scholarly journals Introduction of B-chain-inactivated ricin into mouse macrophages and rat Kupffer cells via their membrane Fc receptors.

1976 ◽  
Vol 143 (6) ◽  
pp. 1464-1474 ◽  
Author(s):  
K Refsnes ◽  
A C Munthe-Kaas
Keyword(s):  
Protein Synthesis ◽  
Cell Membrane ◽  
Kupffer Cells ◽  
Fc Receptors ◽  
Peritoneal Macrophages ◽  
Cellular Protein ◽  
Membrane Receptors ◽  
Soluble Antigen ◽  
Surface Receptors ◽  
Cellular Protein Synthesis

Experiments have been made to test whether the toxic lectin ricin can be bound to and introduced into cells by some other mechanism than via its B chain, the natural binding moiety of the toxin, without its toxic effect being neutralized. Complexes consisting of ricin and antibodies specifically directed against ricin B chain were incubated with mouse peritoneal macrophages and rat Kupffer cells, which are known to possess surface receptors for the Fc portion of the immunoglobulin molecule. After incubation for 26 h, cellular protein synthesis, as measured by incorporation of labeled leucine into acid-insoluble material, was completely inhibited. HeLa cells, which do not possess Fc receptors, were unaffected by the complex. The effect of the complex on protein synthesis of macrophages was prevented by soluble antigen-antibody complexes, but not by the presence of lactose which prevents attachment of the ricin B chain to the cell membrane. The [ricin-antiricin B] complex was attached to red cells, and the resulting complex was incubated with rat Kupffer cells. Cellular protein synthesis ceased after 6 h, and phase contrast microscopy studies showed that the complexes were taken up by the Kupffer cells. The data indicate that ricin, when present in the complex with antiricin B, can be introduced into cells through cell membrane receptors other than the B chain receptor, in this case the Fc receptor, and that the internalized toxin retains a least part of its activity.

Le transport de la phénylalanine et de la tyrosine chez Brevibacterium linens : spécificité et incorporation dans les protéines

1984 ◽  
Vol 30 (4) ◽  
pp. 430-438 ◽  
Author(s):  
P. Boyaval ◽  
Evelyne Moreira ◽  
M. J. Desmazeaud
Keyword(s):  
Amino Acids ◽  
Protein Synthesis ◽  
Cellular Protein ◽  
Cellular Proteins ◽  
Resting Cells ◽  
Brevibacterium Linens ◽  
Competitive Inhibitors ◽  
High Concentrations ◽  
Cellular Protein Synthesis

The specificity of phenylalanine and tyrosine carriers was investigated using actively metabolizing cells of Brevibacterium linens. The cellular protein synthesis of resting cells was very weakly inhibited, even with high concentrations of chloramphenicol or tetracycline. The nonaromatic amino acids were weak inhibitors for these carriers, while fluorinated analogues of phenylalanine and tyrosine were very potent competitive inhibitors. In practice these analogues cannot be used to replace amino acids to evaluate transport without incorporation because they are incorporated in cellular proteins.

Effect of adenovirus on metabolism of specific host mRNAs: transport control and specific translational discrimination

1983 ◽  
Vol 3 (7) ◽  
pp. 1212-1221 ◽  
Author(s):  
A Babich ◽  
L T Feldman ◽  
J R Nevins ◽  
J E Darnell ◽  
C Weinberger
Keyword(s):  
Protein Synthesis ◽  
Host Cell ◽  
Cellular Protein ◽  
Host Protein ◽  
Cell Protein ◽  
Viral Mrna ◽  
Initiation Of Translation ◽  
Viral Mutant ◽  
Cellular Mrnas ◽  
Cellular Protein Synthesis

We have studied the adenovirus-induced inhibition of host cell protein synthesis and the effect of infection on the overall metabolism of host cell mRNA during the late phase of adenovirus infection by following the fate of a number of cellular mRNAs complementary to specific cloned DNA segments. At a time in infection when the rate of total cellular protein synthesis is drastically (greater than 90%) reduced, transcription of specific cellular genes is undiminished. However, the transport of newly synthesized cellular mRNA to the cytoplasm is greatly decreased. This decreased appearance of new mRNA in the cytoplasm cannot account for the observed cessation of cell specific protein synthesis, however, since the concentration of several preexisting cellular mRNAs, including the mRNA for actin, remains unchanged throughout the course of infection. The preexisting mRNA is intact, capped, and functional as judged by its ability to direct protein synthesis in vitro in a cap-dependent fashion. The interruption in host translation appears to operate at the level of initiation directly, since we find that fewer ribosomes are associated with a given cellular mRNA after infection than before infection. Furthermore, the in vivo inhibition of cellular protein synthesis does not appear to be the result of competition with viral mRNA, since conditions which prevent the efficient initiation of translation of viral mRNA (infection with a viral mutant) do not result in the recovery of cell translation. Thus, it appears that a late adenovirus gene product directly mediates a shutoff of host protein synthesis.

Normal Cellular Protein Synthesis and Heat Shock

1994 ◽  
pp. 61-76 ◽  
Author(s):  
Mark R. Brodl ◽  
Jacqueline D. Campbell ◽  
Kent K. Grindstaff ◽  
Lora Fielding
Keyword(s):  
Protein Synthesis ◽  
Heat Shock ◽  
Cellular Protein ◽  
Cellular Protein Synthesis

scholarly journals Structural Basis for Competitive Inhibition of eIF4G-Mnk1 Interaction by the Adenovirus 100-Kilodalton Protein

2004 ◽  
Vol 78 (14) ◽  
pp. 7707-7716 ◽  
Author(s):  
Rafael Cuesta ◽  
Qiaoran Xi ◽  
Robert J. Schneider
Keyword(s):  
Protein Synthesis ◽  
Competitive Inhibition ◽  
Late Phase ◽  
Mrna Translation ◽  
Cellular Protein ◽  
Structural Basis ◽  
Binding Motif ◽  
Amino Acid Peptide ◽  
Cellular Mrnas ◽  
Cellular Protein Synthesis

ABSTRACT Translation of most cellular mRNAs involves cap binding by the translation initiation complex. Among this complex of proteins are cap-binding protein eIF4E and the eIF4E kinase Mnk1. Cap-dependent mRNA translation generally correlates with Mnk1 phosphorylation of eIF4E when both are bound to eIF4G. During the late phase of adenovirus (Ad) infection translation of cellular mRNA is inhibited, which correlates with displacement of Mnk1 from eIF4G by the viral 100-kDa (100K) protein and dephosphorylation of eIF4E. Here we describe the molecular mechanism for 100K protein displacement of Mnk1 from eIF4G and elucidate a structural basis for eIF4G interaction with Mnk1 and 100K proteins and Ad inhibition of cellular protein synthesis. The eIF4G-binding site is located in an N-terminal 66-amino-acid peptide of 100K which is sufficient to bind eIF4G, displace Mnk1, block eIF4E phosphorylation, and inhibit eIF4F (cap)-dependent cellular mRNA translation. Ad 100K and Mnk1 proteins possess a common eIF4G-binding motif, but 100K protein binds more strongly to eIF4G than does Mnk1. Unlike Mnk1, for which binding to eIF4G is RNA dependent, competitive binding by 100K protein is RNA independent. These data support a model whereby 100K protein blocks cellular protein synthesis by coopting eIF4G and cap-initiation complexes regardless of their association with mRNA and displacing or blocking binding by Mnk1, which occurs only on preassembled complexes, resulting in dephosphorylation of eIF4E.

Pyridalyl inhibits cellular protein synthesis in insect, but not mammalian, cell lines

2008 ◽  
Vol 69 (1) ◽  
pp. 22-31 ◽  
Author(s):  
Koko Moriya ◽  
Setsuko Hirakura ◽  
Jun Kobayashi ◽  
Yoshihisa Ozoe ◽  
Shigeru Saito ◽  
...  
Keyword(s):  
Protein Synthesis ◽  
Cell Lines ◽  
Mammalian Cell ◽  
Cellular Protein ◽  
Mammalian Cell Lines ◽  
Cellular Protein Synthesis

Evidence that Sindbis virus infects BHK-21 cells via a lysosomal route

1980 ◽  
Vol 58 (10) ◽  
pp. 1131-1137 ◽  
Author(s):  
Pierre J. Talbot ◽  
Dennis E. Vance
Keyword(s):  
Protein Synthesis ◽  
Virus Infection ◽  
Sindbis Virus ◽  
Cellular Protein ◽  
Additive Effects ◽  
Lysosomal Function ◽  
Virus Particles ◽  
Lysosomal Ph ◽  
Weak Bases ◽  
Cellular Protein Synthesis

Chloroquine and NH4Cl, potent inhibitors of lysosomal function, decreased the production of infectious Sindbis virus particles in BHK-21 cells by 10- and 12-fold, respectively. There were no apparent toxic effects on cells exposed to these lysosomotropic agents. These chemicals did not alter the rate of cellular protein synthesis, with the exception of a reversible twofold inhibition by chloroquine. No additive effects of chloroquine and NH4Cl were observed when the cells were saturated with these weak bases, which suggests that their effect is exerted via the same mechanism, most likely as a result of an increase in lysosomal pH. The reduction in the formation of Sindbis virions was monitored by incorporation of [35S]methionine and shown to be fourfold by chloroquine or NH4Cl at 5 h postinfection but negligible at 11 h postinfection. These results strongly suggest that a productive Sindbis virus infection requires functional lysosomes. Thus, endocytosis is probably the main infectious mechanism for penetration of this virus into BHK-21 cells.

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