Rosa Sorrentino

Interaction between ERAP1 and HLA-B27 in ankylosing spondylitis implicates peptide handling in the mechanism for HLA-B27 in disease susceptibility

Ankylosing spondylitis is a common form of inflammatory arthritis predominantly affecting the spine and pelvis that occurs in approximately 5 out of 1,000 adults of European descent. Here we report the identification of three variants in the RUNX3, LTBR-TNFRSF1A and IL12B regions convincingly associated with ankylosing spondylitis (P < 5 × 10−8 in the combined discovery and replication datasets) and a further four loci at PTGER4, TBKBP1, ANTXR2 and CARD9 that show strong association across all our datasets (P < 5 × 10−6 overall, with support in each of the three datasets studied). We also show that polymorphisms of ERAP1, which encodes an endoplasmic reticulum aminopeptidase involved in peptide trimming before HLA class I presentation, only affect ankylosing spondylitis risk in HLA-B27–positive individuals. These findings provide strong evidence that HLA-B27 operates in ankylosing spondylitis through a mechanism involving aberrant processing of antigenic peptides.

Dual, Hla-B27 Subtype-Dependent Conformation of a Self-Peptide

The products of the human leukocyte antigen subtypes HLA-B*2705 and HLA-B*2709 differ only in residue 116 (Asp vs. His) within the peptide binding groove but are differentially associated with the autoimmune disease ankylosing spondylitis (AS); HLA-B*2705 occurs in AS-patients, whereas HLA-B*2709 does not. The subtypes also generate differential T cell repertoires as exemplified by distinct T cell responses against the self-peptide pVIPR (RRKWRRWHL). The crystal structures described here show that pVIPR binds in an unprecedented dual conformation only to HLA-B*2705 molecules. In one binding mode, peptide pArg5 forms a salt bridge to Asp116, connected with drastically different interactions between peptide and heavy chain, contrasting with the second, conventional conformation, which is exclusively found in the case of B*2709. These subtype-dependent differences in pVIPR binding link the emergence of dissimilar T cell repertoires in individuals with HLA-B*2705 or HLA-B*2709 to the buried Asp116/His116 polymorphism and provide novel insights into peptide presentation by major histocompatibility antigens.

HLA-DP Allele-Specific T Cell Responses to Beryllium Account for DP-Associated Susceptibility to Chronic Beryllium Disease

Occupational exposure to small molecules, such as metals, is frequently associated with hypersensitivity reactions. Chronic beryllium (Be) disease (CBD) is a multisystem granulomatous disease that primarily affects the lung, and occurs in ∼3% of individuals exposed to this element. Immunogenetic studies have demonstrated a strong association between CBD and possession of alleles of HLA-DP containing glutamic acid (Glu) at position 69 in the HLA-DPβ-chain. T cell clones were raised from three patients with CBD in whom exposure occurred 10 and 30 years previously. Of 25 Be-specific clones that were obtained, all were restricted by HLA-DP alleles with Glu at DPβ69. Furthermore, the proliferative responses of the clones were absolutely dependent upon DPβ Glu69 in that a single amino acid substitution at this position abolished the response. As befits a disease whose pathogenesis involves a delayed type hypersensitivity response, the large majority of Be-specific clones secreted IFN-γ (Th1) and little or no IL-4 (Th2) cytokines. This study provides insights into the molecular basis of DP2-associated susceptibility to CBD.

The interplay between the geographic distribution of HLA-B27 alleles and their role in infectious and autoimmune diseases: A unifying hypothesis

Due to its strong association with Ankylosing Spondylitis and the other Spondyloarthropathies, the HLA-B27 family of alleles and, in particular, the ancestral HLA-B*2705, has been the object of numerous studies. More recently, some novel interesting features have emerged such as the ability of HLA-B27 to confer resistance to the progression of HIV infection and to promote a spontaneous CD8+ T cell-mediated viral clearance of HCV. The co-occurrence of these protective and pathogenic features suggests a common ground, i.e. to promote a more pronounced immune/inflammatory response leading to an effective clearance of some pathogens on one side and to autoimmunity on the other. This might be due to the antigen presenting properties and/or to the co-inheritance of gene variants that contribute to an altered homeostasis in case of microbial infections or tissue injury. The existence of conserved HLA haplotypes have since long been thought to result from a selective pressure by some pathogens that have edited the immune response genes. The peculiar distribution of the ancestor HLA-B*2705 along a latitude-dependent gradient and the opposite distribution of their variants have suggested a correlation with endemic malaria. In this respect, Sardinia, a small Mediterranean island plagued by malaria, represents an interesting laboratory since its population is enriched in conserved HLA haplotypes and several genetic studies have disclosed their correlation with infectious and autoimmune diseases.

HLA-DP MOLECULES BIND COBALT : A POSSIBLE EXPLANATION FOR THE GENETIC ASSOCIATION WITH HARD METAL DISEASE

Metal dust inhalation induces an interstitial lung disease which may progress to pulmonary fibrosis (hard metal disease, HMD). Cobalt is believed to be the pathogenic agent of HMD. A strong genetic association of HMD with some HLA‐DP alleles has been reported although the role of these molecules in the occurrence of the fibrotic disorder remains unclear. A possible explanation of these findings is that HLA‐DP but not other HLA class II molecules can bind cobalt. This could have as a consequence an HLA‐DP‐mediated specific activation of the immune system. To test this hypothesis, we have set up an in vitro binding assay using 57Co and purified HLA‐DP and ‐DR molecules. The results indicate that HLA‐DP but not HLA‐DR molecules bind cobalt. Moreover, the presence of HLA‐DP Glu β69, which is associated with susceptibility to HMD, determines a higher metal uptake. Molecular modelling of HLA‐DP2 molecules places the Glu β69 residue in a position relevant in determining peptide specificity. The possibility that binding of cobalt by HLA‐DP molecules can interfere with their antigen presenting functions is discussed.

Conformational dimorphism of self-peptides and molecular mimicry in a disease-associated HLA-B27 subtype.

An interesting property of certain peptides presented by major histocompatibility complex (MHC) molecules is their acquisition of a dual binding mode within the peptide binding groove. Using x-ray crystallography at 1.4 Å resolution, we show here that the glucagon receptor-derived self-peptide pGR (412RRRWHRWRL420) is presented by the disease-associated human MHC class I subtype HLA-B*2705 in a dual conformation as well, with the middle of the peptide bent toward the floor of the peptide binding groove of the molecule in both binding modes. The conformations of pGR are compared here with those of another self-peptide (pVIPR, RRKWRRWHL) that is also displayed in two binding modes by HLA-B*2705 antigens and with that of the viral peptide pLMP2 (RRRWRRLTV). Conserved structural features suggest that the N-terminal halves of the peptides are crucial in allowing cytotoxic T lymphocyte (CTL) cross-reactivity. In addition, an analysis of T cell receptors (TCRs) from pGR- or pVIPR-directed, HLA-B27-restricted CTL clones demonstrates that TCR from distinct clones but with comparable reactivity may share CDR3α but not CDR3β regions. Therefore, the cross-reactivity of these CTLs depends on TCR-CDR3α, is modulated by TCR-CDR3β sequences, and is ultimately a consequence of the conformational dimorphism that characterizes binding of the self-peptides to HLA-B*2705. These results lend support to the concept that conformational dimorphisms of MHC class I-bound peptides might be connected with the occurrence of self-reactive CTL.

The naturally occurring polymorphism Asp116-->His116, differentiating the ankylosing spondylitis-associated HLA-B*2705 from the non-associated HLA-B*2709 subtype, influences peptide-specific CD8 T cell recognition.

HLA‐B27 molecules are interesting because of their strong association with ankylosing spondylitis (AS) and reactive arthritis (ReA). A pathogenetic role for these molecules has been postulated in presenting a putative ‐‐bb‐‐arthritogenic peptide to CD8 T cells. The HLA‐B*2709 subtype, although differing by a single amino acid (His116 → Asp116 ) from the wide spread and strongly AS‐associated subtype HLA‐B*2705, is not found in patients. Since residue 116 interacts with the C terminus of the peptide, it is possible that the two subtypes differ in their antigen‐presenting features. We show here that CD8 T cells can distinguish the two HLA‐B27 subtypes when presenting a same epitope derived from Epstein‐Barr virus‐latent membrane protein 2. Moreover, alanine scanning mutagenesis analysis revealed that the peptide residues relevant for such recognition are different depending on whether HLA‐B*2705 or ‐B*2709 molecules present the epitope. These results give support to the belief that functional differences determined by subtype‐specific polymorphisms can have a pathogenetic relevance and open up a new scenario where subtle modifications within the peptide/HLA ligand might be responsible for the differential association between HLA‐B27 subtypes and spondyloarthropathies.

Detection of complex alleles by direct analysis of DNA heteroduplexes.

DNA molecules derived from three alleles of the HLA-DRB3 locus and differing from each other at several nucleotide sites were denatured and cross-hybridized. Each allelic combination was found to generate a pair of heteroduplexes of different mobility. Their retardation as compared to homoduplexes was proportional to the number of mismatches. In each heteroduplexes pair the component possessing the highest number of Pyr-Pyr oppositions was the most retarded. The results are those predicted by a theoretical model implying a correlation between base-pair opening and bending of the DNA double helix. These observations introduce a new HLA typing method at the genomic level and indicate an experimental approach to the analysis of the superhelical DNA conformation as related to different types of base oppositions.

Age‐dependent association of idiopathic achalasia with vasoactive intestinal peptide receptor 1 gene

Abstract  Idiopathic achalasia is a rare disorder of the oesophagus of unknown aetio‐pathogenesis characterized by a myenteric inflammation, aperistalsis and insufficient lower oesophageal sphincter relaxation. Vasoactive intestinal peptide (VIP), present in the myenteric plexus, is involved in smooth muscle relaxation and acts as an anti‐inflammatory cytokine. The human VIP receptor 1 gene (VIPR1) is highly polymorphic and may play a role in idiopathic achalasia. One hundred and four consecutive patients and 300 random controls from the same geographic area were typed for five SNPs mapping in the VIPR1 gene. Patients with idiopathic achalasia show a significant difference in allele, genotype and phenotype distribution of SNP rs437876 mapping in intron 4. This association, however, was almost entirely due to the group of patients with late disease onset (P = 0.0005). These results strongly suggest that idiopathic achalasia is a heterogeneous disease with a different aetiology in cases with early or late disease onset.

HLA-DPB1 mismatch at position 69 is associated with high helper T lymphocyte precursor frequencies in unrelated bone marrow transplant pairs

HLA incompatibility between bone marrow recipient and unrelated donor pairs is often associated with severe acute graft-versus-host disease following bone marrow transplantation. Due to the extensive polymorphism of HLA genes, finding genotypically identical pairs is a difficult challenge. Therefore, it is crucial to single out the relevance of each HLA gene and, within each sequence, the polymorphic positions that induce a T-cell response. Among HLA class II genes, the relevance of HLA-DPB1 in inducing graft-versus-host disease is still controversial. In this study, we selected 37 bone marrow transplant pairs on the basis of HLA class I A and B identity as determined by isoelectric focusing and of class II identity as determined by serology and by low-resolution genomic typing. We analyzed them for the possible relationship between frequency of cytotoxic T lymphocyte and helper T lymphocyte precursors (CTLp and HTLp, respectively) and genomically determined class II mismatches. Seventeen pairs had high numbers of both CTLp and HTLp. They were not further considered because of the difficulty in determining whether the T-cell response was induced by class I or class II mismatches. Of the remaining pairs with low CTLp and high HTLp, six had disparities at HLA-DRB1 and HLA-DPB1 genes, and 14 differed only at the HLA-DPB1 locus. Among the latter pairs, we found a correlation between HLA-DPB1 mismatches and HTLp frequency, thus suggesting that disparity at this locus influences the alloreactive T-cell response. When the HTLp frequency was correlated with each single mismatch found in the 14 pairs, it appeared that the nature of the amino acid at position beta69 played a relevant role in inducing alloreactivity.