| Literature DB >> 27871782 |
Hana Guberina1, Vera Rebmann2, Bettina Wagner2, Fabiola da Silva Nardi3, Phillip Dziallas2, Sebastian Dolff4, Anja Bienholz5, Jeremias Wohlschlaeger6, Agnes Bankfalvi6, Falko M Heinemann2, Oliver Witzke4, Yvonne M Zoet7, Frans H J Claas7, Peter A Horn2, Andreas Kribben5, Ilias I N Doxiadis7.
Abstract
Non-classical Human Leukocyte Antigen (HLA)-E preferentially presents leader peptides derived from classical HLA-class I molecules. HLA-E can trigger opposed immune responses by interacting with inhibitory NKG2A or by activating NKG2C receptors on NK and T-cells. We studied the impact of HLA-E on renal allograft survival during acute cellular rejection. HLA-E expression was up-regulated in acute cellular rejection (ACR) biopsies (n=12) compared to biopsies from 13 renal allografts with no rejection-signs. HLA-E up-regulation was correlated with numbers of HLA-class I leader peptide mismatches (p=0.04). CD8+ and CD56+ infiltrating cells correlated with HLA-E expression (p<0.0001 and p=0.0009, respectively). Activating NKG2C receptor dominated on effector cells in biopsies and peripheral blood during ACR potentially allowing HLA-E-mediated immune activation. Moreover, HLA-E expression correlated with deterioration in renal allograft function (p<0.008) and reduced allograft survival (p=0.002). Our findings provide evidence that during renal allograft rejection HLA-E along with high numbers of mismatched HLA-class I leader peptides might represent additional targets for immune-activating responses.Entities:
Keywords: Acute cellular rejection; Adaptive immunity; HLA class I leader peptides; HLA-E; NKG2C; Renal transplantation
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Year: 2016 PMID: 27871782 DOI: 10.1016/j.imbio.2016.10.021
Source DB: PubMed Journal: Immunobiology ISSN: 0171-2985 Impact factor: 3.144