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Drug
Enzyme
Compound
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Target Concepts:
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Query: UNIPROT:P11021 (
BiP
)
2,049
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hep G2 cells produce surplus A alpha and gamma fibrinogen chains. These excess chains, which are not secreted, exist primarily as free gamma chains and as an A alpha-gamma complex. We have determined the intracellular location and the degradative fate of these polypeptides by treatment with endoglycosidase-H and by inhibiting lysosomal enzyme activity, using NH4Cl, chloroquine, and leupeptin. Free
gamma chain
and the gamma component of A alpha-gamma are both cleaved by endoglycosidase-H, indicating that the gamma chains accumulate in a pre-Golgi compartment. Lysosomal enzyme inhibitors did not affect the disappearance of free gamma chains but inhibited A alpha-gamma by 50%, suggesting that A alpha-gamma is degraded in lysosomes. The degradative fate of individual chains was determined in transfected COS cells which express but do not secrete single chains. Leupeptin did not affect B beta chain degradation, had very little affect on
gamma chain
, but markedly inhibited A alpha chain degradation. Antibody to immunoglobulin heavy chain-binding protein (GRP 78) co-immunoprecipitated B beta but not A alpha or gamma chains. Preferential binding of heavy chain-binding protein to B beta was also noted in Hep G2 cells and in chicken hepatocytes. Taken together these studies indicate that B beta and gamma chains are degraded in the endoplasmic reticulum, but only B beta is bound to
BiP
. By contrast A alpha chains and the A alpha-gamma complex undergo lysosomal degradation.
...
PMID:Assembly and secretion of fibrinogen. Degradation of individual chains. 142 62
cDNAs of fibrinogen A alpha and gamma chains were individually subcloned into a eukaryotic expression vector by using the polymerase chain reaction. Triple cotransfection into COS cells of the two plasmids together with a B beta chain expression plasmid, constructed as described previously (Danishefsky, K.J., Hartwig, R., Banerjee, D., and Redman, C. (1990) Biochim. Biophys. Acta 1048, 202-208), resulted in the secretion of complete fibrinogen into the media and the formation of four additional intracellular complexes which we also showed to be present in the hepatocyte cell line Hep 3B. The complexes, which have Mr = 232, 150, 135, and 128 (x 10(-3) conform with the Mr expected for A alpha B beta gamma 2, B beta gamma 2 and gamma 3, respectively. A A mechanism of assembly is proposed based on the assumption that all these complexes are precursors of complete fibrinogen. Each of the expressed fibrinogen chains in transfected COS cells interacts noncovalently with binding protein (
BiP
, GRP 78), but not to the same extent;
gamma chain
binds less
BiP
than the A alpha and B beta chains. Assembly of fibrinogen is not absolutely required for its secretion. In addition to complete fibrinogen, the conditioned media of hepatocytes and of transfected COS cells contained free A alpha, free gamma, and two of the above-mentioned complexes, A alpha gamma 2 and A alpha B beta gamma 2.
...
PMID:Studies on the assembly and secretion of fibrinogen. 182 7
The first constant domain (CH1) of immunoglobulin heavy (H) chains is essential for
BiP
-mediated retention of unassembled H chains in the endoplasmic reticulum (ER). Here, we demonstrated that both wild-type and a mutant
gamma chain
lacking the CH1 domain bind
BiP
when they are reduced in vivo. However, only oxidized mutant H chain dimers are released from
BiP
interaction, whereas oxidized wild-type
gamma chain
dimers still bind
BiP
. In light (L) chain-producing cells, some of the mutant H chains accumulate with L chains in ER-derived vesicles and some are secreted as IgG. Furthermore, only half of the secreted antibodies bind antigen. We found the same with a mutant
gamma chain
, in which the CH1 domain was replaced by a CH3 domain. Therefore, we propose that
BiP
interaction with incompletely folded CH1 domains is required to mediate correct assembly of H and L chains.
...
PMID:Coordination of immunoglobulin chain folding and immunoglobulin chain assembly is essential for the formation of functional IgG. 779 96
The production of human monoclonal antibodies for therapeutic use is of increasing importance for treatment of viral infections such as AIDS. As human x mouse heterohybridomas rarely reach the growth rates and cell specific production rates of mouse hybridomas the transfection of standard cell lines, such as CHO or BHK, is a promising alternative. This has the additional advantage that the IgG subtype can be changed to suit the desired application. However, the use of a cell line that has not originally developed to produce antibodies, as lymphocytes and myeloma cells have, might have unrecognised drawbacks. This will be especially significant in the case of antibodies as each molecule consists of 4 chains linked by disulphide bonds which require specific intracellular factors to be properly folded and processed (Heavy chain binding protein, Protein Disulfide Isomerase a.o.). In this study we have therefore compared two cell lines: a human x mouse heterohybridoma producing IAM-2F5, a human IgG(3) antibody specific for HIV-1 with neutralising properties and a Chinese Hamster Ovary cell transfected with dihydrofolate reductase and with the heavy and light chain genes of IAM-2F5 modified to IgG(1). From each cell line three subclones were selected with low, medium and high specific production rates. Batch cultures were performed and the following cellular parameters analysed by flow cytometry; 1) total RNA content (translational activity); 2) total protein content; 3) cell cycle phase distribution; 4) concentration of light and heavy chains; 5) concentration of helper proteins such as
BiP
and PDI. The production rate of heterohybridoma cells was best reflected in the intracellular concentration of kappa chain, while the
gamma chain
concentration was comparable for all three subclones. In the CHO cells the
gamma chain
expression and thus gene copy number appeared to be the limiting factor. The GRP78/
BiP
concentration in CHO remained unchanged in spite of a 5-fold higher concentration of
gamma chain
in the high producing subclone. The PDI concentration in CHO cells was much lower compared to the heterohybridoma cells, irrespective of production rates.
...
PMID:Comparison of the production of a human monoclonal antibody against HIV-1 by heterohybridoma cells and recombinant CHO cells: A flow cytometric study. 2235 23
