International Immunology

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International Immunology, Vol. 12, No. 10, 1409-1416, October 2000
© 2000 Japanese Society for Immunology

Blocked transport of soluble K^b molecules containing connecting peptide segment involved in calnexin association

Shu-Bing Qian and Shi-Shu Chen

Department of Biochemistry & Molecular Biology, Shanghai Second Medical University, 280 South Chongqing Road, Shanghai 200025, PRC

Correspondence to: S.-B. Qian

The molecular event governing the assembly of the MHC class I heavy chain–ß₂-microglobulin-peptide complex is still not fully understood. In order to characterize the transport properties of MHC class I molecules, several truncated H-2K^b genes were constructed and expressed in COS7 cells. Surprisingly, the expressed soluble molecule containing connecting peptide (CP) segment (sK^b_CP) did not secrete as efficiently as the one without CP (sK^b_CYT). When the sK^b_CP gene was transfected into a calnexin-deficient cell line CEM.NK^R, the amount of soluble K^b molecules in the supernatant was comparable with sK^b_CYT-transfected CEM.NK^R. To further demonstrate the different transport of sK^b_CP and sK^b_CYT within living cells, we attached green fluorescent protein (GFP) to the C-termini of both molecules and, as a comparison, to the full-length transmembrane counterpart (mK^b–GFP). While the mK^b–GFP-transfected cells showed the green fluorescence in the reticular network and the nuclear envelope, sK^b_CP–GFP showed obviously lump fluorescence of high intensity within cells. However, the distribution of sK^b_CYT–GFP was fairly uniform. Furthermore, GFP-tagged molecules allow us to analyze their interaction with other proteins in a direct, simple and quantitative method, designated immunofluorescence precipitation. The results showed that 60% of sK^b_CP–GFP molecules were associated with calnexin, while <10% with tapasin. Taken together with the results from sK^b_CYT–GFP and mK^b–GFP, it is reasonable to deduce that the CP segment is involved in the association of class I molecules with calnexin and the transmembrane region might play a dynamic role in the dissociation from calnexin. The suggested kinetic association of class I molecules with calnexin is likely to contribute to the different maturation rate between several class I alleles.

Keywords: calnexin, connecting peptide segment, kinetic association, MHC, transmembrane segment

Transmitting editor: T. Sasazuki

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Copyright © 2009 Japanese Society for Immunology

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