Modeling the Ternary Complex TCR-Vβ/CollagenII(261–273)/HLA-DR4 Associated with Rheumatoid Arthritis

Background

It is known that genetic predisposition to rheumatoid arthritis (RA) is associated with the MHC class II allele HLA-DR4 and that residues 261–273 of type II collagen (huCollp261) represent an immunodominant T cell epitope restricted by the DR4 molecule. Despite recent advances in characterization of MHC and T cell receptor (TCR) contacts to this epitope, the atomic details of TCR/huCollp261/HLA-DR4 ternary complex are not known.

Methodology/Principal Findings

Here we have used computational modeling to get insight into this interaction. A three-dimensional model of the TCR Vβ domain from a DR4⁺ patient affected by RA has been derived by homology modeling techniques. Subsequently, the structure of the TCR Vβ domain in complex with huCollp261/HLA-DR4 was obtained from a docking approach in conjunction with a filtering procedure based on biochemical information. The best complex from the docking experiments was then refined by 20 ns of molecular dynamics simulation in explicit water. The predicted model is consistent with available experimental data. Our results indicate that residues 97–101 of CDR3β are critical for recognition of huCollp261/HLA-DR4 by TCR. We also show that TCR contacts on p/MHC surface affect the conformation of the shared epitope expressed by DR alleles associated with RA susceptibility.

Conclusions/Significance

This work presents a three-dimensional model for the ternary complex TCR-Vβ/collagenII(261–273)/HLA-DR4 associated with rheumatoid arthritis that can provide insights into the molecular mechanisms of self reactivity.     

Limited T Cell Receptor Repertoire Diversity in Tuberculosis Patients Correlates with Clinical Severity

Background

The importance of CD4⁺ and CD8⁺ T cells in protection against tuberculosis (TB) is well known, however, the association between changes to the T cell repertoire and disease presentation has never been analyzed. Characterization of T-cells in TB patients in previous study only analyzed the TCR β chain and omitted analysis of the Vα family even though α chain also contribute to antigen recognition. Furthermore, limited information is available regarding the heterogeneity compartment and overall function of the T cells in TB patients as well as the common TCR structural features of Mtb antigen specific T cells among the vast numbers of TB patients.

Methodology/Principal Findings

CDR3 spectratypes of CD4⁺ and CD8⁺ T cells were analyzed from 86 patients with TB exhibiting differing degrees of disease severity, and CDR3 spectratype complexity scoring system was used to characterize TCR repertoire diversity. TB patients with history of other chronic disease and other bacterial or viral infections were excluded for the study to decrease the likely contribution of TCRs specific to non-TB antigens as far as possible. Each patient was age-matched with a healthy donor group to control for age variability. Results showed that healthy controls had a normally diversified TCR repertoire while TB patients represented with restricted TCR repertoire. Patients with mild disease had the highest diversity of TCR repertoire while severely infected patients had the lowest, which suggest TCR repertoire diversity inversely correlates with disease severity. In addition, TB patients showed preferred usage of certain TCR types and have a bias in the usage of variable (V) and joining (J) gene segments and N nucleotide insertions.

Conclusions/Significance

Results from this study promote a better knowledge about the public characteristics of T cells among TB patients and provides new insight into the TCR repertoire associated with clinic presentation in TB patients.     

Mucosal associated invariant T cells: Don't forget your vitamins

T lymphocytes express clonal receptors, called T cell receptors (TCRs), which specifically recognize antigens presented in combination with major histocompatibility molecules (MHC). To date, T cell antigens can be broadly categorized into two classes: peptides and lipids. A recent paper published in Nature by Kjer-Nielsen and colleagues reveals that a unique population of T lymphocytes expresses TCRs that recognize a completely new and unexpected class of antigens, vitamin metabolites.The immune system has evolved a variety of defense mechanisms against foreign pathogens, including both innate and adaptive processes that work in concert to eliminate potential threats. The innate arm of the immune system includes cells that express a variety of non-polymorphic, generic receptors, which recognize structurally conserved molecules derived from microbes. In contrast, the adaptive arm includes cells that express clonally distributed variable receptors generated through somatic rearrangements of gene segments, which recognize specific antigens derived from pathogens. Engagement of these receptors at the surface of lymphocytes by their specific antigens results in clonal division and the production of cellular mediators. The variable receptors are immunoglobulin, expressed by B lymphocytes, and the αβ T cell receptor (TCR), expressed by the vast majority of T lymphocytes.In contrast with immunoglobulins, which can recognize virtually any antigenic structure, αβ TCRs recognize antigens that are displayed by antigen-presenting molecules, such as the ones encoded by the major histocompatibility complex (MHC). MHC class I and class II are polymorphic molecules that present a multitude of antigens in the form of peptides derived from pathogens. However, it is now clear that a significant fraction of T lymphocytes bear αβ TCRs that do not recognize conventional MHC molecules plus peptides but instead are directed at what has been labeled as “non-classical” MHC-like molecules. These “non-classical” MHC-like molecules are often encoded in the genome outside of the MHC locus itself and display little to no polymorphism. As such, a unique role in antigen presentation is usually expected from these “non-classical” MHC-like molecules. For example, H2-M3 molecules have the unique capacity to present bacteria-derived N-formylated peptides¹, while members of the CD1 family, which includes the well-studied CD1d molecule, present lipid antigens².While CD1d plus lipid complexes can be recognized by a variety of lymphocytes bearing different αβ TCRs, they are also the target of a unique innate-like T lymphocyte population called natural killer T (NKT) cells. The NKT TCR is somewhat of an anomaly in the world of classical αβ TCRs in that is formed through the usage of a restricted set of gene segments. The α chain of the NKT TCR is always comprised of a single canonical rearrangement between the TRAV11 and TRAJ18 gene segments in mice (or the orthologs genes TRAV10 and TRAJ18 in human), which pairs with a limited set of Vβ segments. The NKT TCR has been shown to recognize a variety of self and foreign lipids presented by CD1d and its engagement at the surface of NKT cells leads to a rapid and diverse cytokine secretion storm. As such, NKT cells have been implicated in the regulation of a multitude of immunological processes, including infections, cancer, and autoimmunity³.Another subset of T cells bearing a restricted αβ TCR repertoire was recently identified^4,5. Due to their preferential localization in the gut lamina propria, these cells were deemed mucosal-associated invariant T (MAIT) cells⁶. Their ''semi-invariant'' TCRα chain is composed of a limited set of rearrangements between the TRAV1 and the TRAJ33 gene segments, which pair with a limited set of Vβ chains. The generation of a monoclonal antibody directed at the human TRAV1 chain allowed for the enumeration and tracking of MAIT cells. Surprisingly, it was found that MAIT cells can constitute up to 10% of human peripheral blood T cells and up to 40% of human liver T cells⁷.The TCRs expressed by MAIT cells were shown to recognize the MHC-related protein 1, MR1, a very intriguing non-classical MHC class I molecule in its infancy of characterization⁶. MR1 is encoded outside of the MHC locus in human, mouse and rat, and shows 90% sequence identity in its putative ligand-binding domains (α1/α2) between the human and the mouse, which far exceeds the 70% similarity shared by this region of human and mouse classical MHC class I molecules. The strict conservation of both MR1 and MAIT cells among mammalian species, as well as the important proportion of MAIT cells within the human T lymphocyte population, are all suggestive of stringent evolutionary pressure for important function(s) fulfilled by MAIT cells. In support of this hypothesis, it was shown that MAIT cells are activated by cells infected with various strains of bacteria and yeast in both human and mouse^8,9. This activation required cognate interaction between the invariant TCR and MR1, which was proposed to present a bacteria-derived ligand. In this way, these lymphocytes can rapidly sense and help fight off microbial infections. However, the exact nature of this putative bacteria-derived ligand has remained elusive.In a recent issue of Nature, Kjer-Nielsen et al.¹⁰ shed some new light on the nature of the MAIT antigens. Owing to the fact that, in general, MHC class I molecules are extremely unstable unless they have engaged a ligand, Kjer-Nielsen et al. found that refolding of MR1 in the presence of vitamin-containing solutions substantially increased their yield of refolded MR1 proteins. Taking advantage of this finding, they further refined their candidate ligands and identified the presence of the folic acid (vitamin B9) metabolite, 6-formyl pterin (6-FP), bound to MR1. Further, they provided the first crystal structure of the MR1 protein in complex with 6-FP, thereby revealing how the MR1 antigen-binding groove appears ideally suited to present small organic compounds. Interestingly, 6-FP was found in the MR1 antigen-binding cleft where it sits horizontally with no residues extending over the α helices for potential recognition by a TCR. Indeed, the authors showed that although 6-FP can clearly be presented by MR1 molecules, it is non-stimulatory for MAIT cells.The authors were also able to refold MR1 in the presence of culture supernatant from Salmonella typhimurium, a bacterial strain known to stimulate MAIT cells. Mass spectrometry analysis of MR1-complexed ligands revealed metabolites from the riboflavin (vitamin B2) biosynthesis pathway. The riboflavin metabolites are structurally similar to 6-FP, but possess an extra ribityl moiety, which is postulated to extend up into the groove of MR1 and be accessible for TCR recognition. In support of this hypothesis, the riboflavin metabolites are able to stimulate human MAIT cells as well as Jurkat cells engineered to express three different human MAIT TCRs.These findings have important implications, not only for the emerging field of MAIT cell biology but also for immunologists in general. In addition to peptides and lipids, the immune system contains T cells that have the ability to recognize and survey a third class of antigens: vitamin B metabolites (Figure 1).Open in a separate windowFigure 1Three broad classes of ligands recognized by TCRs: peptides, lipids, and vitamin metabolites. Examples of each class of ligands are shown. Peptides from MCMV and flagellin are presented by MHC class I or class II to classical αβ T cells, respectively. Vitamin metabolites are presented to MAIT cells by MR1. The lipids, α-galactosylceramide (αGalCer) and dideoxymycobactins presented to NKT cells and CD1a-restricted T cells, respectively.Mammals, including humans, have lost the capacity for de novo synthesis of B vitamins and rely on diet as well as intestinal bacteria and yeast species that can synthesize them for their acquisition via intestinal absorption. B vitamins are essential components of many cellular processes, with many functioning as precursors for enzyme cofactors or playing the role of coenzymes that carry chemical groups or electrons between molecules. Importantly, riboflavin (vitamin B2) itself, which is found in all mammalian cells, did not stimulate human MAIT cells, but its metabolic precursor, 6,7-dimethyl-8-ribityllumazine, did. These results suggest that the role of MAIT cells might be to survey microbial infections or overgrowth at mucosal sites by sensing the overall quantity of riboflavin metabolites in an MR1-restricted manner. In support of this idea, the authors noted that bacteria and yeast species that were found to stimulate MAIT cells all possess a complete riboflavin synthesis pathway, while other non-stimulatory species did not have this ability.The findings by Kjer-Nielsen et al. raise many new interesting and intriguing questions. The study highlights that MR1 molecules can present both vitamin B2 and B9 metabolites, yet only vitamin B2 metabolites can stimulate MAIT cells. These results raise the possibility that several different metabolites might compete for MR1 binding and thereby modulate the activation of MAIT cells. To date, the mechanisms of antigen presentation by MR1 molecules remain largely unexplored.Like conventional αβ T cells that undergo positive selection by self-peptide-MHC complexes in the thymus, MAIT cells also develop in the thymus, where they must recognize MR1 molecules, presumably loaded with antigens, for proper development^6,11. Are these antigens really “self” or are they, as the absence of MAIT cells in germ-free mice could perhaps suggest, metabolic products derived from the microbiota? Although riboflavin transporters have been identified¹², it remains unclear whether and how its metabolites might be transported throughout the organism. Furthermore, certain clones of MAIT cells can detect non-infected MR1-expressing antigen-presenting cells (APCs), suggesting that some MAIT TCRs might have a dual specificity for both microbe-derived metabolites as well as APC-derived, or media-provided, antigen(s). These results imply that perhaps other antigenic structures distinct from vitamin metabolites might exist for MAIT cells. Identification of the antigen(s) that are involved in intrathymic MAIT cell selection will certainly remain a central goal in the future.Finally, the preferential localization of MAIT cells in the lining of mucosal surfaces and their protective role in several infections^8,9,13,14 open new avenues for the development of vaccine strategy that specifically targets MAIT cells but also call for the exploration of a potential role of MAIT cells in mucosal disorders such as Crohn''s disease and ulcerative colitis.     

Intragraft Selection of the T Cell Receptor Repertoire by Class I MHC Sequences in Tolerant Recipients

Background

Allograft tolerance of ACI (RT1^a) recipients to WF (RT1^u) hearts can be induced by allochimeric class I MHC molecules containing donor-type (RT1A^u) immunogenic epitopes displayed on recipient-type (RT1A^a) sequences. Here, we sought the mechanisms by which allochimeric sequences may affect responding T cells through T cell receptor (TCA) repertoire restriction.

Methodology/Principal Findings

The soluble [α_1h ^u]-RT1.A^a allochimeric molecule was delivered into ACI recipients of WF hearts in the presence of sub-therapeutic dose of cyclosporine (CsA). The TCR Vβ spectrotyping of the splenocytes and cardiac allografts showed that the Vβ gene families were differentially expressed within the TCR repertoire in allochimeric- or high-dose CsA-treated tolerant recipients at day +5 and +7 of post-transplantation. However, at day 30 of post-transplantation the allochimeric molecule-treated rats showed the restriction of TCR repertoire with altered dominant size peaks representing preferential clonal expansion of Vβ7, Vβ11, Vβ13, Vβ 14, and Vβ15 genes. Moreover, we found a positive correlation between the alteration of Vβ profile, restriction of TCR repertoire, and the establishment of allograft tolerance.

Conclusions

Our findings indicate that presentation of allochimeric MHC class I sequences that partially mimic donor and recipient epitopes may induce unique tolerant state by selecting alloresponsive Vβ genes.     

The effect of SIRT1 protein knock down on PGC-1α acetylation during skeletal muscle contraction

[Purpose]

The purpose of this study was to investigate the effect of Sirtuin 1 (SIRT1) and General control nonderepressible 5 (GCN5) knock down on peroxisome proliferator- activated receptor gamma coactivator 1-alpha (PGC-1α) deacetylation during electrical stimulated skeletal muscle contraction.

[Methods]

Skeletal muscle primary cell were isolated from C57BL/6 mice gastrocnemius and transfected lentiviral SIRT1 and GCN5 shRNA. Knock downed muscle cell were stimulated by electrical stimulation (1Hz, 3min) and collected for PGC-1α deceatylation assays. Immunoprecipitation performed for PGC-1α deacetylation, acetyl-lysine level was measured.

[Results]

Our resulted showed SIRT1 knock down not influenced to PGC-1α deacetylation during electrical stimulation induced muscle contraction while GCN5 knock down decreased PGC-1α deacetylation significantly (p<0.05).

[Conclusion]

This study can be concluded that GCN5 is a critical factor for muscle contraction induced PGC-1α deacetylation.     

Magnetic Resonance Imaging of Mouse Islet Grafts Labeled with Novel Chitosan-Coated Superparamagnetic Iron Oxide Nanoparticles

Object

To better understand the fate of islet isografts and allografts, we utilized a magnetic resonance (MR) imaging technique to monitor mouse islets labeled with a novel MR contrast agent, chitosan-coated superparamagnetic iron oxide (CSPIO) nanoparticles.

Materials and Methods

After being incubated with and without CSPIO (10 µg/ml), C57BL/6 mouse islets were examined under transmission electron microscope (TEM) and their insulin secretion was measured. Cytotoxicity was examined in α (αTC1) and β (NIT-1 and βTC) cell lines as well as islets. C57BL/6 mice were used as donors and inbred C57BL/6 and Balb/c mice were used as recipients of islet transplantation. Three hundred islets were transplanted under the left kidney capsule of each mouse and then MR was performed in the recipients periodically. At the end of study, the islet graft was removed for histology and TEM studies.

Results

After incubation of mouse islets with CSPIO (10 µg/mL), TEM showed CSPIO in endocytotic vesicles of α- and β-cells at 8 h. Incubation with CSPIO did not affect insulin secretion from islets and death rates of αTC1, NIT-1 and βTC cell lines as well as islets. After syngeneic and allogeneic transplantation, grafts of CSPIO-labeled islets were visualized on MR scans as persistent hypointense areas. At 8 weeks after syngeneic transplantation and 31 days after allogeneic transplantation, histology of CSPIO-labeled islet grafts showed colocalized insulin and iron staining in the same areas but the size of allografts decreased with time. TEM with elementary iron mapping demonstrated CSPIO distributed in the cytoplasm of islet cells, which maintained intact ultrastructure.

Conclusion

Our results indicate that after syngeneic and allogeneic transplantation, islets labeled with CSPIO nanoparticles can be effectively and safely imaged by MR.     

Persistent Inflammation and Endothelial Activation in HIV-1 Infected Patients after 12 Years of Antiretroviral Therapy

Objective

The study investigated markers of inflammation and endothelial activation in HIV infected patients after 12 years of successful combination antiretroviral treatment (cART).

Methods

Inflammation and endothelial activation were assessed by measuring levels of immunoglobulins, β2-microglobulin, interleukin (IL) 8, tumor necrosis factor α (TNFα), vascular cell adhesion molecule-1 (sVCAM-1), intercellular adhesion molecule-1 (sICAM-1), sE-Selectin, and sP-Selectin.

Results

HIV infected patients had higher levels of β2-microglobulin, IL-8, TNFα, and sICAM-1 than uninfected controls, and HIV infected patients lacked correlation between platelet counts and sP-Selectin levels found in uninfected controls.

Conclusion

Discrete signs of systemic and vascular inflammation persist even after very long term cART.     

TRIP-1 via AKT modulation drives lung fibroblast/myofibroblast trans-differentiation

Background

Myofibroblasts are the critical effector cells in the pathogenesis of pulmonary fibrosis which carries a high degree of morbidity and mortality. We have previously identified Type II TGFβ receptor interacting protein 1 (TRIP-1), through proteomic analysis, as a key regulator of collagen contraction in primary human lung fibroblasts—a functional characteristic of myofibroblasts, and the last, but critical step in the process of fibrosis. However, whether or not TRIP-1 modulates fibroblast trans-differentiation to myofibroblasts is not known.

Methods

TRIP-1 expression was altered in primary human lung fibroblasts by siRNA and plasmid transfection. Transfected fibroblasts were then analyzed for myofibroblast features and function such as α-SMA expression, collagen contraction ability, and resistance to apoptosis.

Results

The down-regulation of TRIP-1 expression in primary human lung fibroblasts induces α-SMA expression and enhances resistance to apoptosis and collagen contraction ability. In contrast, TRIP-1 over-expression inhibits α-SMA expression. Remarkably, the effects of the loss of TRIP-1 are not abrogated by blockage of TGFβ ligand activation of the Smad3 pathway or by Smad3 knockdown. Rather, a TRIP-1 mediated enhancement of AKT phosphorylation is the implicated pathway. In TRIP-1 knockdown fibroblasts, AKT inhibition prevents α-SMA induction, and transfection with a constitutively active AKT construct drives collagen contraction and decreases apoptosis.

Conclusions

TRIP-1 regulates fibroblast acquisition of phenotype and function associated with myofibroblasts. The importance of this finding is it suggests TRIP-1 expression could be a potential target in therapeutic strategy aimed against pathological fibrosis.     

Stabilisation of β-Catenin Downstream of T Cell Receptor Signalling

Background

The role of TCF/β-catenin signalling in T cell development is well established, but important roles in mature T cells have only recently come to light.

Methodology/Principal Findings

Here we have investigated the signalling pathways that are involved in the regulation of β-catenin in primary human T cells. We demonstrate that β-catenin expression is upregulated rapidly after T cell receptor (TCR) stimulation and that this involves protein stabilisation rather than an increase in mRNA levels. Similar to events in Wnt signalling, the increase in β-catenin coincides with an inhibition of GSK3, the kinase that is required for β-catenin degradation. β-catenin stabilisation in T cells can also be induced by the activation of PKC with phorbol esters and is blocked by inhibitors of phosphatidylinositol 3-kinase (PI3K) and phospholipase C (PKC). Upon TCR signalling, β-catenin accumulates in the nucleus and, parallel to this, the ratio of TCF1 isoforms is shifted in favour of the longer β-catenin binding isoforms. However, phosphorylated β-catenin, which is believed to be inactive, can also be detected and the expression of Wnt target genes Axin2 and dickkopf is down regulated.

Conclusions/Significance

These data show that in mature human T cells, TCR signalling via PI3K and PKC can result in the stabilisation of β-catenin, allowing β-catenin to migrate to the nucleus. They further highlight important differences between β-catenin activities in TCR and Wnt signalling.     

Systemic sclerosis sera affect fibrillin-1 deposition by dermal blood microvascular endothelial cells: therapeutic implications of cyclophosphamide

Introduction

Systemic sclerosis (SSc) is a connective tissue disorder characterized by endothelial cell injury, autoimmunity and fibrosis. The following three fibrillin-1 alterations have been reported in SSc. (1) Fibrillin-1 microfibrils are disorganized in SSc dermis. (2) Fibrillin-1 microfibrils produced by SSc fibroblasts are unstable. (3) Mutations in the FBN1 gene and anti-fibrillin-1 autoantibodies have been reported in SSc. Fibrillin-1 microfibrils, which are abundantly produced by blood and lymphatic microvascular endothelial cells (B-MVECs and Ly-MVECs, respectively), sequester in the extracellular matrix the latent form of the potent profibrotic cytokine transforming growth factor β (TGF-β). In the present study, we evaluated the effects of SSc sera on the deposition of fibrillin-1 and microfibril-associated glycoprotein 1 (MAGP-1) and the expression of focal adhesion molecules by dermal B-MVECs and Ly-MVECs.

Methods

Dermal B-MVECs and Ly-MVECs were challenged with sera from SSc patients who were treatment-naïve or under cyclophosphamide (CYC) treatment and with sera from healthy controls. Fibrillin-1/MAGP-1 synthesis and deposition and the expression of α_vβ₃ integrin/phosphorylated focal adhesion kinase and vinculin/actin were evaluated by immunofluorescence and quantified by morphometric analysis.

Results

Fibrillin-1 and MAGP-1 colocalized in all experimental conditions, forming a honeycomb pattern in B-MVECs and a dense mesh of short segments in Ly-MVECs. In B-MVECs, fibrillin-1/MAGP-1 production and α_vβ₃ integrin expression significantly decreased upon challenge with sera from naïve SSc patients compared with healthy controls. Upon challenge of B-MVECs with sera from CYC-treated SSc patients, fibrillin-1/MAGP-1 and α_vβ₃ integrin levels were comparable to those of cells treated with healthy sera. Ly-MVECs challenged with SSc sera did not differ from those treated with healthy control sera in the expression of any of the molecules assayed.

Conclusions

Because of the critical role of fibrillin-1 in sequestering the latent form of TGF-β in the extracellular matrix, its decreased deposition by B-MVECs challenged with SSc sera might contribute to dermal fibrosis. In SSc, CYC treatment might limit fibrosis through the maintenance of physiologic fibrillin-1 synthesis and deposition by B-MVECs.     

The drug efflux pump Pgp1 in pro-inflammatory lymphocytes is a target for novel treatment strategies in COPD

Background

Pro-inflammatory/cytotoxic T cells (IFNγ, TNFα, granzyme B+) are increased in the peripheral circulation in COPD. NKT-like and NK cells are effector lymphocytes that we have also shown to be major sources of pro-inflammatory cytokines and granzymes. P-glycoprotein 1 (Pgp1) is a transmembrane efflux pump well characterised in drug resistant cancer cells. We hypothesized that Pgp1 would be increased in peripheral blood T, NKT-like and NK cells in patients with COPD, and that this would be accompanied by increased expression of IFNγ, TNFα and granzyme B. We further hypothesized that treatment with cyclosporine A, a Pgp1 inhibitor, would render cells more sensitive to treatment with corticosteroids.

Methods

Pgp1, granzyme B, IFNγ and TNFα expression were measured in peripheral blood T, NK and NKT-like cells from COPD patients and control subjects (± cyclosporine A and prednisolone) following in vitro stimulation and results correlated with uptake of efflux dye Calcein-AM using flow cytometry.

Results

There was increased Pgp1 expression by peripheral blood T, NKT-like and NK cells co-expressing IFNγ, TNFα and granzyme B in COPD patients compared with controls (e.g. %IFNγ/Pgp1 T, NKT-like, NK for COPD (Control): 25(6), 54(27), 39(23)). There was an inverse correlation between Pgp1 expression and Calcein-AM uptake. Treatment with 2.5 ng/ml cylosporin A and10^-6 M prednisolone resulted in synergistic inhibition of pro-inflammatory cytokines in Pgp1 + cells (p < 0.05 for all).

Conclusions

Treatment strategies that target Pgp1 in T, NKT-like and NK cells may reduce systemic inflammatory mediators in COPD and improve patient morbidity.     

A novel strategy to screen Bacillus Calmette-Guérin protein antigen recognized by γδ TCR

Background

Phosphoantigen was originally identified as the main γδ TCR-recognized antigen that could activate γδ T cells to promote immune protection against mycobacterial infection. However, new evidence shows that the γδ T cells activated by phosphoantigen can only provide partial immune protection against mycobacterial infection. In contrast, whole lysates of Mycobacterium could activate immune protection more potently, implying that other γδ TCR-recognized antigens that elicit protective immune responses. To date, only a few distinct mycobacterial antigens recognized by the γδ TCR have been characterized.

Methodology/Principal Findings

In the present study, we established a new approach to screen epitopes or protein antigens recognized by the γδ TCR using Bacillus Calmette-Guérin- (BCG-) specific γ TCR transfected cells as probes to pan a 12-mer random-peptide phage-displayed library. Through binding assays and functional analysis, we identified a peptide (BP3) that not only binds to the BCG-specific γδ TCR but also effectively activates γδ T cells isolated from human subjects inoculated with BCG. Importantly, the γδ T cells activated by peptide BP3 had a cytotoxic effect on THP-1 cells infected with BCG. Moreover, the oxidative stress response regulatory protein (OXYS), a BCG protein that matches perfectly with peptide BP3 according to bioinformatics analysis, was confirmed as a ligand for the γδ TCR and was found to activate γδ T cells from human subjects inoculated with BCG.

Conclusions/Significance

In conclusion, our study provides a novel strategy to identify epitopes or protein antigens for the γδ TCR, and provides a potential means to screen mycobacterial vaccines or candidates for adjuvant.     

HIF1-Alpha Expression Predicts Survival of Patients with Squamous Cell Carcinoma of the Oral Cavity

Background

Oral squamous cell carcinoma is an important cause of death and morbidity wordwide and effective prognostic markers are still to be discovered. HIF1α protein is associated with hypoxia response and neovascularization, essential conditions for solid tumors survival. The relationship between HIF1α expression, tumor progression and treatment response in head and neck cancer is still poorly understood.

Patients and Methods

In this study, we investigated HIF1α expression by immunohistochemistry in tissue microarrays and its relationship with clinical findings, histopathological results and survival of 66 patients with squamous cell carcinoma of the lower mouth.

Results

Our results demonstrated that high HIF1α expression is associated with local disease-free survival, independently from the choice of treatment. Furthermore, high expression of HIF1α in patients treated with postoperative radiotherapy was associated with survival, therefore being a novel prognostic marker in squamous cell carcinoma of the mouth. Additionally, our results showed that MVD was associated with HIF1α expression and local disease relapse.

Conclusion

These findings suggest that HIF1α expression can be used as a prognostic marker and predictor of postoperative radiotherapy response, helping the oncologist choose the best treatment for each patient.     

The Role of Adhesion Molecules as Biomarkers for the Aggressive Prostate Cancer Phenotype

Background

Currently available methods for diagnosis and staging of prostate cancer lack the sensitivity to distinguish between patients with indolent prostate cancer and those requiring radical treatment. Alterations in key adherens (AJ) and tight junction (TJ) components have been hailed as potential biomarkers for prostate cancer progression but the majority of research has been carried out on individual molecules.

Objective

To elucidate a panel of biomarkers that may help distinguish dormant prostate cancer from aggressive metastatic disease.

Methods

We analysed the expression of 7 well known AJ and TJ components in cell lines derived from normal prostate epithelial tissue (PNT2), non-invasive (CAHPV-10) and invasive prostate cancer (LNCaP, DU145, PC-3) using gene expression, western blotting and immunofluorescence techniques.

Results

Claudin 7, α –catenin and β-catenin protein expression were not significantly different between CAHPV-10 cells and PNT2 cells. However, in PC-3 cells, protein levels for claudin 7, α –catenin were significantly down regulated (−1.5 fold, p = <.001) or undetectable respectively. Immunofluoresence showed β-catenin localisation in PC-3 cells to be cytoplasmic as opposed to membraneous.

Conclusion

These results suggest aberrant Claudin 7, α – and β-catenin expression and/or localisation patterns may be putative markers for distinguishing localised prostate cancer from aggressive metastatic disease when used collectively.     

Germline deletion of β2 microglobulin or CD1d reduces anti-phospholipid antibody,but increases autoantibodies against non-phospholipid antigens in the NZB/W F1 model of lupus

Introduction

β2-microglobulin (β2m) is required for the surface expression of MHC class I and class I-like proteins such as CD1d, Qa1 and neonatal Fc receptor (FcRn), all of which may impact the development of autoimmunity. Since CD1d is known to bind and present phospholipid antigens to T cells, we asked if the deficiency of β2m or CD1d will impact the development of anti-phospholipid antibodies as compared to other aspects of lupus autoimmunity.

Methods

We introgressed the β2m-null genotype onto the NZB and NZW backgrounds for 12 to 14 generations to generate genetically lupus-susceptible (NZB/NZW)F1 (BWF1) mice that are β2m-deficient (β2m°). Circulating immunoglobulins (Ig), rheumatoid factor (RF), anti-DNA and anti-cardiolipin (anti-CL) antibodies, and renal disease were analyzed in these and CD1d-deficient (CD1d°) BWF1 mice that we had previously generated.

Results

Whereas β2m° BWF1 mice had reduced serum IgG, they had increased mortality, nephritis, serum IgG anti-DNA antibody and RF as compared to heterozygous and wild-type littermates. These effects were recapitulated in CD1d° BWF1 mice, except that they also had increased serum IgG as compared to control littermates. Intriguingly, both β2m° and CD1d° mice had lower serum anti-CL antibody levels than in control littermates. Such CD1d dependence of anti-CL antibody production is not mediated by CD1d/glycolipid-reactive iNKT cells, as these cells reduced the production of RF and anti-DNA antibodies but had no effect on anti-CL antibodies.

Conclusions

We report a novel dichotomous role of β2m and CD1d, whereby these molecules differently regulate autoimmunity against phospholipid versus non-phospholipid autoantigens.     

The N-terminal Helix Controls the Transition between the Soluble and Amyloid States of an FF Domain

Background

Protein aggregation is linked to the onset of an increasing number of human nonneuropathic (either localized or systemic) and neurodegenerative disorders. In particular, misfolding of native α-helical structures and their self-assembly into nonnative intermolecular β-sheets has been proposed to trigger amyloid fibril formation in Alzheimer’s and Parkinson’s diseases.

Methods

Here, we use a battery of biophysical techniques to elucidate the conformational conversion of native α-helices into amyloid fibrils using an all-α FF domain as a model system.

Results

We show that under mild denaturing conditions at low pH this FF domain self-assembles into amyloid fibrils. Theoretical and experimental dissection of the secondary structure elements in this domain indicates that the helix 1 at the N-terminus has both the highest α-helical and amyloid propensities, controlling the transition between soluble and aggregated states of the protein.

Conclusions

The data illustrates the overlap between the propensity to form native α-helices and amyloid structures in protein segments.

Significance

The results presented contribute to explain why proteins cannot avoid the presence of aggregation-prone regions and indeed use stable α-helices as a strategy to neutralize such potentially deleterious stretches.     

TGF-β1 expression is associated with invasion and metastasis of intrahepatic cholangiocarcinoma

Background

Transforming growth factor (TGF)-β is involved in many physiologic processes, it often promotes metastasis, and its high expression is correlated with poor prognosis. In the present study, we analyzed the correlation between transforming growth factor beta 1 (TGF-β1) expression and prognosis in intrahepatic cholangiocarcinoma.

Results

We examined the expression of TGF-β1 in 78 intrahepatic cholangiocarcinomas by immunohistochemistry and correlated the expression with clinicopathological parameters. TGF-β1 was expressed in 37 of 78 (47.4 %) intrahepatic cholangiocarcinomas. The expression of TGF-β1 was significantly correlated with lymph node metastasis, distant metastasis, and tumour recurrence. Patients with TGF-β1-positive tumours had significantly shorter survival time. In a multivariant analysis, the expression of TGF-β1 and the tumour stage were independent prognostic factors.

Conclusions

Our data suggest that expression of TGF-β1 is a novel prognostic marker for intrahepatic cholangiocarcinoma.