HLA DQ protein changes the cell surface distribution pattern of HLA proteins as monitored by Förster resonance energy transfer and high‐resolution electron microscopy

Author:

Kormos József1ORCID,Veres Adrienn J.1,Imre László1,Mátyus László1,Benkő Szilvia2,Szöllősi János13ORCID,Jenei Attila14

Affiliation:

1. Department of Biophysics and Cell Biology, Faculty of Dentistry University of Debrecen Debrecen Hungary

2. Department of Physiology, Faculty of Medicine University of Debrecen Debrecen Hungary

3. ELKH‐DE Cell Biology and Signaling Research Group (Eötvös Loránd Research Network‐University of Debrecen), Faculty of Medicine University of Debrecen Debrecen Hungary

4. Department of Basic Medical Sciences, Faculty of Dentistry University of Debrecen Debrecen Hungary

Abstract

AbstractPeptide presentation by MHC class I and MHC class II molecules plays important roles in the regulation of the immune response. One factor in these displays is the density of antigen, which must exceed a critical threshold for the effective activation of T cells. Nonrandom distribution of MHC class I and class II has already been detected at the nanometer level and at higher hierarchical levels. It is not clear how the absence and reappearance of some protein molecules can influence the nonrandom distribution. Therefore, we performed experiments on HLA II‐deficient bare lymphocyte syndrome (BLS1) cells: we created a stable transfected cell line, tDQ6‐BLS‐1, and were able to detect the effect of the appearance of HLA‐DQ6 molecules on the homo and heteroassociation of different cell surface molecules by comparing Förster resonance energy transfer (FRET) efficiency on transfected cells to that on nontransfected BLS‐1 and JY human B‐cell lines. Our FRET results show a decrease in homoassociation FRET between HLA I chains in HLA‐DQ6‐transfected tDQ6‐BLS‐1 cells compared with the parent BLS‐1 cell line and an increase in heteroassociation FRET between HLA I and HLA II (compared with JY cells), suggesting a similar pattern of antigen presentation by the HLA‐DQ6 allele. Transmission electron microscopy (TEM) revealed that both HLA class I and class II molecules formed clusters at higher hierarchical levels on the tDQ6‐BLS‐1 cells, and the de novo synthesized HLA DQ molecules did not intersperse with HLA class I islands. These observations could be important in understanding the fine tuning of the immune response.

Publisher

Wiley

Subject

Cell Biology,Histology,Pathology and Forensic Medicine

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