Search Results (5,441)

Background: Virus-like particles (VLPs) represent key tools for the development of vaccines due to their ability to induce a potent immune response to epitopes presented on their surface. However, the decoration of VLPs with a complete heterologous protein on the surface remains a bottleneck for clinical translation due to the complexity of manufacture. We present a novel platform, EPIclip™, for the decoration of VLPs mediated by high-affinity protein binding partners, colicin E7 (ColE7) and immunity protein 7 (Im7), within a single prokaryotic host. We evaluate this approach using a modified hepatitis B core capsid protein and IL-31 as a model epitope. IL-31 is a prominent therapeutic target for the development of pruritic diseases. Methods: We explore the design and development of the platform, including the use of T-cell-stimulating peptides. We demonstrate several small-scale purification methods for the candidate VLP, as well as morphological analysis by transmission electron microscopy (TEM). Further, we vaccinate mice with IL-31-displaying VLPs to evaluate immunogenicity and the ability to prevent IL-31-induced pruritus in vivo. Results: Our results demonstrate that decorated VLPs dosed in mice elicit an IgG response against IL-31 with at least six months of durability. In addition, IL-31-displaying VLPs suppress the development of IL-31-induced pruritus, confirming in vivo target neutralisation. Notably, IL-31-displaying VLPs induce a strong T-cell response against the VLP capsid but not against the cytokine, confirming a B-cell-biased immune response and the absence of detrimental autoreactive T cells. We further demonstrate the translation of this system with an additional virus capsid: tomato aspermy virus (TAV). Conclusions: Taken together, the novel EPIclip™ platform may represent a promising therapeutic approach for pruritic diseases. Additionally, this modular system could be adapted for a wide range of research as well as human and veterinary therapeutic applications. Full article

IκBζ (NFKBIZ) has been implicated as a key co-transcription factor in psoriasis pathogenesis. While its role in keratinocytes is well established, the involvement in dermal fibroblasts, another critical skin cell type, remains underexplored. This study characterizes cytokine-induced NFKBIZ regulation in human dermal fibroblasts in vitro and integrates spatial transcriptomics to determine NFKBIZ expression patterns in psoriatic skin biopsies. Primary dermal fibroblasts were stimulated with IL-17A, IL-17F, and TNF. Signaling pathways and gene regulation were examined using chemical inhibitors, siRNA knockdown, qPCR, and Western blotting. Additionally, spatial transcriptomics (CosMx™) assessed NFKBIZ expression in paired lesional and non-lesional psoriatic skin biopsies. Results showed significant upregulation of IκBζ expression in dermal fibroblasts following stimulation with both IL-17A and IL-17F. The NF-κB signaling pathway was identified as the primary regulator of NFKBIZ induction. NFKBIZ knockdown significantly reduced cytokine-induced expression of inflammatory mediators (CXCL8, CCL20, CCL2), confirming its regulatory role. Spatial transcriptomics further confirmed NFKBIZ expression in dermal fibroblasts in vivo, particularly in lesional psoriatic skin. This study establishes IκBζ as a critical modulator of inflammatory responses in dermal fibroblasts, expanding its recognized role beyond keratinocytes and immune cells, and highlights IκBζ inhibition as a potential therapeutic strategy. Full article

The incidence of primary liver cancer is increasing annually, with extremely high mortality and suboptimal therapeutic outcomes. The inefficient presentation of tumor antigens and low infiltration of specific cytotoxic T lymphocytes (CTLs) result in insufficient immunogenicity, which limits the efficacy of immunotherapy. Despite the popularity of immune checkpoint inhibitors (ICIs), insufficient immune activation means only a small subset of hepatocellular carcinoma (HCC) patients exhibit clinical responses to ICIs, showing significant inter-individual variability. The activation of the cyclic GMP-AMP synthase(cGAS)- stimulator of interferon genes(STING) pathway initiates the expression of type I interferons (IFNs) and inflammatory cytokines, promoting the formation of a pro-inflammatory environment at the tumor site. This pathway enhances anti-tumor immune responses by facilitating antigen processing and presentation, T cell priming and activation, and remodeling of the immunosuppressive microenvironment. Our research found that cucurbitacin B (CuB), a natural component derived from traditional Chinese medicine, had significant anti-hepatocellular carcinoma properties and exerted anti-tumor effects through the cGAS-STING pathway. Specifically, CuB regulated ferroptosis by down-regulating the expression of Solute Carrier Family 7 Member 11 (SLC7A11) and Glutathione Peroxidase 4 (GPX4) and upregulating the expression of Transferrin Receptor Protein 1 (TFR1) and Long-chain Acyl-CoA Synthetase 4 (ACSL4). These actions involved lipid substrates, iron ion homeostasis, and antioxidant defense systems. The release of mitochondrial DNA (mtDNA) triggered by ferroptosis activated the cGAS-STING immune signaling pathway, leading to the up-regulation of cGAS, phosphorylated STING (p-STING), phosphorylated TANK-binding kinase 1 (TBK1), phosphorylated Interferon regulatory factor3 (IRF3), and Interferon-β (IFN-β). This cascade activation pattern provides new insights into the drug treatment of tumors. Full article

Basidiomycete mushrooms contain complex β-D-glucans which act as immunomodulator, immune stimulants and anti-cancer agents, which can be either free or bound to proteins. The present report consists of a novel and intrinsic synchronous fluorescence and phosphorescence assay method for β-D-glucans. This analytical technique was carried out by a spectrofluorometer in the range of 250 to 750 nm with a Δλ range of 5–30 nm which exhibited peaks at 492, 540 and 550 nm by using β-D-glucan from Euglena gracilis as a standard. A micro and high-throughput method based on a microplate fluorescence reader was devised with a excitation and emissions λ of 420 nm and 528 nm, respectively. This assay method revealed some advantages over the reported colorimetric methods, since it is a non-destructive assay method of β-D-glucans in samples with a linearity range of 0–14 μg/well, correlation coefficient (r2) of 0.9961, LOD of 0.973 μg/well, LOQ of 2.919 μg/well, greater sensitivity, fast, a high-throughput method and very economical. β-D-glucans of several mushrooms (i.e., Poria coccus, Auricularia auricula, Ganoderma lucidium, Pleurotus ostreatus, Cordyceps sinensis, Agaricus blazei, Polyporus umbellatus, Inonotus obliquee) were purified by using a sequence of various solvent extractions, quantified by either spectrofluorometer or fluorescence microtiter plate reader assay and compared with Congo red assay method. Three-dimensional spectra measurements were carried out on β-D-glucans from commercial sources and medicinal mushroom strains. FTIR spectroscopy was selected to investigate the structural properties of β-D-glucans in these mushroom samples. Therefore, the present assay method is simple, fast, cheap and non-destructive for β-D-glucans from medicinal mushrooms as well as from commercial sources. Full article

Recurrent pregnancy loss (RPL) is defined as the loss of two or more pregnancies before the 22nd gestational week and affects 10–15% of clinical pregnancies. Despite extensive diagnostics, over 50% of RPL cases remain unexplained, suggesting an important role for immunological mechanisms. Sex hormones (SH) are key regulators of immune responses during pregnancy; however, their influence on immune checkpoint proteins (ICPs) is poorly understood. This study evaluated the effects of progesterone, β-estradiol, and dihydrotestosterone (DHT) on ICP expression on immune cells, including Treg, NK, NKT, TC, Th, and T cells, collected from pregnant women and patients with unexplained RPL (uRPL). Peripheral blood mononuclear cells from 20 pregnant women and 20 uRPL patients were cultured for 48 h with SH. The expression of the first generation of ICPs—PD-1 and TIM-3—and the second—LAG-3, TIGIT, and VISTA—on T, NK, and NKT cells was analyzed by the flow cytometry method. In pregnant women, SH exerted modest effects, with DHT increasing VISTA and LAG-3 expression, while progesterone and estradiol mainly upregulated LAG-3 and TIM-3 on cytotoxic cells. In contrast, uRPL immune cells showed pronounced SH sensitivity, characterized by increased TIM-3 and VISTA expression and reduced TIGIT expression, particularly after DHT stimulation. In conclusion, SH modulates ICP expression in a cell-specific manner, with stronger effects observed in uRPL patients’ lymphocytes. These findings highlight a potential role for hormonal and ICP-targeted strategies in RPL management. Full article

The significance of gut epithelial cell autoantibodies (GECAs), human leukocyte antigen (HLA) alleles, and other scientifically relevant factors has been largely overlooked, despite their potential importance in the medical management of HIV-infected individuals, in understanding the pathogenesis of AIDS, and in improving epidemiological and diagnostic approaches. This review may be considered as a hypothesis-driven narrative paper mostly considering GECAs and some easily detectable genetic markers. Thus, the aim is to highlight these neglected medical and scientific issues. Addressing them may contribute to a deeper understanding of HIV pathology at both the individual and population levels. Autoantibodies against enterocytes (GECAs) are present in the majority of HIV-positive patients. These intestinal epithelial cells are crucial for nutrient absorption and because of their role as antigen-presenting cells (APCs) within the immune system. Furthermore, the number of CD4-positive lymphocytes depends largely on daily antigenic stimulation rather than on thymic function, which becomes residual or inactive after puberty. The fall of CD4+ lymphocyte counts observed in HIV-infected patients may therefore be exacerbated by enterocyte dysfunction/damage, as indicated by the presence of GECAs. These autoantibodies either cause or reflect damage to these important antigen-presenting cells, which may impair intestinal antigen presentation by their surface HLA proteins to the clonotypic T-cell receptor of lymphocytes. Additionally, the association between specific HLA alleles and a CCR5 variant affects HIV disease progression or transmission and should be considered in both adults and mother–infant pairs. In particular, HLA-B35 and HLA-B57 allelic groups have been implicated in influencing both the transmission and progression of HIV infection. Moreover, several aspects of the natural history of HIV infection remain unresolved and controversial, and these issues warrant urgent clarification. For instance, diagnostic tests are not yet standardised globally, and viral abundance in HIV-infected individuals or AIDS patients’ cells may be relatively low. In summary, the neglected facets of HIV infection demand renewed investigation, particularly now that an HIV diagnosis is no longer the devastating prognosis it once was. The objective of this work is to emphasise additional factors that may influence the course of AIDS, such as enterocyte injury reflected by presence of GECAs. Ultimately, we propose that GECAs may impair enterocytes’ HLA (MHC II)-mediated antigen presentation by enterocytes to CD4+ T lymphocytes (through T-cell receptors), thereby diminishing T-cell proliferation, reducing CD4+ cell numbers, and impairing immune function. Full article

Exaggerated immune responses to respiratory viruses may contribute to increased morbidity in older adults. To investigate virus-specific immune activation in this population, we developed an ex vivo whole blood stimulation model using samples from 30 healthy individuals aged ≥65 years. Whole blood was stimulated with UV-inactivated influenza A virus (IAV), respiratory syncytial virus (RSV), and SARS-CoV-2, and the expression of 22 immune-related genes was assessed by quantitative RT-PCR array. All three viruses elicited responses with marked variability across individuals, as well as differences in the magnitude and distribution of cytokine expression across stimuli. RSV stimulation was associated with relatively higher expression of inflammatory mediators, while IAV and SARS-CoV-2 induced greater expression of Type I interferon. SARS-CoV-2 also led to an increased expression of regulatory cytokines. Although individual responses varied, correlation analysis indicated coordinated gene expression within functional categories, and Uniform Manifold Approximation and Projection (UMAP) showed distinct grouping of cytokine responses by virus and function. These findings describe differential immune mRNA expression profiles in response to viral stimuli in older adults and may support future studies aimed at understanding age-related differences in host–virus interactions. Full article

Monkeypox virus (MPXV) is a zoonotic Orthopoxvirus responsible for Monkeypox (Mpox), historically associated with sporadic zoonotic transmission but increasingly characterised by sustained human-to-human spread. While vaccinia-based vaccination is known to confer cross-protection against MPXV, the durability of such immunity over a human lifetime remains incompletely characterised. Here, we assessed humoral and cellular immune responses to MPXV in octogenarians and nonagenarians vaccinated against smallpox during childhood. Twenty-three adults aged 79–94 years (median 83), who self-reported childhood vaccinia vaccination between 1925 and 1940, were recruited. MPXV-specific antibody responses were evaluated using ELISA, targeting homologous vaccinia and MPXV proteins, and live-virus neutralisation assays. Cellular immunity was assessed by IFN-γ ELISpot following stimulation with peptide pools derived from highly conserved vaccinia antigens. Responses were also obtained from younger, recently MVA–BN-vaccinated and unvaccinated control donors. All historically vaccinated participants exhibited MPXV-reactive IgG responses, with antibody binding and neutralisation levels comparable to recently vaccinated individuals. Functional neutralising activity against MPXV was detected in all donors, with ≥50% neutralisation observed in 78% of participants. Antibody concentrations correlated strongly with neutralisation capacity. T-cell responses were detectable in all historically vaccinated donors, most prominently against the major core protein A10L, although reduced magnitudes were observed in participants over 90 years of age. No MPXV-specific humoral or cellular responses were detected in unvaccinated controls. These findings demonstrate that childhood vaccinia vaccination induces durable humoral and cellular immunity against MPXV persisting for over seven decades. Historical smallpox vaccination status may therefore remain a relevant determinant of protection against Mpox. Full article

In vitro fertilisation via oocyte donation is a unique reproductive technique in which the embryo is fully separate from the receiver. This compels the immune system to exert more effort at the interface between the uterus and the remainder of the body. This setting has maintained interest in peri-transfer glucocorticoid treatment as a possible approach to modify endometrial immunity and enhance implantation. Nevertheless, the data for this procedure are disjointed and mostly derive from investigations on autologous in vitro fertilisation. This narrative review consolidates contemporary evidence on endometrial immunology in oocyte donation cycles, analysing the mechanistic basis, clinical results, and constraints related to peri-implantation glucocorticoid therapy. Outcomes from randomised studies in autologous cycles consistently demonstrate that there is no advantage in live birth rates, but the claimed improvements in clinical pregnancy rates are from heterogeneous and low-quality data. Limited research exists on people who have received oocyte donations. The majority are diminutive and non-random, often integrating glucocorticoids with other therapies such as antibiotics, granulocyte colony-stimulating factor, or endometrial damage. These designs inhibit the dissociation of the independent impact of glucocorticoids. Recent comprehensive randomised studies on recurrent implantation failure further demonstrate the lack of advantages in live births and highlight possible safety issues. The current data do not support the usual use of peri-transfer glucocorticoids in oocyte donation for in vitro fertilisation; nevertheless, short-term, low-dose treatment may be justified in meticulously chosen immunological profiles. There is an urgent need for rigorously designed randomised studies focused only on oocyte-donation recipients to elucidate the therapeutic effectiveness, safety, and suitable clinical context for glucocorticoid treatment in this expanding patient demographic. Full article

Current research on glial cells has primarily focused on central nervous system glial cells (CNS glia), with relatively fewer studies on EGCs. Given the critical role of EGCs in maintaining intestinal homeostasis and neural function, this study aimed to investigate their immunomodulatory effects under inflammatory conditions. Primary EGCs were isolated and an inflammatory model was established by treatment with lipopolysaccharide (LPS). Following LPS induction, cellular samples were collected for transcriptomic analysis to identify differentially expressed genes. The analysis revealed that 88 genes were significantly altered, with 60 upregulated and 28 downregulated. Through Gene Ontology (GO) classification, Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway mapping, and protein–protein interaction (PPI) network analysis, several key regulatory genes were identified: chemokine-related genes (IL8L2, IL8L1, CCL4, CCL5, and CX3CL1); negative feedback regulation-related genes (TNFAIP3 and ZC3H12A); homeostasis-maintaining genes (C1QB and LY86); and arachidonic acid metabolism-related genes (PTGS2 and GGT2). Under LPS stimulation without impairing EGC viability, EGCs may recruit immune cells by regulating the aforementioned genes. Additionally, arachidonic acid and its metabolites likely play important regulatory roles in EGC-mediated immunomodulation. These findings provide new theoretical insights and potential targets for further elucidating the pathogenesis of intestinal inflammation and developing targeted therapies. Full article

Background: Dengue virus (DENV) is becoming a global public health problem, but the immunogenicity of DENV structural proteins is not fully understood. Methods: We predicted the epitope-based immunogenicity of DENV proteins from four serotypes in silico and evaluated their efficacy in vitro (T-cell proliferation assays) and in vivo (ELISpot, qRT-PCR, and plaque reduction neutralization tests using murine splenocytes). We focused on the envelope protein, which contains envelope domain III. Immunogenic B-cell epitopes were predicted using BepiPred-2.0, and regions that induce T cell-mediated immune responses were analyzed using the immune epitope database (IEDB), which validates peptides presented on HLA class I. Results: Nine-amino-acid peptide candidates were selected based on a score of >0.1. The best peptide candidates were tested in T-cell proliferation assays to confirm the in silico data. Subsequently, BALB/c mice were vaccinated with candidate peptides showing immunity in the proliferation assay, and their splenocytes were analyzed. ELISpot and qRT-PCR data showed that some candidate peptides highly regulated cytokines, including interferon-γ, tumor necrosis factor-α, and interleukin-4. Murine sera were collected after peptide boosting 2 weeks apart. Stimulation of cellular immunity was confirmed for some candidates in plaque reduction neutralization tests. Full article

Background/Objectives: Whole-body cryotherapy (WBC), a brief exposure to extreme cold (−90 °C), has been proposed to modulate immune, metabolic, and stress-related pathways. This exploratory one-armed pilot study investigated the effects of an 18-session WBC protocol on immune markers, body composition, and perceived stress in healthy adults. Methods: Nineteen participants (mean age 52.9 ± 9.8 years) completed 18 WBC sessions over 9 weeks (3–6 min each), followed by a 9-week follow-up. Assessments were performed at baseline (M1), post-intervention (M2), and follow-up (M3). Primary outcomes included immune parameters (lymphocytes, granulocytes, cytokines, soluble ACE2), body composition (waist circumference, water compartments, lean mass), and perceived stress (Trier Inventory for Chronic Stress, TICS). Results: Waist circumference decreased from 83.8 ± 5.7 cm (M1) to 80.2 ± 4.2 cm (M2) (p = 0.001; M1 vs. M2; p = 0.004). Total body water (p = 0.008), lean body mass (p = 0.008), intracellular water (p = 0.005), and extracellular water (p = 0.021) also showed time-dependent effects. Immune modulation included increased lymphocytes (25.6 ± 7.1% to 29.3 ± 8.3%, p = 0.012) and decreased granulocytes (63.5 ± 6.8% to 58.7 ± 7.9%, p = 0.011) at M2. Anti-inflammatory IL-10 (virus-stimulated) rose markedly (33.5 ± 29.3 to 63.5 ± 50.5 pg/mL, p < 0.001), while IFN-γ (virus-stimulated) increased over time (p = 0.031). Soluble ACE2 decreased at follow-up (0.5 ± 0.7 to 0.3 ± 0.4 ng/mL, p = 0.029). Perceived stress improved in several TICS domains, including Work Overload (p = 0.009) and Pressure to Succeed (p = 0.018). Conclusions: This pilot study demonstrates that repeated WBC at −90 °C induces measurable changes in immune regulation, body composition, and perceived stress. These findings support the feasibility and potential physiological relevance of WBC and providing effect-size estimates for future randomized controlled trials. Full article

Interferon-stimulated genes (ISGs) are classically recognized for their direct antiviral functions, such as viral genome degradation or replication blockade. However, emerging evidence reveals that ISGs orchestrate a broader landscape of host defense by rewiring cellular metabolism. These mechanisms are still not fully understood in the context of antiviral immunity. This review synthesizes recent advances in understanding how ISGs modulate metabolic pathways (e.g., glycolysis, lipid metabolism, amino acids, and nucleotide metabolism) to create an antiviral cellular environment. However, viruses have developed strategies to evade or counteract ISG-encoded proteins, and some even hijack certain ISGs to their advantage. Therefore, we further explore how viruses subvert these ISG-driven metabolic to evade host defenses. Overall, we summarize the current state of knowledge on the interactions between viruses and ISGs and propose that ISGs act as “protective” or “pathogenic” regulators at the dimensions of metabolism, offering new perspectives for targeting host-centered pathways to combat viral infections. Full article

Aging is accompanied by progressive gastrointestinal structural and functional decline, increased intestinal permeability, dysbiosis, and impaired mucosal immunity, collectively elevating susceptibility to infections, chronic inflammation, and multimorbidity. These age-related changes are further exacerbated by polypharmacy, metabolic disorders, and lifestyle factors, positioning the gastrointestinal tract as a central driver of systemic physiological decline. Gut-centered interventions have emerged as critical strategies to mitigate these vulnerabilities and support healthy aging. Dietary modulation, prebiotic and probiotic supplementation, and microbiota-targeted approaches have demonstrated efficacy in improving gut microbial diversity, enhancing short-chain fatty acid production, restoring epithelial integrity, and modulating immune signaling in older adults. Beyond nutritional strategies, non-nutritional interventions such as molecular hydrogen and medical ozone offer complementary mechanisms by selectively neutralizing reactive oxygen species, reducing pro-inflammatory signaling, modulating gut microbiota, and promoting mucosal repair. Hydrogen-based therapies, administered via hydrogen-rich water or inhalation, confer antioxidant, anti-inflammatory, and cytoprotective effects, while ozone therapy exhibits broad-spectrum antimicrobial activity, enhances tissue oxygenation, and stimulates epithelial and vascular repair. Economic considerations further differentiate these modalities, with hydrogenated water positioned as a premium wellness product and ozonated water representing a cost-effective, scalable option for geriatric gastrointestinal care. Although preclinical and early clinical studies are promising, evidence in older adults remains limited, emphasizing the need for well-designed, age-specific trials to establish safety, dosing, and efficacy. Integrating dietary, microbiota-targeted, and emerging non-nutritional gut-centered interventions offers a multimodal framework to preserve gut integrity, immune competence, and functional health, potentially mitigating age-related decline and supporting overall health span in older populations. Full article

A growing body of work has linked the dysregulation of transmembrane (TMEM) proteins to the proliferation, metastasis, drug resistance, and tumor microenvironment remodeling of lung cancer, the leading global cause of cancer mortality. Renamed members such as STING1 (stimulator of interferon response cGAMP interactor 1, TMEM173), ANO1 (anoctamin-1, TMEM16A), ORAI1 (ORAI calcium release-activated calcium modulator 1, TMEM142A), ORAI3 (TMEM142C), and NDC1 (NDC1 transmembrane nucleoporin, TMEM48) are among the most extensively studied ones. Mechanisms of TMEM dysregulation in lung cancer span the modulation of Ca²⁺ influx, lysosomal exocytosis, ferroptosis, Wnt and β-catenin signaling, and immune cell infiltration and immune checkpoint rewiring, among others. Epigenetic silencing and targetable fusions (i.e., TMEM106B-ROS1 and TMEM87A-RASGRF1) create DNA-level vulnerabilities, while miRNA sponges offer RNA-level druggability. A subset of studies revealed context-specific expression (endothelial, B cell, and hypoxic EV) that can be exploited to remodel the tumor microenvironment. One study specifically focused on how isoform-specific expression and localization of TMEM88 determine its functional impact on tumor progression. Yet for most TMEMs, only pre-clinical or early-phase data exist, with many supported by a single study lacking independent validation. This review brings together scattered evidence on TMEM proteins in lung cancer, with the aim of guiding future work on their possible use as biomarkers or therapeutic targets. Full article