Identification and functional characterization of interleukin-12 receptor beta 1 and 2 in grass carp (Ctenopharyngodon idella).

Interleukin 12 (IL-12) binds its receptor complex of IL-12 receptor beta 1 (IL-12Rß1) and IL-12Rß2 to transduce cellular signaling in mammals. In teleosts, the function of Il-12 is drawing increasing attention, but molecular and functional features of Il-12 receptors remain obscure. Especially, the existence of multiple Il-12 isoforms in some fish species elicits the requirement to clarify their receptors. In this study, we isolated three cDNA sequences as Il-12 receptor candidates from grass carp, entitled as grass carp Il-12rß1 (gcIl-12rß1), gcIl-12rß2a and gcIl-12rß2b. In silico analysis showed that gcIl-12rß1 and gcIl-12rß2a shared the conserved gene locus and similar structure characteristics with their orthologues of zebrafish, frog, chicken, mouse and human, respectively. However, the Il-12rß2b of grass carp and zebrafish was similar to IL-27Ra in non-fish species. Further locally installed BLAST and gene synteny analysis uncovered three gcIl-12 receptors being single copied genes. Tissue distribution assay revealed that gcil12rß1 and gcil12rß2a transcripts were predominantly expressed in head kidney, differing from the even distribution of gcil12rß2b transcripts in all detected tissues. Subsequently, the binding ability and antagonistic effects of recombinant extracellular region of gcIl-12rß1 with recombinant grass carp Il-12 (rgcIl-12) isoforms were explored, providing functional evidence of the newly cloned gcIl-12rß1 being genuine orthologues of mammalian IL-12Rß1. Moreover, our data showed that gcIl-12rß1 and gcIl-12rß2a but not gcIl-12rß1 and gcIl-12rß2b mediated the effects of rgcIl-12 isoforms on ifn-γ promoter activity, thereby revealing Il-12 receptor signaling in fish. These results identified grass carp Il-12 receptors, thereby advancing our understanding of Il-12 isoform signaling in fish.

Effects of hyperbaric oxygen therapy on the expression levels of the inflammatory factors interleukin-12p40, macrophage inflammatory protein-1ß, platelet-derived growth factor-BB, and interleukin-1 receptor antagonist in keloids.

BACKGROUND: Our study aimed to screen and explore the expression of inflammatory factors in keloid patients and to investigate how hyperbaric oxygen (HBO) therapy affects the expression levels of interleukin-12p40 (IL-12p40), macrophage inflammatory protein-1ß (MIP-1ß), platelet-derived growth factor-BB (PDGF-BB), and interleukin-1 receptor antagonist (IL-1Ra). OBJECTIVE: 30 patients were randomly selected and divided into the following 3 groups: keloid samples from keloid patients treated with HBO therapy (A), keloid samples from keloid patients treated without HBO therapy (B), and normal control skin samples derived from individuals who had no clear scarring (C). Each group included 10 samples. METHODS: Inflammatory factors in the keloid tissues were measured with the MILLIPLEX multiplexed Luminex system. Hematoxylin and eosin staining, immunohistochemical staining, and Western blotting were used to observe the morphological differences in different tissues and the expression levels. RESULTS: The expression levels of inflammatory mediators, including IL-12p40, MIP-1ß, PDGF-BB, and IL-1Ra, in keloid tissues were significantly different from those in samples of normal skin. Hematoxylin and eosin staining showed significantly greater inflammatory infiltration in keloid tissue. Significantly different expression levels were observed in group A, B, and C. CONCLUSION: Significantly altered levels of inflammatory factors in the samples from keloid patients were observed, suggesting that formation of a keloid is potentially related to inflammatory responses. HBO therapy could significantly affect the expression levels of IL-12p40, MIP-1ß, PDGF-BB, and IL-1Ra, indicating that the effects of HBO therapy are associated with the attenuation of inflammatory responses.

Autoantibodies in patients with interleukin 12 receptor beta 1 deficiency.

OBJECTIVE: Interleukin 12 receptor beta 1 (IL-12Rß1) deficiency is a primary immunodeficiency that exposes affected individuals to an augmented risk of intracellular pathogen-mediated infections. The paradoxical presence of autoimmune manifestations in immune-deficient patients has been recognized, but the basis of this phenomenon is unclear, with the role of frequent infections being a possible trigger to break tolerance. Our study aimed to analyze extensively a profile of autoantibodies in a clinically well-defined case series of patients with IL-12Rß1 deficiency. METHODS: Eight patients with IL-12Rß1 deficiency referred to Children's Medical Center in Tunis, Tunisia, during 1995-2012 were enrolled in the study. Sixteen age- and gender-matched blood donors served as controls. Serum, liver-related autoantibodies immunoglobulin (Ig)G, IgM, IgA were tested by ELISA and by standard indirect immunofluorescence on Hep-2 cells. RESULTS: We found a significant prevalence of liver autoantibodies in the study group. Regarding primary biliary cholangitis (PBC), two of eight patients were positive for MIT3 autoantibodies, both confirmed by immunofluorescence, and one patient was positive for PBC-specific antinuclear antibodies, sp100. Moreover, two patients had significantly increased gamma-glutamyltransferase levels and one had IgM levels twice the upper limit of normal. Intriguingly two patients were positive for anti-actin antibodies; a typical feature of autoimmune hepatitis type 1, along with a significant increase in IgG levels. CONCLUSIONS: This is the first report of a serological analysis in patients with an IL-12Rß1 deficiency. Despite the difficulty in interpreting the role of the IL-12, the evidence of liver-specific autoantibodies confirms the importance its signal in liver autoimmunity.

A Variety of Alu-Mediated Copy Number Variations Can Underlie IL-12Rß1 Deficiency.

PURPOSE: Inborn errors of IFN-γ immunity underlie Mendelian susceptibility to mycobacterial disease (MSMD). Autosomal recessive complete IL-12Rß1 deficiency is the most frequent genetic etiology of MSMD. Only two of the 84 known mutations are copy number variations (CNVs), identified in two of the 213 IL-12Rß1-deficient patients and two of the 164 kindreds reported. These two CNVs are large deletions found in the heterozygous or homozygous state. We searched for novel families with IL-12Rß1 deficiency due to CNVs. METHODS: We studied six MSMD patients from five unrelated kindreds displaying adverse reactions to BCG vaccination. Three of the patients also presented systemic salmonellosis, two had mucocutaneous candidiasis, and one had disseminated histoplasmosis. We searched for CNVs and other variations by IL12RB1-targeted next-generation sequencing (NGS). RESULTS: We identified six new IL-12Rß1-deficient patients with a complete loss of IL-12Rß1 expression on phytohemagglutinin-activated T cells and/or EBV-transformed B cells. The cells of these patients did not respond to IL-12 and IL-23. Five different CNVs encompassing IL12RB1 (four deletions and one duplication) were identified in these patients by NGS coverage analysis, either in the homozygous state (n = 1) or in trans (n = 4) with a single-nucleotide variation (n = 3) or a small indel (n = 1). Seven of the nine mutations are novel. Interestingly, four of the five CNVs were predicted to be driven by nearby Alu elements, as well as the two previously reported large deletions. The IL12RB1 locus is actually enriched in Alu elements (44.7%), when compared with the rest of the genome (10.5%). CONCLUSION: The IL12RB1 locus is Alu-enriched and therefore prone to rearrangements at various positions. CNVs should be considered in the genetic diagnosis of IL-12Rß1 deficiency.

Structural Activation of Pro-inflammatory Human Cytokine IL-23 by Cognate IL-23 Receptor Enables Recruitment of the Shared Receptor IL-12Rß1.

Interleukin-23 (IL-23), an IL-12 family cytokine, plays pivotal roles in pro-inflammatory T helper 17 cell responses linked to autoimmune and inflammatory diseases. Despite intense therapeutic targeting, structural and mechanistic insights into receptor complexes mediated by IL-23, and by IL-12 family members in general, have remained elusive. We determined a crystal structure of human IL-23 in complex with its cognate receptor, IL-23R, and revealed that IL-23R bound to IL-23 exclusively via its N-terminal immunoglobulin domain. The structural and functional hotspot of this interaction partially restructured the helical IL-23p19 subunit of IL-23 and restrained its IL-12p40 subunit to cooperatively bind the shared receptor IL-12Rß1 with high affinity. Together with structural insights from the interaction of IL-23 with the inhibitory antibody briakinumab and by leveraging additional IL-23:antibody complexes, we propose a mechanistic paradigm for IL-23 and IL-12 whereby cognate receptor binding to the helical cytokine subunits primes recruitment of the shared receptors via the IL-12p40 subunit.

Biologic drug survival in Israeli psoriasis patients.

BACKGROUND: Drug survival is defined as the time period of treatment with a certain drug until its cessation. The role of previous exposure to traditional systemic treatments in biologic survival is still unknown. OBJECTIVE: To investigate the drug survival rates of biologic treatments in patients with psoriasis and to identify predictor factors. METHODS: Survival analysis was performed on patients with severe psoriasis who received adalimumab, infliximab, etanercept, and ustekinumab for treatment of psoriasis, drawn from the Clalit Health Services database. Multivariate analysis was performed adjusting for demographic variables; metabolic syndrome and its components; psoriatic arthritis; biologic naivety; coadministration of methotrexate, acitretin, or cyclosporine; and previous standard systemic treatment exposure. RESULTS: Among 907 patients treated with 1575 biologic treatments, ustekinumab had a significantly higher survival rate than tumor necrosis factor inhibitors. Biologic naivety and concomitant methotrexate intake were positive predictors for drug survival, whereas the female sex and the duration of previous systemic treatments were negative predictors. LIMITATIONS: Data regarding disease severity or duration could not be drawn from the Clalit Health Services database. CONCLUSION: Ustekinumab had better retention rates in comparison with other investigated biologics in patients with severe psoriasis, most of whom used it as a third line therapy.

Distinctive expression of interleukin-23 receptor subunits on human Th17 and γδ T cells.

The interleukin-23 (IL-23) pathway, T helper 17 (Th17) cells and γδ T cells, which respond to IL-23, have major pro-inflammatory roles. We have used unique IL-23 receptor (IL-23R) subunit-specific monoclonal antibodies, X67 and X68, and IL-12 receptor beta-1 subunit (IL-12Rß1) expression levels to evaluate the IL-23R complex on CD4 αß TCR Th17 cells and on γδ T cells. Both IL-23R and IL-12Rß1 subunits constitute the functional IL-23R. Expression of the IL-23R subunit by cultured Th17 cells was heterogeneous. Th17 cells expressed consistent high levels of the IL-12Rß1 subunit, which appeared a better predictor of responsiveness to IL-23 than the expression of the IL-23R subunit. Moreover, sorting memory CD4 T cells by high IL-12Rß1 expression selectively enriched cells committed to IL-17 production from the blood. IL-23R expression was also observed on freshly isolated and cultured γδ T cells and the cultured γδ T cells were not responsive to IL-23.

Emergence of host-adapted Salmonella Enteritidis through rapid evolution in an immunocompromised host.

Host adaptation is a key factor contributing to the emergence of new bacterial, viral and parasitic pathogens. Many pathogens are considered promiscuous because they cause disease across a range of host species, while others are host-adapted, infecting particular hosts1. Host adaptation can potentially progress to host restriction where the pathogen is strictly limited to a single host species and is frequently associated with more severe symptoms. Host-adapted and host-restricted bacterial clades evolve from within a broader host-promiscuous species and sometimes target different niches within their specialist hosts, such as adapting from a mucosal to a systemic lifestyle. Genome degradation, marked by gene inactivation and deletion, is a key feature of host adaptation, although the triggers initiating genome degradation are not well understood. Here, we show that a chronic systemic non-typhoidal Salmonella infection in an immunocompromised human patient resulted in genome degradation targeting genes that are expendable for a systemic lifestyle. We present a genome-based investigation of a recurrent blood-borne Salmonella enterica serotype Enteritidis (S. Enteritidis) infection covering 15 years in an interleukin (IL)-12 ß-1 receptor-deficient individual that developed into an asymptomatic chronic infection. The infecting S. Enteritidis harbored a mutation in the mismatch repair gene mutS that accelerated the genomic mutation rate. Phylogenetic analysis and phenotyping of multiple patient isolates provides evidence for a remarkable level of within-host evolution that parallels genome changes present in successful host-restricted bacterial pathogens but never before observed on this timescale. Our analysis identifies common pathways of host adaptation and demonstrates the role that immunocompromised individuals can play in this process.

IL-12 receptor 1ß deficiency with features of autoimmunity and photosensitivity.

Primary immunodeficiences are often accompanied by autoimmune phenomena. IL-12 receptor deficiency is a well characterized primary immunodeficiency that leads to propensity to intracellular infections mainly with mycobacteria and Salmonella. We report on two patients with IL-12 receptor ß1 deficiency that presented with autoimmune manifestations and photosensitivity dermatitis and describe possible pathogenetic mechanisms leading to development of clinically significant autoimmune phenomena.

Effect of in ovo administration of inulin and Lactococcus lactis on immune-related gene expression in broiler chickens.

OBJECTIVE To evaluate the effect of in ovo administration of inulin and Lactococcus lactis on immune-related gene expression in broiler chickens. ANIMALS 45 Ross broilers. PROCEDURES On day 12 of embryonic development, 360 eggs were equally allocated among 3 treatment groups and injected with 0.2 mL of a solution that contained 1.76 mg of inulin (prebiotic group) or 1.76 mg of inulin enriched with 1,000 CFUs of L lactis subsp lactis 2955 (synbiotic group), or they were injected with 0.2 mL of saline (0.9% NaCl) solution (control). At 1, 14, and 35 days after hatching, 5 male birds from each group were euthanized, and the spleen and cecal tonsils were harvested for determination of interleukin (IL)-4, IL-6, IL-8, IL-12p40, IL-18, cluster of differentiation 80, interferon-ß, and interferon-γ expression by means of a reverse transcription quantitative PCR assay. Gene expressions in the cecal tonsils and spleens of chickens in the prebiotic and synbiotic groups were compared with those of control chickens at each tissue collection time. RESULTS Compared with control birds, immune-related gene expression was downregulated in birds in the prebiotic and synbiotic groups, and the magnitude of that downregulation was more pronounced in the cecal tonsils than in the spleen and increased with age. CONCLUSIONS AND CLINICAL RELEVANCE Results indicated that in ovo administration of a prebiotic or synbiotic to broilers was associated with downregulation of immune-related gene expression in the cecal tonsils and spleen. The magnitude of that downregulation increased with age and was most likely caused by stabilization of the gastrointestinal microbiota.

Impaired in-vitro responses to IL-12 and IFN-γ in Iranian patients with Mendelian susceptibility to mycobacterial disease

INTRODUCTION: Diagnosis of specific molecular defects of Mendelian susceptibility to mycobacterial diseases (MSMD) patients is important with respect to their clinical outcomes and their response to therapy. The aim of this study was to perform functional tests on blood samples of a group of patients who were suspected of having MSMD. METHODS: This study was performed on 11 cases who had mycobacterial infections and suspected MSMD. Whole blood cell culture was performed in presence of different stimulators. The supernatants were assayed for IFN-γ, IL-12p40 by ELISA method. RESULTS: All patients presented with complications of BCG vaccine in the form of localised lymphadenitis or disseminated BCG infection and chronic mycobacterial osteomyelitis. Infections with Salmonellaspecies occurred in two patients. In-vitro studies showed that 10 cases had impaired response to IL-12. However, the baseline levels of IL-12p40 were normal, while one of our patients may have a potential IFN-γ signalling defect or an IL-12p40 defect. CONCLUSIONS: Early detection of MSMD and commencing of appropriate combination therapy could prevent severe or even fatal complications of uncontrolled mycobacterial infections

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Decreased presence of Langerhans cells is a critical determinant for Indian Post kala-azar dermal leishmaniasis.

Post kala-azar dermal leishmaniasis (PKDL) is the dermal sequel of visceral leishmaniasis (VL) and occurs after apparent cure or alongside with VL. It is confined to South Asia (India, Nepal and Bangladesh) and East Africa (mainly Sudan), the incidence being 5-10% and 50-60% respectively. In South Asia, as the transmission of VL is anthroponotic, PKDL patients are the proposed disease reservoir, thus assuming epidemiological significance, its eradication being linked to the control of leishmaniasis. In the absence of an animal model and its low incidence, factors contributing towards the immunopathogenesis of PKDL remain an open-ended, yet pertinent question. This study delineated the lesional immunopathology in terms of granuloma formation, Langerhans cells, tissue macrophages along with mRNA expression of IL-12p40 and IL-10. Our study in Indian PKDL for the first time identified that the number of CD1a(+) /CD207(+) Langerhans cells are decreased and CD68(+) macrophages are increased along with the absence of an epitheloid granuloma. Importantly, this decrease in Langerhans cells was associated with decreased mRNA expression of IL-12p40 and increased IL-10. This was reverted with treatment allowing for elimination of parasites and disease resolution along with an increase in Langerhans cells and decrease in macrophages. Thus, in Indian PKDL, absence of a granuloma formation along with a decrease in Langerhans cells collectively caused immune inactivation essential for parasite persistence and disease sustenance.

Chromatin remodelling and autocrine TNFα are required for optimal interleukin-6 expression in activated human neutrophils.

Controversy currently exists about the ability of human neutrophils to produce IL-6. Here, we show that the chromatin organization of the IL-6 genomic locus in human neutrophils is constitutively kept in an inactive configuration. However, we also show that upon exposure to stimuli that trigger chromatin remodelling at the IL-6 locus, such as ligands for TLR8 or, less efficiently, TLR4, highly purified neutrophils express and secrete IL-6. In TLR8-activated neutrophils, but not monocytes, IL-6 expression is preceded by the induction of a latent enhancer located 14 kb upstream of the IL-6 transcriptional start site. In addition, IL-6 induction is potentiated by endogenous TNFα, which prolongs the synthesis of the IκBζ co-activator and sustains C/EBPß recruitment and histone acetylation at IL-6 regulatory regions. Altogether, these data clarify controversial literature on the ability of human neutrophils to generate IL-6 and uncover chromatin-dependent layers of regulation of IL-6 in these cells.

Non-canonical interleukin 23 receptor complex assembly: p40 protein recruits interleukin 12 receptor ß1 via site II and induces p19/interleukin 23 receptor interaction via site III.

IL-23, composed of the cytokine subunit p19 and the soluble α receptor subunit p40, binds to a receptor complex consisting of the IL-23 receptor (IL-23R) and the IL-12 receptor ß1 (IL-12Rß1). Complex formation was hypothesized to follow the "site I-II-III" architectural paradigm, with site I of p19 being required for binding to p40, whereas sites II and III of p19 mediate binding to IL-12Rß1 and IL-23R, respectively. Here we show that the binding mode of p19 to p40 and of p19 to IL-23R follow the canonical site I and III paradigm but that interaction of IL-23 to IL-12Rß1 is independent of site II in p19. Instead, binding of IL-23 to the cytokine binding module of IL-12Rß1 is mediated by domains 1 and 2 of p40 via corresponding site II amino acids of IL-12Rß1. Moreover, domains 2 and 3 of p40 were sufficient for complex formation with p19 and to induce binding of p19 to IL-23R. The Fc-tagged fusion protein of p40_D2D3/p19 did, however, not act as a competitive IL-23 antagonist but, at higher concentrations, induced proliferation via IL-23R but independent of IL-12Rß1. On the basis of our experimental validation, we propose a non-canonical topology of the IL-23·IL-23R·IL-12Rß1 complex. Furthermore, our data help to explain why p40 is an antagonist of IL-23 and IL-12 signaling and show that site II of p19 is dispensable for IL-23 signaling.

IL12Rß1: the cytokine receptor that we used to know.

Human IL12RB1 encodes IL12Rß1, a type I transmembrane receptor that is an essential component of the IL12- and IL23-signaling complex. IL12RB1 is well-established as being a promoter of delayed type hypersensitivity (DTH), the immunological reaction that limits tuberculosis. However, recent data demonstrate that in addition to promoting DTH, IL12RB1 also promotes autoimmunity. The contradictory roles of IL12RB1 in human health raises the question, what are the factors governing IL12RB1 function in a given individual, and how is inter-individual variability in IL12RB1 function introduced? Here we review recent data that demonstrate individual variability in IL12RB1 function is introduced at the epigenetic, genomic polymorphism, and mRNA splicing levels. Where and how these differences contribute to disease susceptibility and outcome are also reviewed. Collectively, recent data support a model wherein IL12RB1 sequence variability - whether introduced at the genomic or post-transcriptional level - contributes to disease, and that human IL12RB1 is not as simple a gene as we once believed.

Specific targeting of the IL-23 receptor, using a novel small peptide noncompetitive antagonist, decreases the inflammatory response.

IL-23 is part of the IL-12 family of cytokines and is composed of the p19 subunit specific to IL-23 and the p40 subunit shared with IL-12. IL-23 specifically contributes to the inflammatory process of multiple chronic inflammatory autoimmune disorders, including psoriasis, multiple sclerosis, inflammatory bowel disease, and rheumatoid arthritis. So far, one antibody targeting the shared p40 subunit of IL-12 and IL-23, Ustekinumab, is approved clinically to treat psoriasis. However, there are no treatments inhibiting specifically the IL-23 proinflammatory response. We have developed small IL-23R-specific antagonists by designing all D-peptides arising from flexible regions of IL-23R. Of these peptides, we selected 2305 (teeeqqly), since in addition to its soluble properties, it inhibited IL-23-induced STAT3 phosphorylation in spleen cells. Peptide 2305 specifically binds to IL-23R/IL-12Rß1-expressing HEK-293 cells and not to cells devoid of the receptor. Peptide 2305 showed functional selectivity by modulating IL-23-induced gene expression in IL-23R/IL-12Rß1-expressing cells and in Jurkat cells; 2305 does not inhibit IL-12-induced cytokine expression in IL-12Rß-IL-12Rß2-HEK-293 cells. Finally, compared with anti-p40 treatment, 2305 effectively and selectively inhibits IL-23-induced inflammation in three in vivo mouse models: IL-23-induced ear inflammation, anti-CD40-induced systemic inflammatory response, and collagen-induced arthritis. We, hereby, describe the discovery and characterization of a potent IL-23R small-peptide modulator, 2305 (teeeqqly), that is effective in vivo. 2305 may be more convenient, less cumbersome, less costly, and most importantly, more specific than current biologics for the treatment of inflammatory conditions, and conceivably complement the actual therapies for these chronic and debilitating inflammatory diseases.

Human polymorphonuclear leukocytes produce cytokines in response to Leishmania major promastigotes.

Polymorphonuclear leukocytes (PMN) release cytokines that may influence the development of the subsequent adaptive immune response. Little is known about cytokines produced by human PMN in response to Leishmania (L.). In this study, mRNA expression of Interleukin (IL)-12p40, IL-12p35, Interferon (IFN)-γ, transforming growth factor (TGF)-ß, IL-1, and IL-4 in PMN of volunteers stimulated with L. major promastigotes has been investigated by real-time PCR and the results were confirmed by flow cytometer. The results showed that L. major did not induce mRNA expression of IL12p40, IL12p35, IFN-γ, and TGF-ß in PMN, while IL-1 and IL-4 mRNA were induced. Flow cytometry results confirmed no IFN-γ production by PMN with or without stimulation. IL-12p70 was present in untreated and L. major-treated PMN, and these cells release IL-12 following incubation with L. major. Significant amount of IL-1 even without treatment with promastigotes was detected in PMN. Moreover, the proportion of PMN, which produce IL-1 in response to L. major, was increased compared with the percent of unstimulated IL-1-producing PMN. The results showed the accumulation of small amounts of IL-4 in PMN after stimulation. In conclusion, our results indicate that IL-12 and IL-1 are pre-stored in human PMN, nor L. major induces IL-1 and IL-4, but not IL-12, IFN-γ, nor TGF-ß expression in these cells.