Literature DB >> 7543206

Secretion of recombinant human IgE-Fc by mammalian cells and biological activity of glycosylation site mutants.

R J Young1, R J Owens, G A Mackay, C M Chan, J Shi, M Hide, D M Francis, A J Henry, B J Sutton, H J Gould.   

Abstract

We have constructed an expression vector that leads to secretion of the whole Fc of human immunoglobulin E (hIgE-Fc) from mammalian cells at levels up to 100 mg/l of culture. Two surface glycosylation sites at Asn265 and Asn371 have been changed to glutamine, to obtain a more homogeneous preparation of hIgE-Fc for structural studies. Comparison of wild-type and mutant products revealed that Asn371 is rarely glycosylated in Chinese hamster ovary cells. Both the double mutant and wild-type hIgE-Fc bind to the high-affinity IgE receptor, Fc epsilon RI, with about the same affinity as myeloma IgE (Ka in the range 10(10)-10(11) M-1), and were able to sensitize isolated human basophils for anti-IgE triggering of histamine release. However, only the double mutant hIgE-Fc approached the affinity of myeloma IgE for the low-affinity receptor, Fc epsilon RII (Ka = 7.3 x 10(7) M-1), whereas the wild-type hIgE-Fc bound with a 10-fold lower affinity (Ka = 4.1 x 10(6) M-1).

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Year:  1995        PMID: 7543206     DOI: 10.1093/protein/8.2.193

Source DB:  PubMed          Journal:  Protein Eng        ISSN: 0269-2139


  20 in total

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5.  Circulating IgG autoanti-IgE antibodies in atopic patients block the binding of IgE to its low affinity receptor (CD23).

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7.  Advances in animal cell recombinant protein production: GS-NS0 expression system.

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9.  Crystal structure of IgE bound to its B-cell receptor CD23 reveals a mechanism of reciprocal allosteric inhibition with high affinity receptor FcεRI.

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10.  Conformational changes in IgE contribute to its uniquely slow dissociation rate from receptor FcɛRI.

Authors:  Mary D Holdom; Anna M Davies; Joanne E Nettleship; Sarah C Bagby; Balvinder Dhaliwal; Enrico Girardi; James Hunt; Hannah J Gould; Andrew J Beavil; James M McDonnell; Ray J Owens; Brian J Sutton
Journal:  Nat Struct Mol Biol       Date:  2011-04-24       Impact factor: 15.369
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