HLA-G peptide preferences change in transformed cells: impact on the binding motif

Celik, Alexander A.; Simper, Gwendolin S.; Hiemisch, Wiebke; Blasczyk, Rainer; Bade‐Doeding, Christina

doi:10.1007/s00251-018-1058-2

Cited by 15 publications

(22 citation statements)

References 76 publications

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“…According to the method described by Bade-Doeding et al (Bade-Doeding et al 2011 ), HEK293T cells were transfected with the target plasmid along with the packaging and envelope vectors psPAX2 and pmD2G. LCL721.221 cells were stably transduced; the expression of trimeric sHLA-F*01:01 molecules was confirmed by ELISA as previously described (Celik et al 2018b ).…”

Section: Methodsmentioning

confidence: 99%

“…HLA-Ib molecules are involved in a diverse range of functions in adaptive and innate immunity. In recent years, knowledge about the function (Wagner et al 2017 ; Kraemer et al 2015 ; Celik et al 2018a ) and biophysical features (Celik et al 2018b ; Celik et al 2016 ; Petrie et al 2008 ) of HLA-Ib molecules are engaged in the fundamental understanding of tumor immunosurveillance, pathogen recognition, regulation of autoimmunity and virus-induced immunopathology (Kochan et al 2013 ; Rebmann et al 2014 ; Hofstetter et al 2011 ), their upregulation during pathogenic episodes support the mediation of immune tolerance (Celik et al 2018b ). During viral infection, HLA-E is upregulated on the cell surface and avoids the recognition of infected HLA-Ia empty cells by NK cell (Kraemer et al 2014 ).…”

Section: Introductionmentioning

confidence: 99%

“…Before being presented by an HLA-Ib molecule, the selection criteria are understandably more severe due to the limited polymorphisms in HLA-Ib molecules (Braud et al 1997 ). While peptide/HLA-E expression levels are highly dependent on cellular stress (van Hall et al 2010 ; Sasaki et al 2016 ), HLA-G selects tissue-specific peptides (Celik et al 2018b ) that are independent of peptide anchor motifs (Celik et al 2018a ). The restricted interaction between peptide/HLA-F (pHLA-F) complexes and the NK cell receptor KIR3DS1 during HIV infection suggests that understanding HLA-F peptide selection and presentation is functionally important.…”

Section: Introductionmentioning

confidence: 99%

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HLA-F*01:01 presents peptides with N-terminal flexibility and a preferred length of 16 residues

et al. 2019

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HLA-F belongs to the non-classical HLA-Ib molecules with a marginal polymorphic nature and tissue-restricted distribution. HLA-F is a ligand of the NK cell receptor KIR3DS1, whose activation initiates an antiviral downstream immune response and lead to delayed disease progression of HIV-1. During the time course of HIV infection, the expression of HLA-F is upregulated while its interaction with KIR3DS1 is diminished. Understanding HLA-F peptide selection and presentation is essential to a comprehensive understanding of this dynamic immune response and the molecules function. In this study, we were able to recover stable pHLA-F*01:01 complexes and analyze the characteristics of peptides naturally presented by HLA-F. These HLA-F-restricted peptides exhibit a non-canonical length without a defined N-terminal anchor. The peptide characteristics lead to a unique presentation profile and influence the stability of the protein. Furthermore, we demonstrate that almost all source proteins of HLA-F-restricted peptides are described to interact with HIV proteins. Understanding the balance switch between HLA-Ia and HLA-F expression and peptide selection will support to understand the role of HLA-F in viral pathogenesis. Electronic supplementary material The online version of this article (10.1007/s00251-019-01112-1) contains supplementary material, which is available to authorized users.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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HLA-F*01:01 presents peptides with N-terminal flexibility and a preferred length of 16 residues

et al. 2019

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“…These observations agree with prior structural analyses that have reported more shallow HLA-C binding clefts 24 , as higher abundance and elevated hydrophobicity of cognate peptides could compensate for decreased binding stability. We noted that HLA-G peptides had an even stronger bias towards lower cleavability scores, possibly due to the lack of HLA-G training data for the cleavability predictor and may suggest differential protease activity in shaping the HLA-G ligandome 25 . Other differences with smaller effect sizes were also observed which altogether prompted us to model extrinsic properties per HLA loci in pan-allele predictors.…”

Section: Peptide-extrinsic Properties Vary Per Hla and Lengthmentioning

confidence: 91%

A large peptidome dataset improves HLA class I epitope prediction across most of the human population

et al. 2019

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“…In terms of peptide presentation, HLA-G differs from other HLA-Ib molecules like HLA-E that presents a very restricted peptide repertoire derived from the signal sequence of other HLA molecules irrespectively of the HLA-E-expressing tissue [7]. In contrast, HLA-G is considered to be a classical peptide presenter like HLA-Ia molecules; however, its peptide repertoire is restricted to the tissue distribution and cell type [7,69,70]. Peptide identification of HLA subtypes is usually performed by affinity purification of the desired HLA molecule from a selected tissue/cell type followed by peptide isolation and mass spectrometric sequencing.…”

Section: Hla-gmentioning

confidence: 99%

Dynamic Interaction between Immune Escape Mechanism and HLA-Ib Regulation

Hò¹,

Heinen²,

Stieglitz³

et al. 2019

Immunogenetics

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HLA molecules scan the intracellular proteome and present self-or non-selfpeptides to immune effector cells. HLA-Ia (HLA-A, HLA-B and HLA-C) are the most polymorphic genes, resulting in various numbers of allelic variants expressed on the surface of almost all nucleated cells. In contrast to HLA-Ia molecules that activate the immune system during pathogenic invasion, the marginal polymorphic HLA-Ib molecules (HLA-E, HLA-F and HLA-G) are upregulated during pathogenic episodes and mediate immune tolerance. A fine tuning between downregulation of HLA-Ia and upregulation of HLA-Ib can be observed through immunological episodes that require to remain unrecognized by immune effector cells. While HLA-Ia molecules collaborate by presenting a wide range of peptides, every HLA-Ib molecule is highly specialized in its protective immune function and seems to be restricted in the presentation of peptides. Additionally, Ia molecules are expressed ubiquitously while the expression of HLA-Ib molecules is strictly restricted to certain tissues and occurs instantly on demand of the cells/tissue that attempt to be hidden from the immune system. The more knowledge becomes available for the function of HLA-Ib molecules; the question emerges if the molecular typing of HLA-Ib molecules would be reasonable to take a decision post treatment for personalized cellular therapies.

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HLA-G peptide preferences change in transformed cells: impact on the binding motif

Cited by 15 publications

References 76 publications

HLA-F*01:01 presents peptides with N-terminal flexibility and a preferred length of 16 residues

HLA-F*01:01 presents peptides with N-terminal flexibility and a preferred length of 16 residues

A large peptidome dataset improves HLA class I epitope prediction across most of the human population

Dynamic Interaction between Immune Escape Mechanism and HLA-Ib Regulation

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