Endoplasmic reticulum degradation-enhancing α-mannosidase-like protein 1 targets misfolded HLA-B27 dimers for endoplasmic reticulum-associated degradation.

OBJECTIVE: HLA-B27 forms misfolded heavy chain dimers, which may predispose individuals to inflammatory arthritis by inducing endoplasmic reticulum (ER) stress and the unfolded protein response (UPR). This study was undertaken to define the role of the UPR-induced ER-associated degradation (ERAD) pathway in the disposal of HLA-B27 dimeric conformers. METHODS: HeLa cell lines expressing only 2 copies of a carboxy-terminally Sv5-tagged HLA-B27 were generated. The ER stress-induced protein ER degradation-enhancing α-mannosidase-like protein 1 (EDEM1) was overexpressed by transfection, and dimer levels were monitored by immunoblotting. EDEM1, the UPR-associated transcription factor X-box binding protein 1 (XBP-1), the E3 ubiquitin ligase hydroxymethylglutaryl-coenzyme A reductase degradation 1 (HRD1), and the degradation-associated proteins derlin 1 and derlin 2 were inhibited using either short hairpin RNA or dominant-negative mutants. The UPR-associated ERAD of HLA-B27 was confirmed using ER stress-inducing pharamacologic agents in kinetic and pulse chase assays. RESULTS: We demonstrated that UPR-induced machinery can target HLA-B27 dimers and that dimer formation can be controlled by alterations to expression levels of components of the UPR-induced ERAD pathway. HLA-B27 dimers and misfolded major histocompatibility complex class I monomeric molecules bound to EDEM1 were detected, and overexpression of EDEM1 led to inhibition of HLA-B27 dimer formation. EDEM1 inhibition resulted in up-regulation of HLA-B27 dimers, while UPR-induced ERAD of dimers was prevented in the absence of EDEM1. HLA-B27 dimer formation was also enhanced in the absence of XBP-1, HRD1, and derlins 1 and 2. CONCLUSION: The present findings indicate that the UPR ERAD pathway can dispose of HLA-B27 dimers, thus presenting a potential novel therapeutic target for modulation of HLA-B27-associated inflammatory disease.

The MHC Class I heavy chain structurally conserved cysteines 101 and 164 participate in HLA-B27 dimer formation.

AIMS: The human leukocyte antigen (HLA)-B27 is strongly associated with a group of inflammatory arthritic disorders known as the spondyloarthropathies (SpAs). The unusual biochemistry of HLA-B27 has been proposed to participate in disease development, especially the enhanced ability of HLA-B27 to form several heavy chain-dimer populations. HLA-B27 possesses three unpaired cysteine (C) residues at position 67, 308, and 325, in addition to the four conserved cysteine residues at p101, 164, 203, and 259. C67 was proposed to participate in dimer formation of recombinant HLA-B27 protein and in vivo heavy chain-dimers. However, the structurally conserved C164 was demonstrated to participate in endoplasmic reticulum (ER) resident heavy chain-dimer formation. We therefore wanted to determine whether these aggregates involve cysteines other than C164 and the basis for the difference between the observed heavy chain-dimer species. RESULTS: We determined that C164 and C101 can form distinct dimer structures and that the heterogenous nature of heavy chain-dimer species is due to differences in both redox status and conformation. Different HLA-B27 dimer populations can be found in physiologically relevant cell types derived from HLA-B27-positive patients with inflammatory arthritis. In addition, HLA-B27 dimer formation can be correlated with cellular stress induction. INNOVATION: The use of both mutagenesis and manipulating cellular redox environments demonstrates that HLA-B27 dimerization requires both specific cysteine?cysteine interactions and conformations with differing redox states. CONCLUSION: HLA-B27 heavy chain-dimerization is a complex process and these findings provide an insight into HLA-B27 misfolding and a potential contribution to inflammatory disease development.

Rapid acidification and alkylation: redox analysis of the MHC class I pathway.

The technique of rapid acidification and alkylation can be used to characterise the redox status of oxidoreductases, and to determine numbers of free cysteine residues within substrate proteins. We have previously used this method to analyse interacting components of the MHC class I pathway, namely ERp57 and tapasin. Here, we have applied rapid acidification/alkylation as a novel approach to analysing the redox status of MHC class I molecules. This analysis of the redox status of the MHC class I molecules HLA-A2 and HLA-B27, which is strongly associated with a group of inflammatory arthritic disorders referred to as Spondyloarthropathies, revealed structural and conformational information. We propose that this assay provides a useful tool in the study of in vivo MHC class I structure.

Novel detection of in vivo HLA-B27 conformations correlates with ankylosing spondylitis association.

OBJECTIVE: The class I major histocompatibility complex (MHC) molecule HLA-B27 exhibits a strong association with the autoimmune inflammatory arthritis disorder ankylosing spondylitis (AS) and with other related spondylarthropathies. In the absence of both a defined autoimmune response and a target autoantigen(s), the propensity of HLA-B27 to misfold has been hypothesized to be a major parameter in disease pathogenesis. We undertook this study to test the hypothesis that HLA-B27 misfolding is due to exposure of cysteine residues within the heavy chain to the oxidizing environment of the endoplasmic reticulum. METHODS: A rapid acidification and alkylation modification method was used to examine cysteine residue exposure and accessibility within AS-associated and non-AS-associated HLA-B27 subtypes. RESULTS: This novel approach to probing in vivo class I MHC structure revealed that the HLA-B27 heavy chain adopts conformations not previously described. Furthermore, amino acid residues specific to subtypes HLA-B*2706, B*2709, and B*2704 can have an impact on these novel conformations and on cysteine residue exposure. CONCLUSION: HLA-B27 can adopt novel conformations, resulting in differential accessibility of cysteine residues, which can explain the propensity to misfold. Cysteine exposure in the HLA-B27 heavy chain is also affected by residues within the 114 and 116 regions, thereby providing a potential biochemical basis for the association of HLA-B27 subtypes with AS.

Role of single nucleotide polymorphisms of pro-inflammatory cytokine genes in the relationship between serum lipids and inflammatory parameters, and the lipid-lowering effect of fish oil in healthy males.

BACKGROUND AND AIMS: Lipid metabolism, obesity and inflammation are intimately related. Plasma triglycerides increase during the inflammatory response to pathogens and obesity increases inflammatory stress. Pro-inflammatory cytokines are secreted by adipocytes in uninfected obese subjects. Polymorphisms (SNPs) in cytokine genes influence the intensity of cytokine production and inflammatory stress. Fish oil has lipid-lowering and anti-inflammatory properties. The influence of cytokine gene polymorphisms on the interaction between adiposity, inflammation and the properties of fish oil is unknown. METHODS: Fasting plasma triglycerides, acute phase proteins and BMI were studied in 159 healthy men and the effect of 6 g/d fish oil for 12 weeks on the former two parameters studied. Subjects were genotyped for SNPs at positions -511, -174, +252 and -308 in the IL-1beta, IL-6, LT-alpha (TNF-beta) and TNF-alpha genes, respectively. Data were divided into three sub-groups of BMI, 16.7-22.8, 22.9-24.9 and 25.1-33.7 kg/m2, respectively. RESULTS: Correlations were apparent between CRP and triglycerides in the highest tertile r = 0.324, P < 0.05 and between CRP and serum amyloid in all tertiles. Mean concentrations of all three molecules were higher in the middle and highest tertile than in the lowest. Irrespective of BMI, CRP and triglycerides were positively correlated in subjects with a TNF-alpha-308GG, LT-alpha AG, IL-1beta-511TT and IL-6-174GG genotype. The latter three genotypes are associated with enhanced inflammation. Genotype and BMI interacted. Concentrations of triglyceride rose significantly with increasing tertile only in subjects with a LT-alpha AA genotype. CRP concentrations rose in subjects with a LT-alpha AG genotype. Triglycerides were lowered by fish oil. Pre-supplementation concentrations were correlated with the decrease, r = -0.494 P < 0.0001. Genotype influenced the effects of fish oil. A fall occurred in triglycerides, across tertiles of BMI, only in individuals possessing a LT-alpha+252 AA genotype. Irrespective of BMI, possession of an A allele of this SNP was necessary for the correlation to occur. CONCLUSIONS: Possession of genotypes associated with raised inflammatory stress strengthen the association between fasting plasma triglycerides and CRP. The ability of fish oil to exert a lipid-lowering, anti-inflammatory influence in healthy men is influenced by BMI and possession of the LT-alpha+252 A allele.