Search Results (4,081)

African swine fever (ASF) is an acute, febrile, and lethal pig disease induced by the African swine fever virus (ASFV). In the absence of an effective vaccine, early diagnosis is essential for the prevention and control of ASF disease. The p54 protein is important for ASFV diagnosis and vaccine design. In this study, ASFV p54 protein was constructed, expressed, purified, and used to generate three mAbs, namely 9A3, 5H2, and 2G6. Epitope mapping was performed using alanine mutants; the minimal linear epitope recognized by 9A3 and 5H2 was ⁵⁶KKKAAAI⁶², and the minimal linear epitope recognized by 2G6 was ¹⁰⁸TNRPATN¹¹⁴. Of these, ⁵⁶KKKAAAI⁶² was identified as a new linear epitope for the first time. The epitopes were highly conserved in at least genotypes I and II. Alanine-scanning mutagenesis further revealed that residues 56K, 57K, 60A, 61A, 62L, 108T, 110R, 111P, 113T, and 114N were the core sites involved in antibody recognition. Overall, the mAbs and epitopes of the p54 protein identified in this study provide theoretical support for the development of ASFV vaccines based on the B cell epitope, the development of ASFV therapeutic antibody drugs, and the development of ASFV diagnostic tools. Full article

Introduction: From 12 March 2020, when the first cases of COVID-19 were registered in Kosovo, to 9 March 2023, there were a total of 273,310 reported cases of COVID-19 and 3211 reported deaths in Kosovo (CFR: 1.17%). Health care workers (HCWs) have been at a higher risk of contracting SARS-CoV-2 infection; nevertheless, data on seroprevalence of SARS-CoV-2 antibodies among HCWs in Kosovo are very limited. Methodology: A cross-sectional serology study with 1654 healthcare professionals throughout Kosovo was conducted to determine the presence of antibodies against the spike antigen of SARS-CoV-2. In addition, a structured questionnaire was administered to study participants to obtain basic demographic data, and information on prior infection and COVID-19 vaccination status. Results: Antibodies against the spike antigen of SARS-CoV-2 were detected in almost all (99.8%) HCWs that participated in the study. The average antibody titer was 8030.8 AU/mL in women and 9533.7 AU/mL in men. Sixty-four percent of HCWs in this study reported prior infection with SARS-CoV-2, 6% of whom were hospitalized. Over 98% of study participants had received SARS-CoV-2 vaccination. Conclusions: Almost all HCWs participating in the study had antibodies against the spike antigen of SARS-CoV-2. This is most probably the result of the high COVID-19 vaccination rate in Kosovo as well as infection with SARS-CoV-2. Full article

Fasciolosis, caused by the liver fluke Fasciola gigantica, remains a major parasitic disease affecting livestock in tropical regions and results in substantial economic losses. Although anthelmintic drugs are widely used for disease control, increasing reports of drug resistance highlight the need for alternative strategies such as vaccination. In this study, a recombinant digestive protein-based chimeric antigen (rFgCHI-DP) composed of three F. gigantica antigens—cathepsin L1 (FgCL1), cathepsin B1 (FgCB1), and saposin-like protein 2 (FgSAP2)—was designed and expressed in Escherichia coli. The mature regions of these proteins were sequentially linked to form a single chimeric construct. The recombinant protein was successfully expressed and purified under denaturing conditions, producing a protein of approximately 62 kDa. To evaluate its immunogenicity, BALB/c mice were immunized with rFgCHI-DP formulated with Quil A adjuvant. Indirect ELISA revealed that immunization induced antigen-specific IgG responses. Antibody responses showed strong reactivity toward FgCL1 and FgCB1, whereas the response against FgSAP2 was comparatively lower. Western blot analysis further demonstrated that antibodies generated against rFgCHI-DP recognized native parasite antigens. Immunolocalization also revealed that the anti-rFgCHI-DP antibodies could detect targeted antigens in the cecal epithelium of the parasite. These findings indicate that the adult-stage chimeric protein rFgCHI-DP is immunogenic in mice and capable of inducing specific antibody responses against F. gigantica. The results support the potential of rFgCHI-DP as a candidate antigen for future fasciolosis vaccine development. Full article

Oncolytic viruses represent a promising class of anticancer therapeutics, and rapid, accurate quantification of viral titers is critical for ensuring both efficacy and safety during clinical development. Conventional viral titering methods, such as 50% cell culture infectious dose (CCID₅₀), are time-consuming and limited in sensitivity, thereby restricting their application in real-time clinical monitoring. This study aimed to develop and validate a rapid titer assay for oHSV2-PD-L1/CD3-BsAb, an oncolytic herpes simplex virus expressing a PD-L1/CD3 bispecific antibody, to support preclinical and clinical monitoring. A dual-reporter cell system was established using Vero-PD-L1-GFP (Vero cells expressing PD-L1 and GFP) cells as target cells and Jurkat-NFAT-Fluc (Jurkat cells expressing NFAT and Fluc) cells as effector cells. Viral infection activates the NFAT signaling pathway, driving Fluc expression, thereby enabling rapid quantification of infectious virus. The assay was evaluated for specificity, limit of detection (LOD), and lower limit of quantification (LLOQ), and compared with the conventional CCID₅₀ method. Its applicability was further assessed using clinical simulation samples, including PBMCs and swabs. The rapid titer assay accurately quantified virus at 10³ CCID₅₀/mL after 8 h of incubation, consistent with CCID₅₀ results, while extending the incubation to 18 h improved the LLOQ to 10^2.5 CCID₅₀/mL, demonstrating enhanced sensitivity. The assay exhibited high reproducibility and stability in both PBMC and swab samples, enabling reliable quantification of low-titer virus in complex biological matrices. Compared with CCID₅₀, the method substantially reduced assay time (from 3–5 days to 8–18 h) while improving sensitivity and specificity. The developed rapid titer assay for oHSV2-PD-L1/CD3-BsAb provides a sensitive and specific platform for viral quantification. It offers a valuable tool for oncolytic virus development, production quality control, and clinical monitoring, facilitating efficient safety evaluation and risk management in ongoing and future clinical applications. Full article

Rare genetic disorders of the central nervous system (CNS) remain some of the most complex and challenging diseases to treat for several reasons. Targeting the CNS, especially the brain, presents one of the greatest obstacles in gene therapy using adeno-associated virus (AAV) vectors. Although various AAVs have been identified for their ability to transduce different cells in the CNS, their effectiveness and efficiency are significantly limited by the presence of neutralising antibodies (NAbs) and restricted cargo capacity. Despite these challenges, our understanding of AAV structure and technological advances continue to enable researchers to develop innovative strategies that have resulted in groundbreaking, FDA-approved therapeutic products now available for Leber congenital amaurosis (LCA) (Luxturna^®), spinal muscular atrophy (SMA) (Zolgensma^®), and the two recent gene therapy products for aromatic L-amino acid decarboxylase (AADC) deficiency, Kebilidi^® and Upstaza^®, which currently hold FDA and EMA approval, respectively. This review aims to highlight recent advances in the field of AAV gene therapy for neurological disorders, identify research gaps, and suggest areas for future investigation to enable potential breakthroughs particularly in neurodegenerative, neurodevelopmental, and neuromuscular disorders. We foresee that more tissue- and cell-specific AAV vectors designed using AI-powered platforms will emerge to precisely and efficiently target specific brain regions, transforming how CNS disorders are treated. Full article

African swine fever in both domestic and wild pig populations is caused by the extremely infectious African swine fever virus (ASFV). It seriously endangers biodiversity and results in large financial losses for the worldwide pork sector. The major capsid protein p72 is molecularly chaperoned by the ASFV pB602L protein, which is essential to viral assembly. Furthermore, as a nonstructural protein expressed at late stages of infection, pB602L induces a distinct antibody response that may complement existing serological assays based on structural proteins. Given its strong immunogenicity, pB602L represents a promising antigen for developing supplementary diagnostic tools for African swine fever (ASF). In this study, we successfully generated and separated the ASFV pB602L protein, and we verified its responsiveness using serum from pigs infected with ASFV. Additionally, we produced four monoclonal antibody-specific hybridoma cell lines that targeted the pB602L protein exclusively. These cell lines demonstrated high immunoreactivity and responsiveness toward ASFV pB602L. These results highlight the potential enhancement of diagnostic skills. We have detected two previously unknown linear B-cell epitopes (¹³⁸TIDSFL¹⁴³ and ¹⁶⁴TNVDTC¹⁶⁹) using overlapping peptide and truncated protein fragment analysis. Due to their high degree of conservation across various ASFV strains, these epitopes offer trustworthy candidates for the creation of particular diagnostic instruments. This study expands the known ASFV antigenic repertoire by systematically mapping immunodominant epitopes of pB602L. The identified epitopes provide potential molecular targets for the rational design of multi-epitope subunit vaccines. Full article

Background: Dupilumab, a monoclonal antibody blocking IL-4Rα, has recently demonstrated efficacy in patients with type 2 (T2)-inflamed chronic obstructive pulmonary disease (COPD) in the BOREAS and NOTUS trials. Real-world experience in older patients with predominant chronic bronchitis phenotype remains limited. Methods: We report a single-centre case series of 12 consecutive patients with T2-inflamed COPD treated with dupilumab 300 mg every two weeks under a compassionate-use programme at San Carlo di Nancy Hospital, Rome (first administration: April 2025). Eligibility required ≥2 moderate or ≥1 severe exacerbation in the prior 12 months despite triple inhaled therapy and a blood eosinophil count ≥300 cells/µL. Follow-up ranged from 3 to 12 months, with 6 months pre-specified as the primary analysis timepoint; data at 9 and 12 months are reported as descriptive observations. Endpoints included paired changes in annualised exacerbation rate (AER), CAT score and item-level CAT, and FEV₁, with exploratory univariate Spearman analyses of candidate baseline predictors of response. Results: The cohort was elderly (mean age 73.6 ± 5.2 years, range 65–82), predominantly female (8/12, 67%) and characterised by a chronic bronchitis phenotype with high symptom burden (mean baseline CAT 22.8 ± 7.5; CAT item 2 [phlegm] median 3, IQR 3–4). Severe exacerbations decreased significantly (Wilcoxon p = 0.0156; mean AER 0.75 → 0.19 events/patient-year; 6/12 improved, 0/12 worsened). The mean cumulative function showed a standardised incidence ratio of 0.46 (95% CI 0.19–0.95; p = 0.033) versus the pre-dupilumab rate. Mean FEV₁ increased by +66 mL at 1 month (n = 11, paired Wilcoxon p = 0.025), +78 mL at 3 months (n = 10, p = 0.082) and +120 mL at 6 months (n = 10, p = 0.007). Total CAT decreased from 22.9 to 12.5 at 6 months (Friedman p = 0.0007), with the largest absolute reductions in item 2 (phlegm; Δ = −2.6 at 6 months, p < 0.001) and item 3 (chest tightness; Δ = −2.5 at 6 months, p = 0.002). Higher baseline CAT was associated with greater reduction in severe AER (Spearman ρ = −0.79, p = 0.002). Conclusions: In this elderly real-world cohort with phlegm-driven T2 COPD, dupilumab was associated with a significant decrease in severe exacerbations, a clinically meaningful gain in lung function and a marked improvement in mucus-related symptoms. Further studies are warranted to confirm these findings and to clarify whether the reduction in severe exacerbations translates into a measurable mortality benefit. Full article

Ventricular remodeling occurring in heart failure (HF) involves structural disarray of the sarcolemma T-tubule (TT)–sarcoplasmic reticulum (SR) dyad junctions, thereby disrupting the close apposition of L-type Ca²⁺ channels (Ca_V1.2) with ryanodine receptors (RyR2) that trigger SR Ca²⁺ release and myofilament contraction. In a rat ischemic heart failure model expressing low thyroid hormone (TH) function, we used 3D stochastic optical reconstruction microscopy (STORM) to image RyR2 clusters with Ca_V1.2 channels, and the associated protein junctophilin-2 (Jph2). We tested whether treatment with T3, the biologically active form of TH, throughout progression of the disease would preserve T-tubule structure and dyadic ion channel organization. Confocal microscopy of isolated cardiomyocytes (CMs) stained with ANEPPS membrane dye showed significantly decreased TT density in diseased CMs while T3 treatment attenuated TT disorganization. 3D STORM images of dyadic ion channels labeled with fluorescent-tagged antibodies to RyR-Dylight550, Jph-CF647 and Ca_V1.2/IgG-Dylight488 were captured. A density-based algorithm defined RyR2 clusters, and a 400 nm spherical 3D volume of interest around each RyR2 cluster’s centroid determined the number of Ca_V1.2 and Jph2 localizations associated with each RyR2 cluster. Analysis revealed significant reduction in RyR2 cluster size and number with reduced co-localized Jph2 in failing CMs. T3 treatment increased RyR2 cluster numbers and cluster volumes albeit non-significantly, with increased co-clustering of Jph2. The number of Ca_V1.2 co-localized with RyR2 clusters trended lower in the failing CMs. These results support maintaining TH homeostasis in optimizing the nanoscale organization of Ca²⁺ ion channels in triggering Ca²⁺ release and myofibrillar contraction in patients with heart disease. Full article

H9N2 avian influenza viruses inherently carry cross-species transmission potential, making continuous surveillance critical for pandemic prevention. This study focused on monitoring the 2024 H9N2 epidemic in Jiangsu Province’s external environment, analyzing its molecular evolution and receptor binding properties, assessing cross-species transmission and pandemic risks, and investigating serological antibody levels across different human populations. Environmental samples were collected from live poultry markets, farms, slaughterhouses, and bird habitats across Jiangsu, screened via quantitative PCR (qPCR), with positive samples used for virus isolation and whole-genome sequencing. Receptor binding properties were tested by hemagglutination assay, and H9N2 antibody levels were measured in 370 occupationally exposed individuals and 240 non-exposed individuals using hemagglutination inhibition (HI) assays. Among the 5779 collected samples, 6.89% tested H9N2-positive, and 12 strains belonging to the Eurasian lineage Y280-like clade G57 genotype were successfully isolated. All strains carried the HA-Q226L mutation, with 11 showing preferential binding to human α-2,6 receptors and one strain possessing dual receptor binding capability. Internal genes harbored mammalian adaptation mutations, and M2 proteins contained mutations conferring complete resistance to amantadine-class antiviral drugs. Serological tests revealed antibody positive rates of 4.05% in exposed populations and 2.5% in non-exposed populations, with no statistically significant difference between groups. These findings confirm that Jiangsu’s circulating H9N2 viruses have acquired human receptor preference and mammalian adaptation, posing silent infection and pandemic risks. Enhanced surveillance and the development of candidate vaccine stockpiles are strongly recommended. Full article

Porcine reproductive and respiratory syndrome (PRRS), caused by PRRS virus (PRRSV), poses a serious threat to the global swine industry. Although modified live virus (MLV) vaccines have been widely used in the field for PRRS prevention for decades, the safety and efficacy of these vaccines have long been controversial. Here, we report a rare recombination pattern in China: the emergence of a novel NADC30-like PRRSV strain recombined from two MLV-like strains. Genome comparative analysis reveals that the SCMS2025 isolate has a non-continuous 136-amino acid deletion in the NSP2 protein and shares the highest nucleotide identity of 87.6% with lineage 5 (L5) strains. Phylogenetic analysis showed that SCMS2025 was classified into L1 (NADC30-like) strains based on ORF5 genotyping, whereas it belonged to a single branch between L1 and L5 strains based on the complete genomic sequences. Strikingly, genomic recombination analysis revealed that the newly emerged PRRSV isolate likely resulted from complex recombination events between NADC30-like and two MLV-like strains (RespPRRS MLV and TJbd14-1 MLV-like strains). Furthermore, SCMS2025 infection caused transient overt clinical signs followed by rapid recovery, indicating that the novel PRRSV isolate is a low pathogenic strain. Notably, all SCMS2025-inoculated piglets remained seronegative for PRRSV-specific antibodies throughout the entire 14-day observation period, suggesting a delayed onset of the host humoral immune response. Our study provides evidence for the ongoing evolution of PRRSV through inter lineage recombination and highlights the urgent need for safe and effective vaccines. Full article

4-Chlorophenoxyacetic acid (4-CPA), a synthetic auxin analog, is employed in agriculture both as a plant growth regulator and as a constituent of herbicide formulations. Consequently, the establishment of simple and rapid detection methods is essential for effective environmental monitoring. This study reports the first development of a homogeneous fluorescence polarization immunoassay (FPIA) for the determination of 4-CPA. The monoclonal antibody (M1), raised against 4-CPA, was evaluated as a recognition element. Furthermore, two fluorescently labeled 4-CPA tracers—with ethylenediamine fluorescein thiocarbamate and aminohexylaminocarbonylfluorescein—were synthesized and purified, and their structures were unequivocally confirmed by high-performance liquid chromatography coupled with high-resolution mass spectrometric detection (HPLC-HRMS). Optimal concentrations of monoclonal antibodies and tracers were established, yielding a limit of detection of 1.2 ng/mL. The assay demonstrated a broad dynamic range of 2.3–300 ng/mL and a rapid analysis time of 15 min. Validation via the standard addition method in authentic open water samples resulted in recovery rates of 98–112%. To address the cross-reactivity with the prevalent herbicide 2,4-dichlorophenoxyacetic acid (2,4-D), two novel strategies were devised and successfully implemented. The first approach involves the concurrent execution of two separate FPIAs—one for 2,4-D and one for 4-CPA—followed by the mathematical resolution of two analyte concentrations from the two measured binding values. The second strategy entails the preliminary selective removal of 2,4-D from sample matrices using affinity chromatography columns with immobilized anti-2,4-D antibodies prior to FPIA for 4-CPA. These proposed methodologies appear highly promising for overcoming the inherent limitations of traditional immunoassays when faced with significant cross-reactivity among structurally analogous compounds. Full article

Background/Objectives: Human papillomavirus (HPV) infection is the leading cause of cervical cancer and is associated with several anogenital and oropharyngeal malignancies. Although licensed HPV vaccines are highly effective, access remains limited in many low- and middle-income countries due to cost, supply shortages, and implementation barriers. In this study, we evaluated the immunogenicity and safety of Gardisun, a newly developed quadrivalent prophylactic HPV vaccine, compared with Gardasil^®. Methods: This Phase III randomized, double-blind, active-controlled, parallel-group non-inferiority trial enrolled 450 healthy participants stratified by sex and randomized (1:1) to receive three 0.5 mL intramuscular doses of Gardisun or Gardasil^® on Days 0, 60, and 180. Participants were followed through to Day 210. The primary endpoint was the geometric mean titer (GMT) of antibodies against HPV types 6, 11, 16, and 18 one month after the administration of the third dose. Non-inferiority was defined as the lower bound of the 95% confidence interval (CI) for the GMT ratio exceeding 0.67. Safety was assessed through adverse event monitoring. Results: Of the 450 randomized participants, 422 completed the Month 7 visit and 429 received all three doses. Both vaccines induced antibody responses and seroconversion rates for all HPV types. The primary analysis met the non-inferiority criterion for HPV-6, while prespecified sensitivity analyses supported the existence of non-inferiority across all evaluated HPV types. Most adverse events were mild and transient, with no vaccine-related serious adverse events reported. Conclusions: Gardisun demonstrated robust immunogenicity and a safety profile comparable to that of Gardasil^®, supporting its potential as an accessible alternative quadrivalent HPV vaccine for broader vaccination programs in resource-limited settings. Full article

A capacitive screen-printed electrode immunosensor operating in non-faradaic mode by dispensing redox probes was developed for the Coronavirus 2 Spike (S) protein. This new strategy enabled direct detection of the S protein by measuring changes in the electrochemical capacitance resulting from antigen–antibody interactions on the electrode surface, altering interfacial dielectric properties. To enhance analytical sensitivity and provide an electrode surface with attractive capacitive and conductive properties, an in-house graphite ink-based screen-printed electrode was developed and subsequently modified with a polypyrrole (PPy) layer in bulk-synthesized in the presence of Cetyltrimethylammonium bromide (CTAB). CTAB acted as a dispersing and structure-directing agent, promoting homogeneous distribution and guiding the PPy polymerization, resulting in a composite with improved charge density storage and high conductivity. Analytical signals of the S proteins in spiked serum were detected by measuring the Specific Capacitances taken from cyclic voltammograms. This capacitive immunosensor achieved a linear range from 1 to 100 µg/mL (R² = 0.989, p < 0.05), with a limit of detection of 0.45 µg/mL of S protein, which falls within the clinical range for COVID-19 diagnostics. Probe-free detection without ferri/ferrocyanide steps minimizes errors by probe adsorptions and is easy to use as a point-of-care, unlike conventional immunosensors. Full article

Feline leishmaniosis (FeL) caused by Leishmania infantum is increasingly recognized in endemic areas, but factors influencing susceptibility in cats remain incompletely understood. Because blood group antigens may modulate host–pathogen interactions, this study evaluated whether feline AB blood system phenotypes are associated with L. infantum seropositivity and/or molecular positivity in cats from Italy. Exploratory analyses further assessed whether blood phenotype was associated with the magnitude of indirect fluorescent antibody test (IFAT) antibody titres or with real-time PCR (qPCR) parasite load. In this retrospective cross-sectional study, cats were classified as L. infantum-positive when they had an IFAT titre ≥1:80 and/or a positive qPCR on blood or lymph node aspirates. Feline AB blood typing was performed by tube agglutination, with type B and AB samples confirmed by immunochromatographic testing and back typing. A total of 706 cats were included. Overall, 67/706 cats (9.5%) were classified as L. infantum-positive. Blood phenotype distribution was 83.1% type A, 10.1% type B, and 6.8% type AB. L. infantum positivity was detected in all three phenotypes, and no evidence of association was found between blood phenotype and L. infantum positivity, IFAT seropositivity, qPCR positivity, IFAT titre, or qPCR parasite load. After adjustment for region, blood phenotype remained not significantly associated with L. infantum positivity. These findings suggest that feline AB blood system phenotypes were not associated with L. infantum infection in this feline cohort. Future studies should investigate whether blood phenotype may influence other aspects of FeL, such as clinical expression or disease outcome. Full article

Introduction: The 3 Rs principle advocates developing alternative, biologically relevant models. Thus, 3D fish liver in vitro models have been increasingly used for ecotoxicological studies. We previously optimized spheroids from the rainbow trout non-tumoral liver cell line RTL-W1 and employed them to assess the effects of aquatic pollutants. Although they demonstrated potential for assessing ecotoxicological effects, further optimization is warranted to enhance their physiological relevance. Incorporating an extracellular matrix (ECM), such as collagen, has been shown to be a promising strategy to improve spheroids’ structural organization and functionality. Objective: This study aimed to optimize 3D culturing conditions of RTL-W1 spheroids by evaluating the effects of collagen supplementation on viability, morphology, and functional response. Methodology: Spheroids from the RTL-W1 cell line (60,000 cells per well) were cultured in 96-well ultra-low attachment (ULA) plates at 18 °C. After spheroids’ formation, rat tail collagen was supplemented at concentrations of 15 (C15), 30 (C30), and 60 (C60) µg/mL at culture days 7, 8, and 9. Spheroids were collected at two sampling days (10 and 14). Viability was assessed using alamarBlue and lactate dehydrogenase (LDH) assays, while morphology was assessed by optical microscopy. Collagen penetration was evaluated using Masson’s trichrome staining technique. Protein expression of cytochrome P450(CYP)1A was assessed by quantifying immunocytochemistry staining using an anti-CYP1A antibody. Results: On day 10, LDH leakage decreased in C15 and C60, compared with the control, whilst C15 spheroids showed lower absorbance levels in the alamarBlue assay. On day 14, LDH showed no significant differences; however, C30 and C60 had higher alamarBlue absorbance, indicating greater metabolic capacity. Spheroid morphology appeared intact in all conditions. Masson trichrome revealed collagen fibrils at the periphery of the spheroids, especially in C30 and C60, indicating that spheroids incorporated collagen. CYP1A immunostain was present in all conditions, localized in the spheroids’ border, and tended to be higher when supplementation occurred in earlier days. Conclusions: Our results suggest that RTL-W1 spheroids interacted with the collagen matrix and appeared to functionally improve. Data suggest that incorporating ECM may increase the complexity and physiological relevance of RTL-W1 spheroids, thereby better supporting mechanistic and ecotoxicological applications. Full article