Distinct mechanisms survey the structural integrity of HLA-B27:05 intracellularly and at the surface

HLA-B*27:05 is associated with the development of autoimmune spondyloarthropathies, but the precise causal relationship between the MHC haplotype and disease pathogenesis is yet to be elucidated. Studies focusing on the structure and cellular trafficking of HLA-B*27:05 implicate several links betwee...

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Veröffentlicht in:	PloS one 2018-08, Vol.13 (8), p.e0200811-e0200811
Hauptverfasser:	Hein, Zeynep, Borchert, Britta, Tolba Abualrous, Esam, Springer, Sebastian
Format:	Artikel
Sprache:	eng
Schlagworte:	Antigen presentation Antigen-presenting cells Antigens Arthritis Biology and Life Sciences Cell surface Cellular structure Chemical bonds Cytotoxicity Development and progression Disease Endoplasmic reticulum Engineering and Technology Etiology Etiology (Medicine) Histocompatibility antigen HLA HLA antigens Immunoglobulins Intracellular Life sciences Ligands Major histocompatibility complex Medicine and Health Sciences Pathogenesis Peptides Physical Sciences Proteins Quality control Research and Analysis Methods Risk factors Spondyloarthropathies Spondyloarthropathy Structural integrity
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description	HLA-B27:05 is associated with the development of autoimmune spondyloarthropathies, but the precise causal relationship between the MHC haplotype and disease pathogenesis is yet to be elucidated. Studies focusing on the structure and cellular trafficking of HLA-B27:05 implicate several links between the onset of inflammation and the unusual conformations of the molecule inside and at the surface of antigen presenting cells. Several lines of evidence emphasize the emergence of those unnatural protein conformations under conditions where peptide loading onto B27:05 is impaired. To understand how cellular factors distinguish between poorly loaded molecules from the optimally loaded ones, we have investigated the intracellular transport, folding, and cell surface expression of this particular B27 subtype. Our findings show that B27:05 is structurally unstable in the absence of peptide, and that an artificially introduced disulfide bond between residues 84 and 139 conferred enhanced conformational stability to the suboptimally loaded molecules. Empty or suboptimally loaded B27:05 can escape intracellular retention and arrive at the cell surface leading to the appearance of increased number of β2m-free heavy chains. Our study reveals a general mechanism found in the early secretory pathways of murine and human cells that apply to the quality control of MHC class I molecules, and it highlights the allotype-specific structural features of HLA-B27:05 that can be associated with aberrant antigen presentation and that might contribute to the etiology of disease.
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Studies focusing on the structure and cellular trafficking of HLA-B27:05 implicate several links between the onset of inflammation and the unusual conformations of the molecule inside and at the surface of antigen presenting cells. Several lines of evidence emphasize the emergence of those unnatural protein conformations under conditions where peptide loading onto B27:05 is impaired. To understand how cellular factors distinguish between poorly loaded molecules from the optimally loaded ones, we have investigated the intracellular transport, folding, and cell surface expression of this particular B27 subtype. Our findings show that B27:05 is structurally unstable in the absence of peptide, and that an artificially introduced disulfide bond between residues 84 and 139 conferred enhanced conformational stability to the suboptimally loaded molecules. Empty or suboptimally loaded B27:05 can escape intracellular retention and arrive at the cell surface leading to the appearance of increased number of β2m-free heavy chains. Our study reveals a general mechanism found in the early secretory pathways of murine and human cells that apply to the quality control of MHC class I molecules, and it highlights the allotype-specific structural features of HLA-B27:05 that can be associated with aberrant antigen presentation and that might contribute to the etiology of disease.</description><identifier>ISSN: 1932-6203</identifier><identifier>EISSN: 1932-6203</identifier><identifier>DOI: 10.1371/journal.pone.0200811</identifier><identifier>PMID: 30071035</identifier><language>eng</language><publisher>United States: Public Library of Science</publisher><subject>Antigen presentation ; Antigen-presenting cells ; Antigens ; Arthritis ; Biology and Life Sciences ; Cell surface ; Cellular structure ; Chemical bonds ; Cytotoxicity ; Development and progression ; Disease ; Endoplasmic reticulum ; Engineering and Technology ; Etiology ; Etiology (Medicine) ; Histocompatibility antigen HLA ; HLA antigens ; Immunoglobulins ; Intracellular ; Life sciences ; Ligands ; Major histocompatibility complex ; Medicine and Health Sciences ; Pathogenesis ; Peptides ; Physical Sciences ; Proteins ; Quality control ; Research and Analysis Methods ; Risk factors ; Spondyloarthropathies ; Spondyloarthropathy ; Structural integrity</subject><ispartof>PloS one, 2018-08, Vol.13 (8), p.e0200811-e0200811</ispartof><rights>COPYRIGHT 2018 Public Library of Science</rights><rights>2018 Hein et al. 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Studies focusing on the structure and cellular trafficking of HLA-B27:05 implicate several links between the onset of inflammation and the unusual conformations of the molecule inside and at the surface of antigen presenting cells. Several lines of evidence emphasize the emergence of those unnatural protein conformations under conditions where peptide loading onto B27:05 is impaired. To understand how cellular factors distinguish between poorly loaded molecules from the optimally loaded ones, we have investigated the intracellular transport, folding, and cell surface expression of this particular B27 subtype. Our findings show that B27:05 is structurally unstable in the absence of peptide, and that an artificially introduced disulfide bond between residues 84 and 139 conferred enhanced conformational stability to the suboptimally loaded molecules. Empty or suboptimally loaded B27:05 can escape intracellular retention and arrive at the cell surface leading to the appearance of increased number of β2m-free heavy chains. Our study reveals a general mechanism found in the early secretory pathways of murine and human cells that apply to the quality control of MHC class I molecules, and it highlights the allotype-specific structural features of HLA-B27:05 that can be associated with aberrant antigen presentation and that might contribute to the etiology of disease.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>30071035</pmid><doi>10.1371/journal.pone.0200811</doi><orcidid>https://orcid.org/0000-0002-6335-8961</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Antigen presentation Antigen-presenting cells Antigens Arthritis Biology and Life Sciences Cell surface Cellular structure Chemical bonds Cytotoxicity Development and progression Disease Endoplasmic reticulum Engineering and Technology Etiology Etiology (Medicine) Histocompatibility antigen HLA HLA antigens Immunoglobulins Intracellular Life sciences Ligands Major histocompatibility complex Medicine and Health Sciences Pathogenesis Peptides Physical Sciences Proteins Quality control Research and Analysis Methods Risk factors Spondyloarthropathies Spondyloarthropathy Structural integrity
title	Distinct mechanisms survey the structural integrity of HLA-B27:05 intracellularly and at the surface
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