Biologics

Background/Objectives: Brucella is a major global One Health threat, causing an estimated 2.1 million human infections and substantial livestock losses annually, with no vaccine currently available for humans, underscoring the urgent need for a safe and effective vaccine. Methods: Employing a reverse vaccinology approach, a novel 175-mer multiepitope vaccine (Mvax) targeting Brucella FrpB was computationally designed in this study, incorporating two B-cell, two MHC class I (MHC-I), and three MHC class II (MHC-II) epitopes selected for their high predicted antigenicity, safety, and IFN-γ-inducing potential. Human β-defensin-3 (hBD3) was fused to the N-terminus as an adjuvant, followed by comprehensive in silico evaluation of the construct. Results: Population coverage analysis predicted 99.59% global MHC class I/II coverage for selected epitopes. In silico analyses predicted that Mvax has high solubility (Protein-SOL score: 0.808), a high antigenicity score (VaxiJen: 1.06), and a negative GRAVY index (−0.881), indicating favorable predicted physicochemical characteristics. iMODS, CABS-Flex 3, and molecular dynamics simulations suggested theoretical stability trends for the modeled vaccine complexes. C-ImmSim immune simulations further predicted elevated Th1 cell populations and associated cytokines (IL-12, IFN-γ, IL-2) following both single and multiple simulated Mvax exposures. Conclusions: The computational analyses described here provide a theoretical modeling basis for an antivirulence multi-epitope vaccine design against human brucellosis, with predicted metrics and simulated immune responses requiring empirical validation.

Interleukin-6 (IL-6) is a multifunctional cytokine with an essential role in immunity, inflammation, and cancer. Produced by immune, stromal and epithelial cells in response to infection or tissue stress, IL-6 regulates immune responses, acute-phase proteins (including serum amyloid A and C-reactive protein), hematopoiesis, and tissue remodeling. These effects are mediated via classical and trans-signaling pathways, which activate key intracellular cascades such as JAK/STAT3, MAPK, and PI3K/AKT. Accumulating evidence implicates dysregulated IL-6 signaling in both oncologic and infectious diseases, where it contributes to disease progression, immune evasion, and therapeutic resistance. This review aims to critically examine the role of IL-6 as a biomarker and therapeutic target in these two major clinical contexts: in cancer, IL-6 levels reflect tumor burden, prognosis, and therapy resistance in both adult and pediatric patients; in infectious diseases, circulating IL-6 may support early diagnosis and risk stratification, particularly in vulnerable pediatric populations. By integrating molecular mechanisms with clinical evidence, this review highlights IL-6 as a unifying biomarker linking inflammation, infection, and malignancy. It also addresses current limitations, including assay variability, lack of standardized reference ranges, especially in children, and challenges in clinical implementation.

Background/Objectives: The rates and predictors of clinical remission, a novel and practical therapeutic goal in severe asthma, have been inconsistently reported across studies. Data on clinical remission in Japanese patients remain limited. The aim of this study was to assess the rate of four-component clinical remission and its predictors in Japanese adult patients with severe asthma. Methods: This retrospective study enrolled adult patients with severe asthma who had initiated biologic therapy at least 12 months prior to inclusion at Nagoya City University Hospital. The primary endpoint was the achievement rate of four-component clinical remission, defined as (1) no maintenance oral corticosteroids (OCS); (2) no exacerbations for 12 months; (3) Asthma Control Test (ACT) score ≥ 20; and (4) forced expiratory volume in one second (FEV₁) ≥ 80% of predicted. The secondary endpoint was to identify factors, including airway structural indices measured using chest computed tomography (CT), associated with clinical remission at 12 months. Results: Among 87 patients with severe asthma, 26 (30%) achieved four-component clinical remission after 12 months of biologic therapy. In univariate analysis, clinical remission was more frequently achieved in patients with chronic rhinosinusitis, higher FEV₁ (% predicted), higher blood eosinophil counts, higher ACT scores, fewer exacerbations in the previous year, higher Lund–Mackay scores, and smaller airway wall thickness and luminal areas on CT (all p < 0.05). Multivariate analysis revealed that higher blood eosinophil counts and fewer exacerbations in the previous year were independently associated with clinical remission (both p < 0.05). Conclusions: After 12 months of biologic therapy, 30% of patients with severe asthma achieved four-component clinical remission. Higher blood eosinophil counts and fewer prior exacerbations were associated with higher remission rates.