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51.
The mammalian target of rapamycin (mTOR) kinase is present in 2 functionally distinct complexes, mTOR complex 1 (mTORC1) and complex 2 (mTORC2). Active mTORC1 mediates phosphorylation of eIF4E-binding protein (4E-BP) and p70 S6 kinase (S6K), which is important for maintaining translation. During human cytomegalovirus (HCMV) infection, cellular stress responses are activated that normally inhibit mTORC1; however, previous data show that HCMV infection circumvents stress responses and maintains mTOR kinase activity. Amino acid deprivation is a stress response that normally inhibits mTORC1 activity. Amino acids can signal to mTORC1 through the Rag proteins, which promote the colocalization of mTORC1 with its activator Rheb-GTP in a perinuclear region, thereby inducing 4E-BP and S6K phosphorylation. As expected, our results show that amino acid depletion in mock-infected cells caused loss of mTORC1 activity and loss of the perinuclear localization; however, there was no loss of activity or perinuclear localization in HCMV-infected cells where the perinuclear localization of Rheb-GTP and mTOR coincided with the perinuclear assembly compartment (AC). This suggested that HCMV infection bypasses normal Rag-dependent amino acid signaling. This was demonstrated by short hairpin RNA (shRNA) depletion of Rag proteins, which had little effect on mTORC1 activity in infected cells but inhibited activity in mock-infected cells. Our data show that HCMV maintains mTORC1 activity in an amino acid- and Rag-independent manner through the colocalization of mTOR and Rheb-GTP, which occurs in association with the formation of the AC, thus bypassing inhibition that may result from lowered amino acid levels. 相似文献
52.
The mammalian target of rapamycin (mTOR) kinase occurs in mTOR complex 1 (mTORC1) and complex 2 (mTORC2), primarily differing by the substrate specificity factors raptor (in mTORC1) and rictor (in mTORC2). Both complexes are activated during human cytomegalovirus (HCMV) infection. mTORC1 phosphorylates eukaryotic initiation factor 4E (eIF4E)-binding protein (4E-BP1) and p70S6 kinase (S6K) in uninfected cells, and this activity is lost upon raptor depletion. In infected cells, 4E-BP1 and S6K phosphorylation is maintained when raptor or rictor is depleted, suggesting that either mTOR complex can phosphorylate 4E-BP1 and S6K. Studies using the mTOR inhibitor Torin1 show that phosphorylation of 4E-BP1 and S6K in infected cells depends on mTOR kinase. The total levels of 4E-BP1 and viral proteins representative of all temporal classes were lowered by Torin1 treatment and by raptor, but not rictor, depletion, suggesting that mTORC1 is involved in the production of all classes of HCMV proteins. We also show that Torin1 inhibition of mTOR kinase is rapid and most deleterious at early times of infection. While Torin1 treatment from the beginning of infection significantly inhibited translation of viral proteins, its addition at later time points had far less effect. Thus, with respect to mTOR's role in translational control, HCMV depends on it early in infection but can bypass it at later times of infection. Depletion of 4E-BP1 by use of short hairpin RNAs (shRNAs) did not rescue HCMV growth in Torin1-treated human fibroblasts as it has been shown to in murine cytomegalovirus (MCMV)-infected 4E-BP1(-/-) mouse embryo fibroblasts (MEFs), suggesting that during HCMV infection mTOR kinase has additional roles other than phosphorylating and inactivating 4E-BP1. Overall, our data suggest a dynamic relationship between HCMV and mTOR kinase which changes during the course of infection. 相似文献
53.
Viral effects on metabolism: changes in glucose and glutamine utilization during human cytomegalovirus infection 总被引:1,自引:0,他引:1
Human cytomegalovirus (HCMV) infection causes dramatic alterations of intermediary metabolism, similar to those found in tumor cells. In infected cells, glucose carbon is not completely broken down by the tricarboxylic acid (TCA) cycle for energy; instead, it is used biosynthetically. This process requires increased glucose uptake, increased glycolysis and the diversion of glucose carbon, in the form of citrate, from the TCA cycle for use in HCMV-induced fatty acid biosynthesis. The diversion of citrate from the TCA cycle (cataplerosis) requires induction of enzymes to promote glutaminolysis, the conversion of glutamine to α-ketoglutarate to maintain the TCA cycle (anaplerosis) and ATP production. Such changes could result in heretofore uncharacterized pathogenesis, potentially implicating HCMV as a subtle cofactor in many maladies, including oncogenesis. Recognition of the effects of HCMV, and other viruses, on host cell metabolism will provide new understanding of viral pathogenesis and novel avenues for antiviral therapy. 相似文献
54.
Kaufmann D Gassen A Maiser A Leonhardt H Janzen CJ 《Biochemical and biophysical research communications》2012,419(4):698-702
As in most eukaryotic cells, replication is regulated by a conserved group of proteins in the early-diverged parasite Trypanosoma brucei. Only a few components of the replication machinery have been described in this parasite and regulation, sub-nuclear localization and timing of replication are not well understood. We characterized the proliferating cell nuclear antigen in T. brucei (TbPCNA) to establish a spatial and temporal marker for replication. Interestingly, PCNA distribution and regulation is different compared to the closely related parasites Trypanosoma cruzi and Leishmania donovani. TbPCNA foci are clearly detectable during S phase of the cell cycle but in contrast to T. cruzi they are not preferentially located at the nuclear periphery. Furthermore, PCNA seems to be degraded when cells enter G2 phase in T. brucei suggesting different modes of replication regulation or functions of PCNA in these closely related eukaryotes. 相似文献
55.
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57.
Efficiency of utilization of the simian virus 40 late polyadenylation site: effects of upstream sequences. 总被引:59,自引:26,他引:33
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The late polyadenylation signal of simian virus 40 functions with greater efficiency than the early polyadenylation signal, in turn affecting steady-state mRNA levels. Two chloramphenicol acetyltransferase (CAT) transient expression vectors, pL-EPA and pL-LPA, that differ only in their polyadenylation signals were constructed by using the early and late polyadenylation signals, respectively. In transfections of Cos, CV-1P, or HeLa cells and subsequent Northern blot analysis of CAT-specific RNA, approximately five times more steady-state CAT mRNA was produced in transfections with pL-LPA than with pL-EPA. The basis for this difference was not related to the specific promoter used or to RNA stability. Overall, the difference in steady-state mRNA levels derived from the two plasmids appeared to be attributable to intrinsic properties of the two polyadenylation signals, resulting in distinctly different cleavage and polyadenylation efficiencies. Additionally, we found that the utilization of the late polyadenylation site was dramatically reduced by deletion of sequences between 48 and 29 nucleotides 5' of the AAUAAA hexanucleotide. This reduction of mRNA levels was shown not to be caused by altered stability of mutant precursor RNAs or mRNAs, suggesting that these upstream sequences constitute an element of the late polyadenylation signal and may cause, at least to some extent, the greater efficiency of utilization of the late polyadenylation site. 相似文献
58.
59.
Translational control of synthesis of simian virus 40 late proteins from polycistronic 19S late mRNA. 总被引:3,自引:1,他引:2
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The simian virus 40 (SV40) 19S late mRNA is polycistronic, encoding multiple late proteins: agnoprotein, VP2, and VP3. We constructed a chloramphenicol acetyltransferase (CAT) transient expression vector in which the SV40 sequences between nucleotides 5171 and 1046 (via the SV40 origin of replication and including the late promoter) were inserted 5' to the cat gene; therefore, the AUG for CAT expression occurs after the AUGs for agnoprotein, VP2, and VP3. CAT enzyme activity assayed after transfection of these constructions indicates the level of CAT AUG utilization and, therefore, can be used as a measure of the ability of prior AUGs to intercept scanning ribosomes. Specifically, deletions and point mutations of the viral AUGs resulted in increased CAT enzyme activity owing to increased utilization of the downstream CAT AUG. To compare a variety of mutants, we used the levels of increase to calculate the translational efficiency of the viral AUGs. Some of our data agree with predictions of the modified scanning model (MSM). Little variation in downstream CAT AUG utilization was noted regardless of whether the VP2 AUG (in a weak MSM sequence context) was intact or removed. Hence, a scanning ribosome may easily bypass it. Similar analysis of the VP3 AUG (in a favorable MSM sequence context) demonstrated that it could efficiently intercept ribosomes prior to the downstream AUG. Overall, these data indicate that the structure of the 19S late mRNA and the relative efficiency of translational start codon utilization can account for the VP3/VP2 ratio found in infected cells. The agnoprotein reading frame, depending on how the mRNA precursor is spliced, is either not contained in the mRNA or is terminated near the VP2 AUG. Under these conditions, the ability of the agnoprotein AUG to block downstream CAT AUG utilization was found to be minimal in our assay. However, we directly tested the blocking ability of the agnoprotein AUG under conditions in which the reading frame terminated well after the CAT AUG. Although the agnoprotein AUG lies in a very good sequence context, this direct analysis showed that it interfered minimally with utilization of the CAT AUG when under the control of the SV40 late promoter. However, expected high levels of interference were regained when the late promoter was replaced with the Rous sarcoma virus long terminal repeat.(ABSTRACT TRUNCATED AT 400 WORDS) 相似文献
60.
During cell and tissue differentiation of developing rye (Secale cereale L.) and maize (Zea mays L.) primary leaves, various flavonoids are synthesized and accumulate in both epidermal and mesophyll tissues. In order to prove either the biosynthetic autonomy of each tissue type and- or intercellular transport of flavonoids, the tissue distributions of chalcone synthase (CHS; EC 2.3.1.74), the key enzyme of the pathway, and of flavonoids have been comparatively investigated. Monoclonal antibodies raised against CHS from rye were used to relate enzyme activity in a particular tissue extract to the corresponding amount of CHS protein. A close correlation was found between CHS activities and amounts of CHS protein during leaf development and in the various tissues. The simultaneous occurrence of CHS in both epidermal layers as well as in the mesophyll correlated with the accumulation of flavonoid products in these tissues, indicating tissue autonomy of flavonoid biosynthesis. These data are in contrast to previous reports (Knogge and Weissenböck, 1986, Planta 167, 196–205) on primary leaves of oat (Avena sativa) where CHS and several subsequent enzymes were located mainly in the mesophyll whereas major flavonoid products accumulated predominantly in both epidermal cell layers, indicating that intertissue transport of flavonoids might occur. 相似文献