Th17 Pathway Research Articles

Nanoparticle containing recombinant excretory/secretory-24 protein of Haemonchus contortus enhanced the cellular immune responses in mice

Haemonchus contortus poses a global challenge as a parasite affecting small ruminants, yet the problem of absence of an effective vaccine against H. contortus infection still exists. This investigation sought to appraise the immunological reaction induced by recombinant H. contortus excretory/secretory-24 (rHcES-24) in combination with complete Freund’s adjuvant (CFA) and bio-polymeric nanoparticles (NPs) within a murine model. In this study, rHcES-24 was encapsulated in poly(d, l-lactide-co-glycolide) (PLGA) and chitosan (CS) NPs, administered subcutaneously to mice. Researchers analyzed the NPs using scanning electron microscope (SEM) and assessed lymphocyte proliferation, specific antibodies, cytokines, T cell proliferation (CD3e+CD4+, CD3e+CD8a+), and phenotypic alteration in splenocytes (CD11c+CD83+, CD11c+CD86+) through flow cytometry to understand the immune response. The results demonstrated that the administration of nanovaccines (NVs) prompted immune responses towards Th1 pathway. This was indicated by notable enhancements in the production of specific antibodies, heightened cytokine levels, and a robust proliferation of lymphocytes observed in mice that received the NVs compared to control groups. Remarkably, mice vaccinated with the antigen-loaded NPs formulations exhibited considerably higher proportions of splenic dendritic cells (DCs) and T cells in comparison to those receiving the traditional adjuvant or the control groups. Incorporating HcES-24 protein into NPs effectively conferred immunity against H. contortus, paving the way for developing a targeted and commercial vaccine.

Single-cell RNA sequencing analysis identifies acute changes in the tumor microenvironment induced by interferon α gene therapy in a murine bladder cancer model

IntroductionNadofaragene firadenovec (Ad-IFNα/Syn3) is now approved for BCG-unresponsive bladder cancer (BLCA). IFNα is a pleiotropic cytokine that causes direct tumor cell killing via TRAIL-mediated apoptosis, angiogenesis inhibition, and activation of the innate and adaptive immune system. We established an immunocompetent murine BLCA model to study the effects of murine adenoviral IFNα (muAd-Ifnα) gene therapy on cancer cells and the tumor microenvironment using a novel murine equivalent of Nadofaragene firadenovec (muAd-Ifnα).MethodsTumors were induced by instilling MB49 cells into the bladders of mice; luciferase imaging confirmed tumor development. Mice were treated with adenovirus control (Ad-Ctrl; empty vector), or muAd-Ifnα (3x1011 VP/mL), and survival analysis was performed. For single-cell sequencing (scRNAseq) analysis (72h), bladders were harvested and treated with collagenase/hyaluronidase and TrypLE for cell dissociation. Single cells were suspended in PBS/1% FBS buffer; viability was assessed with Vicell cell counter. scRNAseq analysis was performed using 10X genomics 3’ sequencing. Raw RNAseq data were pre-processed using Cell Ranger single-cell software. Seurat (R package) was used to normalize and cluster the scRNA data. Pooled differential gene expression analysis in specific cell clusters was performed with DESeq2.ResultsWe identified 16 cell clusters based on marker expression which were grouped into epithelial (tumor), uroplakin-enriched, endothelial, T-cells, neutrophils, and macrophage clusters. Top differentially expressed genes between muAd-Ifnα and Ad-Ctrl were identified. Within the specific cell clusters, IPA analysis revealed significant differences between muAd-Ifnα and control. IFNα signaling and hypercytokinemia/chemokinemia were upregulated in all clusters. Cell death pathways were upregulated in tumor and endothelial clusters. T-cells demonstrated upregulation of the immunogenic cell death signaling pathway and a decrease in the Th2 pathway genes. Macrophages showed upregulation of PD1/PD-L1 pathways along with downregulation of macrophage activation pathways (alternate and classical). Multiplex immunofluorescence confirmed increased infiltration with macrophages in muAd-Ifnα treated tumors compared to controls. PD1/PD-L1 expression was reduced at 72h.DiscussionThis single-cell analysis builds upon our understanding of the impact of Ad-IFNα on tumor cells and other compartments of the microenvironment. These data will help identify mechanisms to improve patient selection and therapeutic efficacy of Nadofaragene firadenovec.

Th17 and T Regulatory Cytokines in Serum, Lesional Skin, and Stimulated Peripheral Blood Mononuclear Cell Culture Supernatants from Type 1 Leprosy Reaction Patients

There are conflicting reports regarding the roles of T helper-17 (Th17) and T regulatory (Treg) cells in type 1 leprosy reactions (T1Rs). Also, literature on the correlation of immunological parameters with a validated scoring system and the effect of treatment on cytokines is lacking. Adult patients with untreated T1R and nonreactional spectrum–matched controls were included in the study for comparison of levels of Th17 and Treg pathway cytokines in serum, skin lesions (reactional), and peripheral blood mononuclear cells (PBMCs) culture supernatants. Venous blood samples were collected at baseline and after resolution of reaction (post treatment with nonsteroidal anti-inflammatory drugs [NSAIDs] or steroids) for serum cytokine estimation and PBMC stimulation assays, and lesional (reactional) skin biopsy for cytokine messenger RNA (mRNA) estimation. Thirty-two cases of T1R were recruited (23 patients completed follow-up). Serum levels of cytokines were not significantly different between cases and controls or between pre- and post-treatment samples. Tissue mRNA and Mycobacterium leprae (M. leprae) antigen–stimulated PBMC culture supernatant levels of Interleukin (IL)-17A, IL-17F, IL-6, and IL-23 were significantly higher in T1R than in controls. Levels of IL-10 and Transforming Growth Factor-beta (TGF-β) were comparable among the two groups. The levels of all cytokines were significantly reduced after treatment. There was no significant difference in magnitude of the fall between those treated with steroids versus NSAIDs. This study suggests heightened Th17 response in T1R, with a prominent inability of the regulatory cytokines IL-10 and TGF-β to control the associated inflammation. The dynamics of change after resolution of T1R were comparable between NSAID and oral steroid treatment groups.

Prognostic value of IL-22 levels and the TH17 pathway in patients with acute myocardial infarction

Abstract Introduction Acute myocardial infarction (AMI) induces a surge in inflammatory cytokines and cells including T helper cells (TH). TH17 cells are activated by pro-inflammatory cytokines such as IL-1, IL-6, and IL-21; they secrete IL-17 and IL-22 to promote neutrophil chemotaxis and to induce pro-inflammatory cytokine secretion from macrophages. Purpose We aimed to explore the prognostic value of the TH17 pathway and its component cytokines in AMI patients. Methods Patients with AMI (STEMI and NSTEMI) were included from the SPUM-ACS cohort (total N=4,787) selecting a time window <24 h from symptom onset to blood sampling before PCI. Patients with malignancies or immunosuppressive therapies were excluded. 160 patients who experienced death (N=85) or recurrent AMI (N=75) within 1-year follow-up (AMI-case) were compared to 152 counterparts with favorable outcome matched for age, sex, AMI subtype, and onset time (AMI-control). 45 healthy blood donors (HD) without cardiovascular disease were added as a reference group. Cytokine levels were reported as median + IQR and were analyzed with multivariate linear regression. Group comparisons were made using the Mann-Whitney U test or Kruskal-Wallis test and multiple comparisons corrected with Dunn’s test. Kaplan-Meier curves were cut off at a median IL-22 level and tested with Log-rank test. Results Our measurement showed correlation among components in TH17 pathway. IL-22 was significantly associated with IL-1β (β=-3.027e-1, p=0.0164), IL-6 (β=5.413e-3, p<0.0001), and IL-21 (β=3.567e-2, p<0.0001), but not with IL-1α or IL-1RA. IL-22 was not correlated with IL-17. Age (median=71.45 vs 71.30 years, p>0.05), percentage of women (23.8% vs 19.7%, p>0.05), and percentage of STEMI (70.6% vs 69.7%, p>0.05) did not differ between AMI-case and AMI-control. AMI-case and AMI-control both showed higher plasma IL-22 levels than HD, whereas there was no difference between AMI groups (Figure 1A). AMI patients who died within 1-year follow-up had higher IL-22 levels than those with recurrent AMI (Figure 1B). Regarding TH17 activation, patients who died had higher IL-17 levels (Figure 1C). Median IL-22 (4.86 pg/mL) levels were tested for predicting outcome: Patients with higher IL-22 levels had more risk for death or recurrent AMI (p=0.0253, Figure 2A). The mortality of patients above median IL-22 levels was higher than those below (p=0.0126); The KM-curves diverged early in less than 1 month after the initial event (Figure 2B). Conclusions Upstream regulators (IL-1β, IL-6) correlated with downstream effectors (IL-22, IL-17) within the pathways involving TH17 cells. Both IL-22 and Il-17 were higher in AMI patients who died within one year than in similar patients who survived. Investigating TH-17- and IL-22-related pathways may be of interest for further investigation in patients with AMI.

Identification of susceptibility loci and relevant cell type for IgA nephropathy in Han Chinese by integrative genome-wide analysis.

Although many susceptibility loci for IgA nephropathy (IgAN) have been identified, they only account for 11.0% of the overall IgAN variance. We performed a large genome-wide meta-analysis of IgAN in Han Chinese with 3616 cases and 10 417 controls to identify additional genetic loci of IgAN. Considering that inflammatory bowel disease (IBD) and asthma might share an etiology of dysregulated mucosal immunity with IgAN, we performed cross-trait integrative analysis by leveraging functional annotations of relevant cell type and the pleiotropic information from IBD and asthma. Among 8 669 456 imputed variants, we identified a novel locus at 4p14 containing the long noncoding RNA LOC101060498. Cell type enrichment analysis based on annotations suggested that PMA-I-stimulated CD4+CD25-IL17+ Th17 cell was the most relevant cell type for IgAN, which highlights the essential role of Th17 pathway in the pathogenesis of IgAN. Furthermore, we identified six more novel loci associated with IgAN, which included three loci showing pleiotropic effects with IBD or asthma (2q35/PNKD, 6q25.2/SCAF8, and 22q11.21/UBE2L3) and three loci specific to IgAN (14q32.32/TRAF3, 16q22.2/TXNL4B, and 21q21.3/LINC00113) in the pleiotropic analysis. Our findings support the involvement of mucosal immunity, especially T cell immune response and IL-17 signal pathway, in the development of IgAN and shed light on further investigation of IgAN.

HLA-DR+ regulatory T cells and IL-10 are associated with success or failure of desensitization outcomes.

Omalizumab (XOLAIR®)-assisted multi-food oral immunotherapy (mOIT) has been shown to safely, effectively, and rapidly desensitize patients with multiple food allergies. In our clinical trial (NCT02626611) on omalizumab-assisted mOIT, different desensitization outcomes (success or failure of desensitization) were observed following a period of either continued or discontinued mOIT. However, the association between the immunological changes induced by omalizumab-assisted mOIT and desensitization outcomes has not yet been fully elucidated. In this study, due to the key roles of regulatory T (Treg) cells and the type 2 helper T cell (Th2) pathway in immune tolerance to food allergens, we aimed to characterize their association with the desensitization outcomes of omalizumab-assisted mOIT. Mass cytometry and multiplex cytokine assays were performed on blood samples obtained from participants with allergies to peanut, cashew, or milk in our phase 2 clinical study (NCT02626611). Comprehensive statistical and bioinformatic analyses were conducted on high-dimensional cytometry-based single-cell data and high-throughput multiplex cytokine data. Our results demonstrated that the frequency of HLA-DR+ Treg cells, and the production of Th2 cytokines (IL-4, IL-5, IL-13, and IL-9) as well as the immunoregulatory cytokine IL-10 by peripheral blood mononuclear cells (PBMCs) was significantly increased in cultures with allergen compared to cultures with media alone at baseline (Week 0). We also observed increased frequency of allergen responsive HLA-DR+ Treg cells and enhanced production of IL-10 by PBMCs in participants who achieved successful desensitization compared to those with failure of desensitization. However, the production of Th2 cytokines by PBMCs did not show significant differences between participants with different desensitization outcomes (success vs. failure of desensitization), despite omalizumab-assisted mOIT inducing a significant reduction in the production of Th2 cytokines. We demonstrated that the frequency of HLA-DR+ Treg cells and IL-10 cytokine production by PBMCs are associated with desensitization outcomes of omalizumab-assisted mOIT. These findings suggest potential immunological parameters that could be targeted to enhance desensitization success rates.

Neutrophils in Atopic Dermatitis.

Neutrophils have a critical role in inflammation. Recent studies have identified their distinctive presence in certain types of atopic dermatitis (AD), yet their exact function remains unclear. This review aims to compile studies elucidating the role of neutrophils in AD pathophysiology. Proteins released by neutrophils, including myeloperoxidase, elastase, and lipocalin, contribute to pruritus progression in AD. Neutrophilic oxidative stress and the formation of neutrophil extracellular traps may further worsen AD. Elevated neutrophil elastase and high-mobility group box 1 protein expression in AD patients' skin exacerbates epidermal barrier defects. Neutrophil-mast cell interactions in allergic inflammation steer the immunological response toward Th2 imbalance and activate the Th17 pathway, particularly in response to allergens or infections linked to AD. Notably, drugs alleviating pruritic symptoms in AD inhibit neutrophilic inflammation. In conclusion, these findings underscore that neutrophils may be therapeutic targets for AD symptoms, emphasizing their inclusion in AD treatment strategies.

Pharmacodynamic Response to Deucravacitinib, an Oral, Selective, Allosteric TYK2 Inhibitor, in a Global, Phase 2, Randomized, Double-Blind, Placebo-Controlled Psoriasis Trial.

Psoriasis, a chronic, immune-mediated, inflammatory disease, affects 2‒3% of the population. Tyrosine kinase 2 (TYK2) mediates cytokine signaling involved in adaptive [interleukin (IL)-12, IL-23] and innate (type-I interferons) immune responses; IL-23-driven T-helper (Th)17 pathways play a key role in chronic inflammation in psoriasis. In a phase 2 trial, deucravacitinib, an oral, selective, allosteric TYK2 inhibitor, reduced IL-23/Th17 and type-I interferon pathway expression in the skin of patients with moderate to severe plaque psoriasis, reductions that were accompanied by clinical improvement of psoriatic lesions. The aim of this study was to identify biomarkers of psoriatic disease in serum from patients enrolled in the phase 2 trial and to assess the effects of deucravacitinib on those biomarkers. Serum biomarkers from Olink proteomics and other quantitative assays were evaluated for a pharmacodynamic response to deucravacitinib treatment and correlation with psoriasis disease activity measures. Serum biomarkers associated with the IL-23/Th17 pathway [IL-17A, IL-17C, IL-19, IL-20, beta-defensin, and peptidase inhibitor 3 (PI3)] were upregulated in patients with psoriasis versus healthy controls. Deucravacitinib treatment reduced IL-17A (adjusted mean change from baseline at Day 85; 12mg once daily versus placebo; -0.240 versus -0.067), IL-17C (-14.850 versus -1.664), IL-19 (-96.445 versus -8.119), IL-20 (-0.265 versus -0.064), beta-defensin (-65,025.443 versus -7553.961), and PI3 (-14.005 versus -1.360) expression. Reductions in serum biomarker expression occurred in a dose- and time-dependent manner, with significant reductions from baseline seen with deucravacitinib doses ≥ 3mg twice daily (P ≤ 0.05). Biomarker expression correlated with disease activity measures such as Psoriasis Area and Severity Index (PASI) at baseline. Biomarker expression also correlated with PASI scores at Week 12. IL-23/Th17 pathway expression in the serum of patients with psoriasis is an indicator of disease activity and response to deucravacitinib treatment. NCT02931838.

Active Components of Wen Fei Fu Yang Qu Tan Fang and its Molecular Targets for Chronic Obstructive Pulmonary Disease Based on Network Pharmacology and Molecular Docking.

To investigate the mechanism of Wen Fei Fu Yang Qu Tan Fang (WFFYQTF) in the treatment of chronic obstructive pulmonary disease (COPD) using network pharmacology and pharmacodynamics. The TCMSP database was utilized to identify the chemical components and molecular targets of WFFYQTF. Cytoscape software was employed to construct a "drug component-target" network. COPD risk genes and intersecting molecular targets of WFFYQTF were identified using GeneCards, OMIM, and DisGeNET databases. The STRING website was the place where protein-protein interaction (PPI) analysis was performed. Cytoscape topological analysis was applied for screening out key targets of WFFYQTF. GO and KEGG enrichment analyses were conducted using the DAVID database to elucidate the treatment targets of COPD with WFFYQTF. A total of 136 active components of WFFYQTF were identified, including key components such as quercetin, kaempferol, and luteolin, which were found to be particularly significant. Additionally, 412 drug targets and 7121 COPD risk genes were screened out, and 323 treatment targets of COPD with WFFYQTF were determined by Wayne analysis. Core targets identified via PPI analysis included SRC, STAT3, AKT1, HSP90AA1, and JUN. Pathways such as the hypoxia responce, inflammatory response, PI3K/AKT pathway, TH17 pathway and MAPK pathway were obtained with GO and KEGG enrichment analyses. Molecular docking results suggested that quercetin could be soundly bound to STAT3 and AKT1, and kaempferol to SRC. WFFYQTF can effectively impede COPD progression through the coordinated action of multiple components, targets, and pathways during treatment.

Bacterial sepsis causes more dramatic pathogenetic changes in the Th1 pathway than does viral (COVID-19) sepsis: a prospective observational study of whole blood transcriptomes

ObjectivesThis study aimed to comprehensively compare host responses of patients with bacterial sepsis and those with viral (COVID-19) sepsis by analyzing messenger RNA (mRNA) and microRNA (miRNA) profiles to shed light on their distinct pathophysiological mechanisms.DesignProspective observational study.SettingWhole blood RNA sequencing was used to analyze mRNA and miRNA profiles of patients diagnosed as having bacterial sepsis or viral (COVID-19) sepsis at the Department of Trauma and Emergency Medicine, Osaka University Graduate School of Medicine.PatientsTwenty-two bacterial sepsis patients, 35 viral (COVID-19) sepsis patients, and 15 healthy subjects admitted to the department were included. We diagnosed bacterial sepsis patients according to the sepsis-3 criterion that the Sequential Organ Failure Assessment score must increase to 2 points or more among patients with suspected infections. Viral (COVID-19) sepsis patients were diagnosed using SARS-CoV-2 RT-PCR testing, and presence of pneumonia was assessed through chest computed tomography scans.InterventionsNone.Measurements and main resultsFor RNA sequencing, 14,500 mRNAs, 1121 miRNAs, and 2556 miRNA-targeted mRNAs were available for analysis in the bacterial sepsis patients. Numbers of genes showing upregulated: downregulated gene expression (false discovery rate < 0.05, |log2 fold change| > 1.5) were 256:2887 for mRNA, 53:5 for miRNA, and 49:2507 for miRNA-targeted mRNA. Similarly, in viral (COVID-19) sepsis patients, 14,500 mRNAs, 1121 miRNAs, and 327 miRNA-targeted mRNAs were analyzed, with numbers of genes exhibiting upregulated: downregulated gene expression of 672:1147 for mRNA, 3:4 for miRNA, and 165:162 for miRNA-targeted mRNA. This analysis revealed significant differences in the numbers of upregulated and downregulated genes expressed and pathways between the bacterial sepsis and viral (COVID-19) sepsis patients. Bacterial sepsis patients showed activation of the PD-1 and PD-L1 cancer immunotherapy signaling pathway and concurrent suppression of Th1 signaling.ConclusionOur study illuminated distinct molecular variances between bacterial sepsis and viral (COVID-19) sepsis. Bacterial sepsis patients had a greater number of upregulated and downregulated genes and pathways compared to viral (COVID-19) sepsis patients. Especially, bacterial sepsis caused more dramatic pathogenetic changes in the Th1 pathway than did viral (COVID-19) sepsis.

Investigation of transcriptional and immunological disparities among patient groups with varied prognostic risk factors in cholangiocarcinoma.

This study explores molecular features associated with better prognosis in cholangiocarcinoma (CCA). The transcriptomic and whole-exome sequencing data obtained from paired tissues of 70 were analyzed, grouping them based on progression-free survival (PFS), differentiation degree, and lymph node metastasis. Among the 70 patients, the TP53 gene mutation frequency was the highest (53%), while FLG gene mutation occurred exclusively in the long PFS group. In the comparison between long and short survival groups, the short PFS group exhibited higher monocyte infiltration levels (p = 0.0287) and upregulation of genes associated with cancer-related transcriptional misregulation, chemokine signaling, and cytokine-cytokine receptor interactions. Differences in immune cell infiltration and gene expression were significant across differentiation and lymph node metastasis groups. Particularly noteworthy was the marked increase in CD8 T cell and NK cell infiltration (p = 0.0291, 0.0459) in the lymph node metastasis group, significantly influences prognosis. Additionally, genes related to platinum resistance, Th17 cell differentiation, and Th1 and Th2 cell differentiation pathways were overexpressed in this group. In summary, higher monocyte infiltration levels in the short PFS group, along with elevated expression of genes associated with cancer-related pathways, suggest a poorer prognosis. The significant increase in CD8 T cell and NK cell infiltration reflects an enhanced anti-tumor immune response, underscoring the relevance of immune infiltration levels and gene expression in predicting outcomes for CCA patients. In this study, we elucidated the pertinent molecular mechanisms and pathways that influence the prognosis of CCAs through comprehensive multi-omics analysis.

Th17 pathway‐related immune signatures in the pathobiology of myasthenia gravis: Integrating the roles of regulatory/effector cytokines and transcription factors

AbstractObjectivesMyasthenia gravis (MG) is an autoimmune disorder mediated by antibodies against the acetylcholine receptor (AChR), muscle specific kinase (MuSK), and other antigens in the neuromuscular junction. Antibody production is influenced by T lymphocytes. The T helper 17 (Th17) subset, an inflammatory lineage of Th cells, is associated with several autoimmune diseases. Functional interactions between T lymphocytes and pathogenic antibody responses including aberrant Th17 cell responses have been reported in MG. However, the precise mechanism(s) underlying the activation and/or pathogenic transformation of Th17 cells are not clearly known. The current study aimed at simultaneously exploring the roles of the inducers, master regulator transcription factors, and effectors of Th17 cells in patients with MG.MethodsIn this cross‐sectional study, quantification of gene expression of IL6, IL17A, STAT3, and RORC in the peripheral mononuclear cells by quantitative polymerase chain reaction (qPCR) as well as estimation of plasma levels of IL‐1β, IL‐6, and IL‐17A cytokines by multiplex suspension assay were carried out in 59 patients with MG and 61 healthy controls.ResultsGene expression levels of IL17A were significantly upregulated in patients as compared to healthy controls. The plasma levels of IL‐1β, IL‐6, and IL‐17A were significantly elevated in patients compared to healthy controls. IL17A as well as RORC gene expressions correlated with the clinical features. IL17A gene expression levels were higher in AChR‐MG patients.ConclusionThe present study supports the crucial role of the Th17 pathway in the pathobiology of MG, including its potential influence on disease severity.

Four amino acids play an important role in the allergenicity of hemocyanin allergen

To identify the key amino acids (AAs) affecting the allergenicity of hemocyanin (HC) allergens from Chinese mitten crabs, in this study, two epitopes, P1-SHFTGSKSNPEQR and P2-LSPGANTITR were employed and four potential key AAs (P1: F3 and N9 and P2: N6 and R10) were predicted. Mast cell and mouse models revealed that four mutants induced lower levels of immunoglobulin E (IgE) and Th2 type cytokines (15.47–49.89 %), proving that F3, N9, N6, and R10 were the key AAs of two epitopes. Mutants reduce allergic responses via the Th2 pathway. However, the roles of every key AA affecting allergenicity were different (P1-F3 > N9 and P2-N6 > R10). In addition, lower transport and higher efflux were observed in the mutants during transport absorption by Caco-2 cells. The allergenicity of HC was stronger when the transport absorption efficiency of epitopes and mutants was higher and their efflux was lower. Our study provides a novel method for revealing the allergenic molecular mechanisms of food allergens.

Glutenin from the Ancient Wheat Progenitor Is Intrinsically Allergenic as It Can Clinically Sensitize Mice for Systemic Anaphylaxis by Activating Th2 Immune Pathway.

Wheat allergy is a major type of food allergy with the potential for life-threatening anaphylactic reactions. Common wheat, Triticum aestivum (hexaploid, AABBDD genome), was developed using tetraploid wheat (AABB genome) and the ancient diploid wheat progenitor (DD genome)-Aegilops tauschii. The potential allergenicity of gluten from ancient diploid wheat is unknown. In this study, using a novel adjuvant-free gluten allergy mouse model, we tested the hypothesis that the glutenin extract from this ancient wheat progenitor will be intrinsically allergenic in this model. The ancient wheat was grown, and wheat berries were used to extract the glutenin for testing. A plant protein-free colony of Balb/c mice was established and used in this study. The intrinsic allergic sensitization potential of the glutenin was determined by measuring IgE response upon transdermal exposure without the use of an adjuvant. Clinical sensitization for eliciting systemic anaphylaxis (SA) was determined by quantifying the hypothermic shock response (HSR) and the mucosal mast cell response (MMCR) upon intraperitoneal injection. Glutenin extract elicited a robust and specific IgE response. Life-threatening SA associated and a significant MMCR were induced by the glutenin challenge. Furthermore, proteomic analysis of the spleen tissue revealed evidence of in vivo Th2 pathway activation. In addition, using a recently published fold-change analysis method, several immune markers positively and negatively associated with SA were identified. These results demonstrate for the first time that the glutenin from the ancient wheat progenitor is intrinsically allergenic, as it has the capacity to elicit clinical sensitization for anaphylaxis via activation of the Th2 pathway in vivo in mice.

Eosinophils in hidradenitis suppurativa patients exhibit pro-inflammatory traits, implicating a potential pathogenic role in the disease.

Hidradenitis suppurativa (HS) is an inflammatory skin disease characterized by painful nodules, abscesses and purulent secretions in intertriginous regions. Intense pruritus frequently accompanies HS lesions, adding further discomfort for patients. While Th17 pathway activation is implicated in HS pathogenesis, disease mechanisms are still not fully understood, and therapeutics are lacking. Previous reports raise a potential role for eosinophils in HS, showing a strong association of eosinophil levels with disease severity. To investigate eosinophils in HS, we recruited patients and matched healthy controls and then performed flow-cytometry studies, eosinophil stimulation assays, and lesional skin staining for eosinophils. We found that HS patients reported similar levels of pain and itch. Compared to matched controls, HS blood exhibited decreased mature eosinophils and increased numbers of immature eosinophils, coupled with a significant increase in dermal eosinophilic infiltrates. Additionally, IL-17RA+ eosinophils were highly and significantly correlated with multiple HS-related clinical scores. In both stimulated and unstimulated conditions, HS eosinophils showed an inflammatory phenotype versus controls, including an increase in costimulatory T- and B-cell markers (e.g. CD5 and CD40) following all stimulations (TNFα/IL-17A/IL-17F). These findings highlight the significance of pruritus in HS and suggest a higher turnover of eosinophils in HS blood, potentially due to the consumption of eosinophils in skin lesions. Our data delineate the features and functions of eosinophils in HS and suggest that eosinophils participate in disease pathogenesis, advancing Th17-related inflammation. Further studies are needed to investigate eosinophils' response to current HS treatments and their potential as a therapeutic target in the disease.

Recent advances in treatment of prurigo nodularis

Abstract Prurigo nodularis is a chronic skin condition which has significant negative impacts on the psychosocial function and quality of life of affected patients. It is a heterogeneous disease with complex underlying pathogenic mechanisms, and the clinical efficacy of traditional treatment options is often limited. Recently, great advances have been made in the pathogenesis of prurigo nodularis, which have enabled the development of novel targeted therapies for this disease. Various clinical trials have investigated the therapeutic efficacy of biologics which target the Th2 pathway. Dupilumab, a monoclonal antibody targeting interleukin 4 (IL-4) receptor α, has shown clinical efficacy and obtained United States Food and Drug Administration approval for prurigo nodularis. In addition, nemolizumab (IL-31 receptor A antagonist) and vixarelimab (oncostatin M receptor β antagonist) have shown therapeutic efficacy in clinical trials for prurigo nodularis. Small-molecule inhibitors with clinical promise which are currently under investigation include nalbuphine (opioid receptor modulator), Janus kinase inhibitors, and aprepitant and serlopitant (neurokinin-1 receptor antagonists). The recent development of new biologics and small-molecule inhibitors targeting various immunological and neurological signaling pathways have provided great hope that we are entering a new era of targeted therapies for this challenging clinical condition. In addition, recent advances in RNA sequencing technology may enable the identification of unique signaling pathways and the development of novel treatments for this disease in the future. In this review article, we summarize the current knowledge of the pathogenesis of prurigo nodularis, and discuss recent advances in treatment for this challenging clinical condition.

Expression of Hormones' Receptors in Human Corneal Endothelium from Fuchs' Dystrophy: A Possible Gender' Association.

Background: Age and sex are the most significant risk of factors for advanced Fuchs dystrophy. Nevertheless, few data are available on the hormone's receptor pattern expressed in adult and advanced fuchs endothelial corneal dystrophy (FECD). We investigated the impact of gender, growth factors and extracellular matrix (ECM) regulatory proteins expressed by the dystrophic endothelia. Methods: Ten dystrophic endothelial tissues and 10 normal endothelial sheets (corneoscleral specimens; Eye Bank) were used for this characterization study. Hormones' receptors (ERα, AR, PR, SHBG), few growth factors (VEGFA, βNGF, TGFβ1), some ECM regulators (MMP1, MMP7) and few inflammatory cytokines (IFNγ, IL10) were analyzed by real-time RT-PCR. Results: ERα transcripts were significantly increased, AR and SHBG transcripts were decreased in Fuchs endothelia from female patients, and no changes were detected for PR transcripts. VEGFA, βNGF and TGFβ1 transcripts were upregulated in Fuchs' endothelia, but not significantly linked to gender. High MMP1 and low MMP7 transcripts' expression were detected in Fuchs' specimens, mainly in males than females. An increased IFNγ (Th1) transcript expression was observed in females than males, and a trend to increase for IL10 (Th2) transcripts was detected in males than females. Conclusions: Our findings clearly indicate that hormone receptors, growth factors and matrix mediators as well as a Th1 pathway are predominant in Fuchs' dystrophy, displaying a pattern of expression specific for the female phenotype. The differential expression of hormones' receptors and the Th1/Th2 ratio might prompt to new theories to be tested in vitro and in vivo models, such as the use of hormonal substitute for counteracting this endothelial cell lost.

Single-cell RNA sequencing revealed the role of the Th17 pathway in the development of anti- human leukocyte antigen antibodies in a highly sensitized mouse model.

The aim of this study is to investigate the specific pathway involved in human leukocyte antigen (HLA) sensitization using single-cell RNA-sequencing analysis and an allo-sensitized mouse model developed with an HLA.A2 transgenic mouse. For sensitization, wild-type C57BL/6 mouse received two skin grafts from C57BL/6-Tg(HLA-A2.1)1Enge/J mouse (allogeneic mouse, ALLO). For syngeneic control (SYN), skin grafts were transferred from C57BL/6 to C57BL/6. We performed single-cell RNA-sequencing analysis on splenocytes isolated from ALLO and SYN and compared the gene expression between them. We generated 9,190 and 8,890 single-cell transcriptomes from ALLO and SYN, respectively. Five major cell types (B cells, T cells, natural killer cells, macrophages, and neutrophils) and their transcriptome data were annotated according to the representative differentially expressed genes of each cell cluster. The percentage of B cells was higher in ALLO than it was in SYN. Kyoto Encyclopedia of Genes and Genomes enrichment analyses indicated that the highly expressed genes in the B cells from ALLO were mainly associated with antigen processing and presentation pathways, allograft rejection, and the Th17 cell differentiation pathway. Upregulated genes in the T cells of ALLO were involved in the interleukin (IL)-17 signaling pathway. The ratio of Th17 cluster and Treg cluster was increased in the ALLO. On flow cytometry, the percentage of Th17 (IL-17+/CD4+ T) cells was higher and regulatory T cells (FOXP3+/CD4+ T) was lower in the ALLO compared to those in the SYN. Our results indicate that not only the B cell lineage but also the Th17 cells and their cytokine (IL-17) are involved in the sensitization to HLA.

Phase II trial of weekly or bi-weekly tocilizumab with ipilimumab and nivolumab in advanced melanoma: Clinical outcomes and biomarker analysis.

9553 Background: Combination immune-checkpoint inhibitors (ICIs) improved outcomes in a plethora of cancer subtypes. However, up to 60% of patients (pts) receiving ipilimumab (ipi) plus nivolumab (nivo) experience grade 3/4 (G 3/4) immune-related adverse events (irAEs), often leading to treatment discontinuation. We evaluated two therapeutic strategies targeting interleukin-6 receptor (IL-6R) to reduce irAEs while enhancing ICls efficacy. Methods: Phase Il trial (NCT04940299) investigating safety/efficacy of frontline tocilizumab (toci; IL-6R inhibitor) combined with ipi 3mg/kg + nivo 1mg/kg Q3 weeks (wks) for 12 wks in advanced melanoma. Initially, toci was given as 162 mg subcutaneously (SQ) bi-weekly for 6 doses (regular dosing regimen; RD). Then, we escalated to a dose dense (DD) regimen (162 mg SQ weekly for 6 wks then bi-weekly for 6 wks; 9 doses total). Primary objective was rate of G 3/4 irAEs. Secondary objectives were objective response rates (ORR) and disease control rate (DCR) per RECIST 1.1. Exploratory objectives involved immune analysis (gene expression, CyTOF, cytokine analysis) on longitudinal blood and tissue samples to identify drivers of auto- vs antitumor immunity. Results: As of Feb 2024, 35 pts were enrolled (25 pts to RD regimen; 10 pts to DD regimen). In RD group, median follow-up is 18 months (6 - 25 months). By 12 wks, 44% of pts developed G 3/4 irAEs including colitis (20%), hepatitis (16%), pancreatitis (12%), type I diabetes and serum sickness (4% each) and 20% of pts required hospitalization due to irAEs. Median time to G 3/4 irAEs onset was 7.4 wks. 16% of pts discontinued ICIs due to irAEs. ORR was 56% at 12 wks including 40% in pts with high LDH and DCR was 80%. Gene expression analysis showed a trend towards higher expression of IL-17 pathway genes in pts who developed G 3/4 irAEs, suggesting IL-6/Th17 pathway was not sufficiently inhibited. Thus, we enrolled 10 pts into the DD regimen aiming to achieve better inhibition of the IL-6/Th17 pathway. In DD group, median follow-up is 7 months (3 - 13 months). By 12 wks, 40% of pts developed G 3/4 irAEs, including colitis (10%), hepatitis (20%), and uveitis (10%) and 30% of pts required hospitalization due to irAEs. Median time to G 3/4 irAEs onset was 4.9 wks. 30% of pts discontinued ICIs due to irAEs. ORR was 70% at 12 wks including 75% in pts with high LDH and DCR was 80%. Conclusions: To our knowledge, this is the first study to investigate toci in combination with high dose ipi3/nivo1. Although our cohort is small, preliminary data suggests IL-6R blockade using the DD regimen could decrease the rate of G 3/4 irAEs while maintaining antitumor responses of ipi3/nivo1. A randomized phase ll trial investigating this strategy is underway. Ongoing immune analysis comparing treatment regimens aims to identify distinct pathways involved in auto- vs antitumor immunity and IL-6/Th17 independent pathways of toxicity. Clinical trial information: NCT04940299 .

Intralesional nivolumab in oral potentially malignant disorders: A phase 1 pilot study on safety, tolerability, and preliminary efficacy.

6016 Background: Oral Potentially Malignant Disorders (OPMD) encompass a diverse group of oral mucosal diseases, including the prevalent oral leukoplakia (OL), serving as precursors to invasive oral squamous cell carcinoma. OPMD exhibits an annual malignant transformation rate up to 36%. Despite the breadth of research on OPMD the standard-of-care remains surgery or observation. We aim to evaluate the safety and tolerability of intralesional injections of Nivolumab in patients with OPMD. Secondary objectives include assessing objective response rate and pathologic complete response rate. We describe the results of an immune prevention trial designed to avoid systemic toxicities of immunotherapy in patient with pre-malignancy by administrating aPD1 intralesionaly. Methods: Phase 1, single-arm, open-label, dose-escalation pilot study that involves intralesional injections of Nivolumab (index lesion) in patients with high-risk OPMD lesions every 3 weeks (total of 4 doses, 12 weeks). Non-index, non-injected, oral lesion(s) were also documented and monitored. The study includes two dose cohorts (10 mg and 20 mg) to assess maximally tolerated dose with a 3 + 6 dose-escalation design. Adverse events were reported according to NCI CTCAE Version 5.0. Serial biopsies at baseline and up to 8 weeks after treatment were taken to assess efficacy using a composite score (i.e., size and degree of dysplasia) in index lesion. Major response was defined as &gt;80% decrease in score; partial response as 40%-80% decrease. Freshly frozen tumors were subjected to RNA sequencing and gene pathway analysis to identify biomarkers of response or progression. Results: At the time of data analysis, 13 patients have completed treatment (61.5% males), both dose levels were well tolerated. The adverse event grades ranged from grade 1 (i.e. diarrhea, elevated LFT and skin rash) constituting the majority at 80.5% of reported adverse events, grade 2 (i.e. skin rash, cellulitis) at 13.9%, and grade 3 (i.e. hypertension) at 5.6%. Ten patients had multifocal disease. Major response was observed in 22.5% and partial response in 50% of the patients. One patient progressed to invasive SCC in a non-index lesion. RNA sequencing based immune phenotyping revealed increased infiltration of CD8 cytotoxic T cells in index lesions after treatment. Pathway analysis revealed significant alterations in immune pathways including Th1 and Th2 pathways, Natural killer and immunoregulatory pathways. Spatial transcriptome analysis and pharmacokinetics data are pending. Conclusions: Intralesional nivolumab is well tolerated in OPMD with suggested potential biological and clinical activity. A randomized phase II trial to assess cancer free survival is recommended to determine the efficacy in preventing cancer progression. We recommend dose of 20mg for phase II as it was well tolerated. Clinical trial information: NCT05327270 .