factor eIF3 regulates zebrafish embryonic developmentDEVELOPMENTAL DYNAMICS, Issue 6 2010Avik Choudhuri Abstract Eukaryotic translation initiation factor eIF3, which plays a central role in translation initiation, consists of five core subunits that are present in both the budding yeast and higher eukaryotes. However, higher eukaryotic eIF3 contains additional (non-core) subunits that are absent in the budding yeast. We investigated the role of one such non-core eIF3 subunit eIF3h, encoded by two distinct genes,eif3ha and eif3hb, as a regulator of embryonic development in zebrafish. Both eif3h genes are expressed during early embryogenesis, and display overlapping yet distinct and highly dynamic spatial expression patterns. Loss of function analysis using specific morpholino oligomers indicates that each isoform has specific as well as redundant functions during early development. The morphant phenotypes correlate with their spatial expression patterns, indicating that eif3h regulates development of the brain, heart, vasculature, and lateral line. These results indicate that the non-core subunits of eIF3 regulate specific developmental programs during vertebrate embryogenesis. Developmental Dynamics 239:1632,1644, 2010. © 2010 Wiley-Liss, Inc. [source] Epigenetic control of translation regulation: Alterations in histone H3 lysine 9 post-translation modifications are correlated with the expression of the translation initiation factor 2B (Eif2b5) during thermal control establishmentDEVELOPMENTAL NEUROBIOLOGY, Issue 2 2010Tatiana Kisliouk Abstract Thermal control set point is regulated by thermosensitive neurons of the preoptic anterior hypothalamus (PO/AH) and completes its development during postnatal critical sensory period. External stimuli, like increase in environmental temperature, influence the neuronal protein repertoire and, ultimately, cell properties via activation or silencing of gene transcription, both of which are regulated by the "histone code."" Here, we demonstrated an increase in global histone H3 lysine 9 (H3K9) acetylation as well as H3K9 dimethylation in chick PO/AH during heat conditioning at the critical period of sensory development. In contrast to the global profile of H3K9 modifications, acetylation and dimethylation patterns of H3K9 at the promoter of the catalytic subunit of eukaryotic translation initiation factor 2B (Eif2b5) were opposite to each other. During heat conditioning, there was an increase in H3K9 acetylation at the Eif2b5 promoter, simultaneously with decrease in H3K9 dimethylation. These alterations coincided with Eif2b5 mRNA induction. Moreover, exposure to excessive heat during the critical period resulted in long-term effect on both H3K9 tagging at the Eif2b5 promoter and Eif2b5 mRNA expression. These data suggest a role for dynamic H3K9 post-translational modifications in global translation regulation during the thermal control establishment. © 2009 Wiley Periodicals, Inc. Develop Neurobiol, 2010 [source] A role for eukaryotic translation initiation factor 2B (eIF2B) in taste memory consolidation and in thermal control establishment during the critical period for sensory developmentDEVELOPMENTAL NEUROBIOLOGY, Issue 6 2007Sharon Tirosh Abstract All species exhibit critical periods for sensory development, yet very little is known about the molecules involved in the changes in the network wiring that underlies this process. Here the role of transcription regulation of the translation machinery was determined by evaluating the expression of eIF2B,, an essential component of translation initiation, in both taste-preference development and thermal control establishment in chicks. Analysis of the expression pattern of this gene after passive-avoidance training revealed clear induction of eIF2B, in both the mesopallium intermediomediale (IMM) and in the striatum mediale (StM). In addition, a correlation was found between the concentration of methylanthranilate (MeA), which was the malaise substrate in the passive-avoidance training procedure, the duration of memory, and the expression level of eIF2B,. Training chicks on a low concentration of MeA induced short-term memory and low expression level of eIF2B,, whereas a high concentration of MeA induced long-term memory and a high expression level of eIF2B, in both the IMM and StM. Furthermore, eIF2B, -antisense "knock-down" not only reduced the amount of eIF2B, but also attenuated taste memory formation. In order to determine whether induction of eIF2B, is a general feature of neuronal plasticity, we checked whether it was induced in other forms of neuronal plasticity, with particular attention to its role in temperature control establishment, which represents hypothalamic-related plasticity. It was established that eIF2B, -mRNA was induced in the preopotic anterior hypothalamus during heat conditioning. Taken together, these results correlate eIF2B, with sensory development. © 2007 Wiley Periodicals, Inc. Develop Neurobiol, 2007. [source] MBP-1 is efficiently encoded by an alternative transcript of the ENO1 gene but post-translationally regulated by proteasome-dependent protein turnoverFEBS JOURNAL, Issue 20 2010Jrhau Lung The c-myc promoter-binding protein-1 (MBP-1) is a transcriptional suppressor of tumorigenesis and thought to be the product of alternative translation initiation of the ,-enolase (ENO1) transcript. In the present study, we cloned a 2552-bp novel cDNA with a putative coding sequence of MBP-1 and functionally examined its ability to encode the MBP-1 protein. Similarly to ENO1, the obtained MBP-1 was widely and differentially expressed in a variety of normal tissues and cancer cells. Experiments using MBP-1 promoter-driven luciferase reporter assays, biochemical cell fractionation followed by RT-PCR detection of the cytoplasmic mRNA, and transcription/translation-coupled reactions, consistently demonstrated that this novel transcript was alternatively transcribed from intron III of the ENO1 gene and was feasible for MBP-1 production. Hypoxia treatments significantly increased the transcriptional activation of the MBP-1 gene. Blocking the proteasomal degradation by MG132 stabilized the MBP-1 protein in cells. Compared with the translation efficiency for production of the MBP-1 protein, the MBP-1 transcript was 17.8 times more efficient than the ENO1 transcript. Thus, we suggest that this newly discovered transcript is a genuine template for the protein synthesis of MBP-1 in cells, and optimal expression of this gene in tumors may lead to effective clinical therapies for cancers. [source] A tumour-associated DEAD-box protein, rck/p54 exhibits RNA unwinding activity toward c-myc RNAs in vitroGENES TO CELLS, Issue 8 2003Yukihiro Akao Background:, The rck/p54 protein of 473 amino acids belongs to the family of DEAD-box/putative RNA helicase proteins. DEAD-box proteins have been implicated in a wide variety of cellular processes ranging from the initiation of protein synthesis and ribosome biosynthesis to premRNA splicing by means of modifying the RNA structure. Our previous data suggested that rck/p54 positively affected the translation initiation of c-myc mRNA. Results:, The data obtained from morphological studies and surface plasmon resonance assays clearly indicated that the protein specifically bound to c-myc RNA transcripts (RNAs) and exhibited RNA unwinding activity toward c-myc RNAs in the presence of ATP in vitro. Experiments using a deletion mutant of rck/p54 retaining only its N-terminal 289 amino acids demonstrated that the deleted C-terminal 184 amino acid domain is involved in the RNA unwinding activity. Conclusion:, These findings strongly suggest that rck/p54 may play an important role in translation initiation by restructuring mRNAs even in the cell and contribute to carcinogenesis. [source] A picture says more than a thousand words: Structural insights into hepatitis C virus translation initiation,HEPATOLOGY, Issue 6 2006Pantxika Bellecave Ph.D. Protein synthesis in mammalian cells requires initiation factor eIF3, a ,750-kilodalton complex that controls assembly of 40S ribosomal subunits on messenger RNAs (mRNAs) bearing either a 5,-cap or an internal ribosome entry site (IRES). Cryoelectron microscopy reconstructions show that eIF3, a five-lobed particle, interacts with the hepatitis C virus (HCV) IRES RNA and the 5,-cap binding complex eIF4F via the same domain. Detailed modeling of eIF3 and eIF4F onto the 40S ribosomal subunit reveals that eIF3 uses eIF4F or the HCV IRES in structurally similar ways to position the mRNA strand near the exit site of 40S, promoting initiation complex assembly. [source] DMD exon 1 truncating point mutations: Amelioration of phenotype by alternative translation initiation in exon 6,HUMAN MUTATION, Issue 4 2009Olga L. Gurvich Abstract Mutations in the DMD gene result in two common phenotypes associated with progressive muscle weakness: the more severe Duchenne muscular dystrophy (DMD) and the milder Becker muscular dystrophy (BMD). We have previously identified a nonsense mutation (c.9G>A; p.Trp3X) within the first exon of the DMD gene, encoding the unique N-terminus of the 427-kDa muscle isoform of the dystrophin protein. Although this mutation would be expected to result in severe disease, the clinical phenotype is very mild BMD, with ambulation preserved into the seventh decade. We identify the molecular mechanism responsible for the amelioration of disease severity to be initiation of translation at two proximate AUG codons within exon 6. Analysis of large mutational data sets suggests that this may be a general mechanism of phenotypic rescue for point mutations within at least the first two exons of the DMD gene. Our results directly demonstrate, for the first time, the use of alternate translational initiation codons within the DMD gene, and suggest that dystrophin protein lacking amino acids encoded by the first five exons retains significant function. Hum Mutat 0:1,8, 2009. © 2009 Wiley-Liss, Inc. [source] ,4 phosphoprotein interacts with EDD E3 ubiquitin ligase and poly(A)-binding proteinJOURNAL OF CELLULAR BIOCHEMISTRY, Issue 5 2010William J. McDonald Abstract Mammalian ,4 phosphoprotein, the homolog of yeast Tap42, is a component of the mammalian target-of-rapamycin (mTOR) pathway that regulates ribogenesis, the initiation of translation, and cell-cycle progression. ,4 is known to interact with the catalytic subunit of protein phosphatase 2A (PP2Ac) and to regulate PP2A activity. Using ,4 as bait in yeast two-hybrid screening of a human K562 erythroleukemia cDNA library, EDD (E3 isolated by differential display) E3 ubiquitin ligase was identified as a new protein partner of ,4. EDD is the mammalian ortholog of Drosophila hyperplastic discs gene (hyd) that controls cell proliferation during development. The EDD protein contains a PABC domain that is present in poly(A)-binding protein (PABP), suggesting that PABP may also interact with ,4. PABP recruits translation factors to the poly(A)-tails of mRNAs. In the present study, immunoprecipitation/immunoblotting (IP/IB) analyses showed a physical interaction between ,4 and EDD in rat Nb2 T-lymphoma and human MCF-7 breast cancer cell lines. ,4 also interacted with PABP in Nb2, MCF-7 and the human Jurkat T-leukemic and K562 myeloma cell lines. COS-1 cells, transfected with Flag-tagged-pSG5-EDD, gave a (Flag)-EDD,,4 immunocomplex. Furthermore, deletion mutants of ,4 were constructed to determine the binding site for EDD. IP/IB analysis showed that EDD bound to the C-terminal region of ,4, independent of the ,4-PP2Ac binding site. Therefore, in addition to PP2Ac, ,4 interacts with EDD and PABP, suggesting its involvement in multiple steps in the mTOR pathway that leads to translation initiation and cell-cycle progression. J. Cell. Biochem. 110: 1123,1129, 2010. Published 2010 Wiley-Liss, Inc. [source] A HYPOTHESIS FOR IMPORT OF THE NUCLEAR-ENCODED PsaE PROTEIN OF PAULINELLA CHROMATOPHORA (CERCOZOA, RHIZARIA) INTO ITS CYANOBACTERIAL ENDOSYMBIONTS/PLASTIDS VIA THE ENDOMEMBRANE SYSTEM,JOURNAL OF PHYCOLOGY, Issue 5 2010Mackiewicz The cyanobacterial endosymbionts of Paulinella chromatophora can shed new light on the process of plastid acquisition. Their genome is devoid of many essential genes, suggesting gene transfer to the host nucleus and protein import back into the endosymbionts/plastids. Strong evidence for such gene transfer is provided by the psaE gene, which encodes a PSI component that was efficiently transferred to the Paulinella nucleus. It remains unclear, however, how this protein is imported into the endosymbionts/plastids. We reanalyzed the sequence of Paulinella psaE and identified four potential non-AUG translation initiation codons upstream of the previously proposed start codon. Interestingly, the longest polypeptide, starting from the first UUG, contains a clearly identifiable signal peptide with very high (90%) predictability. We also found several downstream hairpin structures that could enhance translation initiation from the alternative codon. These results strongly suggest that the PsaE protein is targeted to the outer membrane of Paulinella endosymbionts/plastids via the endomembrane system. On the basis of presence of respective bacterial homologs in the Paulinella endosymbiont/plastid genome, we discuss further trafficking of PsaE through the peptidoglycan wall and the inner envelope membrane. It is possible that other nuclear-encoded proteins of P. chromatophora also carry signal peptides, but, alternatively, some may be equipped with transit peptides. If this is true, Paulinella endosymbionts/plastids would possess two distinct targeting systems, one cotranslational and the second posttranslational, as has been found in higher plant plastids. Considering the endomembrane system-mediated import pathway, we also discuss homology of the membranes surrounding Paulinella endosymbionts/plastids. [source] Restoration of Protein Synthesis in Heart and Skeletal Muscle After Withdrawal of AlcoholALCOHOLISM, Issue 4 2004Thomas C. Vary Abstract: Background: The rate of protein synthesis is diminished after chronic alcohol consumption through changes in both mRNA translation initiation and elongation. It remains unknown how long adverse effects of alcohol on protein synthesis persist after withdrawal from ethanol. Methods: We examined the effect of removal of alcohol from the diet of rats for 72 hr after chronic alcohol exposure (16 weeks) on rates of protein synthesis and potential mechanisms for controlling mRNA translation in heart, skeletal muscle, and liver. Rates of protein synthesis were measured after intravenous infusion of [3H]-l-phenylalanine. The formation of active eukaryotic initiation factor (eIF)4E·eIF4G complex, the cellular content of eukaryotic elongation factor (eEF)1A and eEF2, and the phosphorylation state of eEF2 and S6K1 were measured in each tissue. Results: Withdrawal of alcohol from the diet restored protein synthesis in heart and skeletal muscle to values obtained in pair-fed control rats not exposed to alcohol. However, the organ weight and protein content per muscle was not affected by withdrawal of alcohol from the diet. In both heart and skeletal muscle, the restoration of protein synthesis correlated with reversal of defects in the formation of active eIF4E·eIF4G complex and eEF1A content. Myocardial eEF2 content was also restored to control values after withdrawal of alcohol from the diet. In the gastrocnemius, there was a decrease in the cellular content of eEF2. The lower eIF2 content may have been counterbalanced by an increased activity of eEF2 through a reduction in the phosphorylation state of eEF2 allowing protein synthesis to proceed unimpeded. Conclusions: These studies indicate that changes in protein metabolism observed during chronic alcohol intake are reversible and do not, at this stage, represent an irreversible change in cardiac or skeletal muscle. [source] Hepatitis A virus (HAV) proteinase 3C inhibits HAV IRES-dependent translation and cleaves the polypyrimidine tract-binding proteinJOURNAL OF VIRAL HEPATITIS, Issue 9 2010T. Kanda Summary., Hepatitis A virus (HAV) infection is still an important issue worldwide. A distinct set of viruses encode proteins that enhance viral cap-independent translation initiation driven by an internal ribosome entry site (IRES) and suppress cap-dependent host translation. Unlike cytolytic picornaviruses, replication of HAV does not cause host cell shut off, and it has been questioned whether HAV proteins interfere with its own and/or host translation. HAV proteins were coexpressed in Huh-7 cells with reporter genes whose translation was initiated by either cap-dependent or cap-independent mechanisms. Among the proteins tested, HAV proteinase 3C suppressed viral IRES-dependent translation. Furthermore, 3C cleaved the polypyrimidine tract-binding protein (PTB) whose interaction with the HAV IRES had been demonstrated previously. The combined results suggest that 3C-mediated cleavage of PTB might be involved in down-regulation of viral translation to give way to subsequent viral genome replication. [source] Molecular Reproduction & Development: Volume 77, Issue 3MOLECULAR REPRODUCTION & DEVELOPMENT, Issue 3 2010Article first published online: 15 JAN 2010 Cover image legend: A model for cap-dependent translation initiation in sea urchin. The image shows the graph of the wiring diagram obtained for the model, as generated using Cytoscape software. Full details can be found in Bellé et al. (this issue). [source] Insights into yeast adaptive response to the agricultural fungicide mancozeb: A toxicoproteomics approachPROTEINS: STRUCTURE, FUNCTION AND BIOINFORMATICS, Issue 3 2009Pedro M. Santos Abstract Toxicogenomics has the potential to elucidate gene,environment interactions to identify genes that are affected by a particular chemical at the early stages of the toxicological response and to establish parallelisms between different organisms. The fungicide mancozeb, widely used in agriculture, is an ethylene-bis-dithiocarbamate complex with manganese and zinc. Exposure to this pesticide has been linked to the development of idiopathic Parkinson's disease and cancer. Given that many signalling pathways and their molecular components are substantially conserved among eukaryotic organisms, we used Saccharomyces cerevisiae to get insights into the molecular mechanisms of mancozeb toxicity and adaptation based on expression proteomics. The early global response to mancozeb was analysed by quantitative proteomics using 2-DE. The target genes (e.g. TSA1, TSA2, SOD1, SOD2, AHP1, GRE2, GRX1, CYS3, PRE3, PRE6, PRE8, PRE9, EFT1, RPS5, TIF11, HSP31, HSP26, HSP104, HSP60, HSP70 -family) and the putative main transcription activators (e.g. Yap1, Msn2/Msn4, Met4, Hsf1, Aft1, Pdr1, Skn7, Rpn4p, Gcn4) of the complex mancozeb-induced expression changes are related with yeast response to stress, in particular to oxidative stress, protein translation initiation and protein folding, disassembling of protein aggregates and degradation of damaged proteins. Our results also suggest that this study provided powerful indications that may be useful to expand the knowledge obtained in yeast not only to the global response to mancozeb toxicity in phytopathogenic fungi but also to humans. [source] Control of the single channel conductance of K2P10.1 (TREK-2) by the amino-terminus: role of alternative translation initiationTHE JOURNAL OF PHYSIOLOGY, Issue 23 2008Dina Simkin TREK-2 expressed in mammalian cells exhibits small (,52 pS) and large (,220 pS) unitary conductance levels. Here we tested the role of the N-terminus (69 amino acids long) in the control of the unitary conductance, and role of the alternative translation initiation as a mechanism that produces isoforms of TREK-2 that show different conductance levels. Deletion of the first half (,1,36) of the N-terminus had no effect. However, deletion of most of the N-terminus (,1,66) resulted in the appearance of only the large-conductance channel (,220 pS). In support of the critical function of the distal half of the N-terminus, the deletion mutants ,1,44 and ,1,54 produced ,90 pS and 188 pS channels, respectively. In Western blot analysis, TREK-2 antibody detected two immunoreactive bands at ,54 kDa and ,60 kDa from cells expressing wild-type TREK-2 that has three potential translation initiation sites (designated M1M2M3) within the N-terminus. Mutation of the second and third initiation sites from Met to Leu (M1L2L3) produced only the ,60 kDa isoform and the small-conductance channel (,52 pS). Mutants designed to produce translation from the second (M2L3) or third (M3) initiation site produced the ,54 kDa isoform, and the large conductance channel (,185,224 pS). M1L2L3, M2L3 and M3 were relatively selectively permeable to K+, as judged by the 51,55 mV shifts in reversal potential following a 10-fold change in [K+]o. PNa/PK values were also similar for M1L2L3 (,0.02), M2L3 (,0.02) and M3 (,0.03). Arachidonic acid, proton and membrane stretch activated, whereas dibutyryl-cAMP inhibited all three isoforms of TREK-2, indicating that deletion of the N-terminus does not abolish modulation. These results show that the small and large conductance TREK-2 channels are produced as a result of alternative translation initiation, producing isoforms with long and short N-termini, and that the distal half of the N-terminus controls the unitary conductance. [source] The expression patterns of a eukaryotic initiation factor 3 subunit H in the silk glands in Bombyx moriARCHIVES OF INSECT BIOCHEMISTRY AND PHYSIOLOGY (ELECTRONIC), Issue 1 2010Jia-Lin Wang Abstract Eukaryotic initiation factor 3 subunit H has been characterized in many organisms, and it has been found to play many roles including help regulate translation initiation. In this work, we studied the tissue distribution and expression profiles of Bombyx mori (B. mori) eIF3 subunit H (BmeIF3h). BmeIF3h was prominently expressed in silk glands, with anterior silk glands (ASGs), middle silk glands (MSGs), and posterior silk glands (PSGs) all expressing BmeIF3h. The expression levels of BmeIF3h in MSGs and PSGs were higher than that in ASGs during 0 d and 2 d of the 5th instar larvae. The expression levels of BmeIF3h in MSGs and PSGs were up-regulated once the silk glands began to synthesize silk protein during the feeding stage of the 4th instar larvae. Immunohistochemistry showed that BmeIF3h was distributed in the cytoplasm of MSGs cells and in both the nucleus and the cytoplasm of PSGs cells. These data suggest that BmeIF3h had different action behaviors in the MSGs and PSGs related to the production of the silk glue proteins and silk fibre proteins, respectively. © 2010 Wiley Periodicals, Inc. [source] Crystallization and preliminary X-ray diffraction analysis of the MIF4G domain of DAP5ACTA CRYSTALLOGRAPHICA SECTION F (ELECTRONIC), Issue 1 2010Filipp Frank Death-associated protein 5 (DAP5) is a member of the eIF4G family of scaffolding proteins that mediate cap-independent translation initiation by recruiting the translational machinery to internal ribosomal entry sites (IRESs) on mRNA. The MIF4G domain of DAP5 directly interacts with the eukaryotic initiation factors eIF4A and eIF3 and enhances the translation of several viral and cellular IRESs. Here, the crystallization and preliminary X-ray diffraction analysis of the MIF4G domain of DAP5 is presented. [source] Novel CNBP- and La-based translation control systems for mammalian cellsBIOTECHNOLOGY & BIOENGINEERING, Issue 1 2003Stefan Schlatter Abstract Throughout the development of Xenopus, production of ribosomal proteins (rp) is regulated at the translational level. Translation control is mediated by a terminal oligopyrimidine element (TOP) present in the 5, untranslated region (UTR) of rp -encoding mRNAs. TOP elements adopt a specific secondary structure that prevents ribosome-binding and translation-initiation of rp -encoding mRNAs. However, binding of CNBP (cellular nucleic acid binding protein) or La proteins to the TOP hairpin structure abolishes the TOP-mediated transcription block and induces rp production. Based on the specific CNBP-TOP/La-TOP interactions we have designed a translation control system (TCS) for conditional as well as adjustable translation of desired transgene mRNAs in mammalian cells. The generic TCS configuration consists of a plasmid encoding CNBP or La under control of the tetracycline-responsive expression system (TETOFF) and a target expression vector containing a TOP module between a constitutive PSV40 promoter and the human model product gene SEAP (human secreted alkaline phosphatase) (PSV40 -TOP- SEAP -pA). The TCS technology showed excellent SEAP regulation profiles in transgenic Chinese hamster ovary (CHO) cells. Alternatively to CNBP and La, TOP-mediated translation control can also be adjusted by artificial phosphorothioate anti-TOP oligodeoxynucleotides. Confocal laser-scanning microscopy demonstrated cellular uptake of FITC-labeled oligodeoxynucleotides and their localization in perinuclear organelles within 24 hours. Besides their TOP-based translation-controlling capacity, CNBP and La were also shown to increase cap-independent translation from polioviral internal ribosomal entry sites (IRES) and La alone to boost cap-dependent translation initiation. CNBP and La exemplify for the first time the potential of RNA-binding proteins to exert translation control of desired transgenes and to increase heterologous protein production in mammalian cells. We expect both of these assets to advance current gene therapy and biopharmaceutical manufacturing strategies. © 2002 Wiley Periodicals, Inc. Biotechnol Bioeng 81: 1,12, 2003. [source] Enhanced IFN, production in adenosine-treated CHOCells: A mechanistic studyBIOTECHNOLOGY PROGRESS, Issue 3 2009William P. K. Chong Abstract Adenosine causes growth arrest in recombinant mammalian cell cultures, which results in enhanced productivity of the recombinant protein. Adenosine is also known to increase intracellular ATP level when added to mammalian cells. As a cell's energy level affects its protein expression capacity, we investigated the factors that contribute to the increase in recombinant protein productivity. Chinese hamster ovary (CHO) cells expressing human interferon-gamma (IFN,) were treated with 1 mM adenosine on Day 2 of culture. The growth arrest resulted in 60% reduction in integral viable cell density when compared with control. However, IFN, titer improved 1.4-fold alongside a 2.5-fold increase in average specific productivity. The adenosine-treated cells also experienced a two-fold increase in ATP level that sustained for 3 days. Western blot studies revealed a relatively short-lived but strong activation of the energy sensor AMP-activated protein kinase (AMPK) in adenosine-treated cells. Activation of AMPK was probably due to adenosine being temporarily converted to AMP. Activated AMPK should have down-regulated protein translation by preventing mammalian target of rapamycin (mTOR) from phosphorylating and inactivating 4E-binding protein 1 (4E-BP1), a key repressor of protein translation initiation. However, Western blots showed increased phosphorylation of 4E-BP1 on Day 2 that lasted 3 days. This implied that a high concentration of ATP could keep 4E-BP1 inhibited, probably by directly modulating mTOR. This corroborated with an earlier in vitro observation (Dennis et al., Science. 2001;294:1102-1105). Inhibition of translation initiation repression is thus likely to contribute in part to the improvement in IFN,-specific productivity and titer. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2009 [source] | ||||||||||||||||||||||||||||