Search Results (4,050)

Equine herpesvirus (EHV) infections represent a significant global veterinary and economic challenge affecting both horses and donkeys across all inhabited continents. This narrative review comprehensively examines the nine distinct EHV species (EHV-1 through EHV-9), their taxonomic classification within Alphaherpesvirinae and Gammaherpesvirinae subfamilies, and their diverse host tropism patterns. The complex molecular pathogenesis involves sophisticated viral glycoproteins (gK, gB, gC, gH, gM, gL, gG, gD, gI, gE) that orchestrate cellular invasion, immune evasion, and intercellular transmission. Clinical manifestations vary considerably, ranging from respiratory diseases and reproductive failures to severe neurological disorders, with EHV-1 demonstrating the most severe presentations including myeloencephalopathy. Global distribution analysis reveals widespread circulation across Europe, Asia, Africa, the Americas, and Oceania, with species-specific clinical patterns. Current therapeutic options remain largely supportive, with experimental compounds like berbamine and cepharanthine, celastrol, blebbistatin, and hyperoside showing promise in preclinical studies. Vaccination programs demonstrate limited effectiveness, failing to prevent transmission at population levels despite inducing individual immune responses. The sophisticated immune evasion strategies employed by EHVs, including the “Trojan horse” mechanism utilizing infected leukocytes, highlight the complexity of host–pathogen interactions and underscore the urgent need for innovative prevention and treatment strategies. Full article

Background/Objectives: Cytokine release during organ transplantation contributes to primary graft dysfunction and requires careful immunomodulation. CytoSorb, a hemoadsorption device developed to reduce circulating cytokine levels, is increasingly used in critically ill patients. However, its impact on concurrent immunosuppressive therapy remains unclear. Methods: In this ex vivo study, we investigated the adsorption of five immunosuppressants—cyclosporine A, tacrolimus, methylprednisolone, mycophenolic acid, and 6-mercaptopurine—using a scaled-down CytoSorb hemoadsorption circuit and compared results to chronic and acute dialysis. Additionally, a whole blood model was used to assess the functional impact of CytoSorb treatment on leukocyte activation, using LPS and anti-CD3 stimulation and subsequent cytokine measurement (TNF-α, IL-1β, IL-6, IL-8). Results: CytoSorb significantly reduced serum levels of methylprednisolone (92 ± 3%), mycophenolate (80 ± 2%), 6-mercaptopurine (65 ± 32%), and cyclosporine A (61 ± 16%), but had no significant effect on tacrolimus. Dialysis effectively removed methylprednisolone and 6-mercaptopurine, while strongly protein-bound drugs such as cyclosporine A and tacrolimus remained largely unaffected. In the whole blood model, CytoSorb treatment did not significantly alter cytokine release after immunostimulation, suggesting preserved immunosuppressive efficacy. Conclusions: CytoSorb treatment reduces the plasma concentration of selected immunosuppressants. However, short-term treatment appears to have minimal impact on immunosuppressive function. These findings support the cautious use of CytoSorb in transplant settings but highlight the need for in vivo confirmation. Full article

Neutrophils are the most abundant circulating leukocytes and essential components of innate immunity. Through mechanisms such as phagocytosis, reactive oxygen species (ROS) production, degranulation, and neutrophil extracellular trap (NET) formation, they play a crucial role in host defense. However, dysregulated neutrophil responses are linked to chronic inflammatory conditions, including periodontitis. This review summarizes current evidence on neutrophil biology in periodontal health and disease, focusing on functional mechanisms, recruitment pathways, the influence of dysbiosis, and their potential as biomarkers and therapeutic targets. Neutrophils display a dual role in periodontal tissues: while protecting against microbial invasion, their excessive or impaired activity contributes to tissue destruction. Altered chemotaxis, defective phagocytosis, and uncontrolled NET release perpetuate inflammation and alveolar bone loss. Neutrophil-derived enzymes, including myeloperoxidase, elastase, and matrix metalloproteinases, emerge as promising biomarkers for early diagnosis. In parallel, therapeutic strategies targeting oxidative stress, NET regulation, or neutrophil hyperactivity are being explored to preserve periodontal tissues. Neutrophils are central players in periodontal pathophysiology. Understanding their regulation and interaction with the oral microbiome may enable the development of novel diagnostic and therapeutic approaches, ultimately improving periodontal disease management. Full article

Background and Objectives: Left ventricular diastolic dysfunction (LVDD) is a known precursor of heart failure with preserved ejection fraction (HFpEF), particularly in patients with metabolic comorbidities. Acute coronary syndrome (ACS) and percutaneous coronary interventions (PCI) may exacerbate LVDD via systemic inflammation. This study aimed to explore the association between post-procedural systemic inflammation and the severity of diastolic dysfunction in patients with ACS and metabolic comorbidities. Materials and Methods: A retrospective observational study was conducted in 181 patients with ACS who underwent PCI. Inflammatory markers (leukocytes, neutrophils, and C-reactive protein [CRP]) measured at 24–48 h post-intervention were analyzed in relation to diastolic dysfunction, assessed by echocardiography. Multivariable ordinal logistic regression and correlation analyses were performed. Results: CRP showed a non-significant trend toward association with more advanced diastolic dysfunction (p = 0.081). Hypertension had a positive but nonsignificant coefficient. Other metabolic comorbidities (diabetes, dyslipidemia, and obesity) were not significantly associated. The correlation between N-terminal pro-B-type natriuretic peptide (NT-proBNP) and troponin was exploratory. NT-proBNP was the only marker significantly correlated with high-sensitivity troponin (TrHS) at 48 h, indicating a link between myocardial injury and wall stress. Conclusions: CRP may be weakly associated with the severity of diastolic dysfunction post-PCI. However, classical metabolic comorbidities were not independently predictive. Post-PCI inflammation showed only modest, non-significant trends toward diastolic impairment, warranting confirmation in larger prospective studies. Full article

Background/Objectives: Despite continuous pharmacological advances, the treatment of schizophrenia remains challenging, and suboptimal outcomes are still too frequent. There are currently limited new approved drugs without resistance. Methods: For this reason, drug repurposing presents a promising solution for identifying existing drugs with therapeutic effects for schizophrenia. In this study, we provide a workflow of signature-based drug repurposing methodology. We initially utilized a dataset from Gene Expression Omnibus which consists of RNA sequence data from blood-derived leukocyte samples from individuals with schizophrenia and control subjects, and conducted an analysis. Results: This analysis identified 1205 statistically significant differentially expressed genes, of which 150 upregulated and 150 downregulated genes were used in the CMap and L1000CDS2 tools. Then, each database generated a list of potential compounds that could reverse the disease’s signature and potentially have therapeutic effects for schizophrenia. Subsequently, the compounds associated with the disease, as identified in the research, were chemically clustered, and then their modes of action were predicted. In the last stage, we conducted a literature review to evaluate the relationship of these modes of action with the disease. Conclusions: This systematic analysis provided a list of potential drugs for schizophrenia treatment so that their efficacy can be evaluated in the wet-lab experiments, which is the next stage of drug repurposing. Full article

Natural polyphenols, particularly tannins, are of interest due to their complex composition and multi-target biological activities. A highly purified tannin fraction was isolated from Aronia melanocarpa fruits, and its composition was characterized by HPLC-MS and IR spectroscopy. The Aronia tannin fraction exhibited comprehensive antioxidant properties, demonstrating superior DPPH radical scavenging activity compared to quercetin and a membrane-protective effect exceeding reference antioxidants. In vivo, Aronia tannins showed a delayed but potent antioxidant effect against cyclophosphamide (CP)-induced oxidative stress, significantly reducing malondialdehyde (MDA) levels, with the maximum effect observed at days 14–21. The immunomodulatory effect involved a complex regulation of the phagocytic system: selective activation of the monocytic arm with simultaneous modulation of neutrophilic activity. Crucially, a high phagocytic completion rate was maintained, indicating support for both bacterial uptake and intracellular killing. Tannins accelerated recovery post-CP, restoring leukocyte and platelet counts. Modulation of neutrophil oxidative metabolism, measured by chemiluminescence, indicates an ability to balance defense activation with prevention of excessive oxidative stress. These findings confirm the potential of the Aronia melanocarpa tannin fraction for correcting oxidative stress and immune dysfunction. Full article

Momordica charantia L. (Cucurbitaceae) has been widely recognized for its pharmacological potential, although studies on its leaves remain scarce. In this study, the hydroethanolic leaf extract (MCHLE) was chemically characterized by LC–MS/MS, revealing the presence of octopamine, ferulate, vitexin-2-O-rhamnoside, and other bioactive phenolics. Toxicological evaluation in Wistar rats demonstrated that both acute (2000 mg/kg) and repeated oral administration (up to 400 mg/kg for 28 days) caused no clinical or behavioral signs of toxicity. Notably, treatment significantly reduced glucose and cholesterol levels, in addition to attenuating lipid peroxidation and enhancing antioxidant defenses. In vivo, MCHLE inhibited leukocyte and neutrophil infiltration in the LPS-induced peritonitis model, with efficacy comparable to dexamethasone. It also reduced TNF-α secretion and nitric oxide generation in peritoneal fluids. In vitro assays with LPS-stimulated RAW 264.7 macrophages confirmed these effects, showing dose-dependent inhibition of TNF-α, IL-1β, and NO production. Gene expression analysis further demonstrated downregulation of TNF-α and MAPK, with marked suppression of NF-κB transcripts. Collectively, these results suggest that MCHLE exerts anti-inflammatory activity by targeting both mediator release and upstream signaling pathways, while maintaining a favorable safety profile, supporting its potential for further investigation as a promising source of bioactive compounds. Full article

Airborne particulate matter (PM), particularly PM_2.5, contributes to pulmonary injury by inducing oxidative stress and inflammation. Thyme (Thymus vulgaris L.) contains bioactive compounds with anti-inflammatory, antioxidant, and expectorant properties. Here, we evaluated the dose-dependent protective effects of thyme extract (TV) against PM_2.5-induced pulmonary injury in mice, using dexamethasone (DEXA) as a reference anti-inflammatory drug. Subacute pulmonary injury was induced in male Balb/c mice via intranasal administration of PM_2.5 (1 mg/kg, twice at 48 h intervals). Mice received oral TV (50, 100, or 200 mg/kg) or DEXA (0.75 mg/kg) daily for 10 days. Assessments included lung weight, serum AST/ALT, bronchoalveolar lavage fluid (BALF) leukocyte counts, cytokines (TNF-α, IL-6), chemokines, oxidative stress markers (ROS, lipid peroxidation, antioxidant enzymes), histopathology, and mRNA expression of genes related to inflammation (PI3K/Akt, MAPK, and NF-κB), mucus production (MUC5AC, MUC5B), and apoptosis (Bcl-2, Bax). Exposure to PM_2.5 caused oxidative stress, pulmonary inflammation, mucus hypersecretion, and histopathological changes. TV treatment dose-dependently reduced leukocyte infiltration, cytokine/chemokine release, ROS generation, and mucus overproduction, while enhancing antioxidant defenses and improving tissue pathology. Effects were comparable but slightly less potent than DEXA. Notably, unlike DEXA, TV reduced mucus hyperplasia and enhanced expectorant activity. No hepatotoxicity was observed. These results indicate that thyme extract could serve as a promising natural candidate for alternative respiratory therapeutics or functional food development. Full article

Background: Exercise-induced bronchoconstriction (EIB) is common in athletes, being more frequent in outdoor endurance-based/long-distance sports. We followed a World-Class marathon paddler’s season with recurrent episodes of EIB, which intensified during cold exposure workouts. This unique immunophenotype profile during the season and its variations were reflected in acute and chronic inflammatory markers. Methods: A longitudinal case study was conducted with blood sampling obtained from a single paddler after overnight fasting at three timepoints: T1 (beginning of season, after 15-day rest period), T2 (post-Winter National Championship), and T3 (post-Summer National Championship). Complete blood counts and lymphocyte immunophenotyping were performed using automated hematology analysis and multiparametric flow cytometry. Results: The total numbers of leukocytes (T1: 6.3; T2: 5.0; T3: 5.5 × 10⁹/L), neutrophils (3.1; 2.5; 2.8 × 10⁹/L), and lymphocytes (2.4; 1.8; 2.2 × 10⁹/L) declined between T1 and T2, followed by a partial recovery at T3. In contrast, monocyte counts exhibited the reverse pattern (0.41; 0.62; 0.31 × 10⁹/L). The two T cell subsets (αβ and γδ) remained relatively stable, showing only minor seasonal fluctuations. CD19+ B cells, initially at very low levels, increased steadily as the season progressed (0.05; 0.07; 0.16 × 10⁹/L). During T2, the proportion of memory lymphocytes (CD45RO+) rose, while naive cells (CD45RA+) declined; this trend was subsequently inverted at M3. Although the CD4+/CD8+ ratio varied over time, it consistently stayed below the normal reference range established for healthy controls (0.50; 0.83; 0.60 for T1, T2, and T3, respectively). Conclusions: The immune assessment of the World-Class marathon paddler revealed transient immunosuppression early in the season, marked by reduced neutrophils, a low CD4+/CD8+ ratio, and diminished CD19+ lymphocytes. Over time, immune parameters showed signs of recovery, indicating a temporary imbalance that did not impair the athlete’s physical performance. Conclusions: This case study of an elite marathon kayaker revealed transient immune fluctuations across a competitive season, including early immunosuppression (low neutrophils, CD4+/CD8+ ratio 0.50, and minimal CD19+ B cells) followed by partial recovery mid- and late-season. Despite persistently inverted CD4+/CD8+ ratios suggesting chronic immune dysregulation, the athlete maintained competitive performance, highlighting the temporary nature of these changes and emphasizing that regular immune monitoring can help optimize health and performance in elite athletes. Full article

Platelet-rich plasma (PRP) is an autologous blood-derived concentrate increasingly utilized in regenerative medicine for its ability to accelerate healing and tissue repair. PRP is broadly classified by leukocyte content, fibrin architecture, and platelet concentration, with classification systems developed to standardize characterization. Preparation methods, including single- or double-spin centrifugation and buffy coat techniques, influence the final composition of PRP, determining the relative proportions of platelets, leukocytes, plasma proteins, and extracellular vesicles. These components act synergistically, with platelets releasing growth factors (e.g., VEGF, PDGF, TGF-β) that stimulate angiogenesis and matrix synthesis, leukocytes providing immunomodulation, plasma proteins facilitating scaffolding, and exosomes regulating intercellular signaling. Mechanistically, PRP enhances tissue repair through four key pathways: platelet adhesion molecules promote hemostasis and cell recruitment; immunomodulation reduces pro-inflammatory cytokines and favors M2 macrophage polarization; angiogenesis supports vascular remodeling and nutrient delivery; and serotonin-mediated pathways contribute to analgesia. These processes establish a regenerative microenvironment that supports both structural repair and functional recovery. Clinically, PRP has been applied across multiple specialties. In orthopedics, it promotes tendon, cartilage, and bone healing in conditions such as tendinopathy and osteoarthritis. In dermatology, PRP enhances skin rejuvenation, scar remodeling, and hair restoration. Gynecology has adopted PRP for ovarian rejuvenation, endometrial repair, and vulvovaginal atrophy. In dentistry and oral surgery, PRP accelerates wound closure and osseointegration, while chronic wound care benefits from its angiogenic and anti-inflammatory effects. PRP has also favored gingival recession coverage, regeneration of intrabony periodontal defects, and sinus grafting. Although preparation heterogeneity remains a challenge, PRP offers a versatile, biologically active therapy with expanding clinical utility. Full article

Cell-free DNA (cfDNA) promoter hypermethylation shows promise as a blood-based biomarker for pancreatic cancer, and similar alterations may occur in acute pancreatitis (AP). This study investigated the cfDNA hypermethylation profile of AP patients over time, compared with healthy controls, and its association with AP severity markers. A prospective longitudinal study including hospitalized AP patients and healthy controls was conducted. Methylation-specific PCR of a 23-gene panel was performed on plasma collected at inclusion (T0), 6 weeks (T6W), 6 months (T6M), and 7–8 years (T8Y). Associations between gene hypermethylation and clinical markers of AP severity—CRP, leukocyte count, creatinine, hospital stay, and complications—were evaluated. AP patients had a significantly higher mean number of hypermethylated genes at T0 (7.4, 95% CI: 6.8–8.0) compared with the controls (3.3, 95% CI: 2.8–3.8; p < 0.01). The mean number decreased over time to 3.2 (95% CI: 2.4–4.1) at T8Y. Total hypermethylation was positively associated with CRP (ρ = 0.39; p = 0.0018), leukocytes (ρ = 0.35; p = 0.0052), and hospital stay (ρ = 0.27; p = 0.0375). AP patients exhibited significantly higher cfDNA hypermethylation at disease onset, which normalized over time. Total hypermethylation showed positive associations with several markers of AP severity. Full article

Background: The clinical heterogeneity of autism spectrum disorders (ASDs) results from dynamic interactions between genetic susceptibility and environmental exposures. Autism is increasingly recognized as involving neuroimmune dysregulation, which may contribute to ASD severity. Several studies indicate that ASD patients exhibit increased levels of VCAM-1, suggesting endothelial dysfunction and enhanced leukocyte infiltration into the brain, which may have adverse bearing on synaptic plasticity, axon growth, and repulsion. Similarly, elevated PGE2 drives microglial activation and excitotoxicity. The present study examines possible links between VCAM-1 and PGE2 levels and ASD severity. Methods: VCAM-1 and PGE₂ concentrations were measured in children with ASD aged 2–6 years and analyzed for age effects and correlations with behavioral severity. Participants were grouped as mild, moderate, or severe based on Autism Diagnostic Observation Schedule-2 (ADOS-2) scores. Results: VCAM-1 levels were subnormal in 39.3% (n = 24), and PGE₂ levels were above normal in 32.8% (n = 20). Mean VCAM-1 levels decreased significantly with age (F(4, 56) =2.98, p = 0.026) and also, were higher in moderate (U = 36.00, Z = −3.96, p < 0.001) and severe (U = 155.50, Z =−2.70, p = 0.007) ASD groups, with mean ranks rising from 14.46 (mild) to 41.13 (severe). PGE₂ did not differ between severity and age groups (p > 0.05). VCAM-1 correlated moderately with ADOS-2 scores (rho = 0.577, p < 0.001), whereas PGE2 did not (rho = 0.108, p = 0.406), suggesting higher VCAM-1 is linked to increased behavioral severity in ASD. Conclusions: Inflammation-related biomarkers could be reflecting a heterogeneous set of neuroimmune mechanisms underlying ASD, which may drive behavioral outcomes. Full article

Background/Objectives: The global increase in the consumption of ultra-processed foods (UPFs) parallels the rise in obesity and non-communicable chronic diseases. Although several large-scale studies associate UPF intake with adverse health outcomes, the biological mechanisms remain unclear. Epigenetic alterations, such as changes in DNA methylation, may represent a potential pathway by which diet influences metabolic health. The aim of this study was to investigate whether higher UPF consumption is associated with genome-wide DNA methylation patterns in women. Methods: This was a cross-sectional observational study with exploratory epigenetic analysis. We selected 30 women, who were divided into tertiles based on their UPF consumption (expressed as a percentage of total energy intake) according to the NOVA food classification system. Dietary intake was assessed using a three-day food record. Anthropometric data, body composition and laboratory parameters were evaluated. The analysis of DNA methylation was performed utilizing DNA extracted from peripheral blood leukocytes of participants in the first and third tertiles of UPF consumption. Genome-wide methylation patterns were performed using next-generation sequencing. Results: Participants had a median (IQR) age of 31 years (26.0–36.5) and a BMI of 24.7 (23.6–35.8) kg/m². For the epigenetic analyses, 15 women were included. Of the 30 women initially evaluated, 20 were included as they belonged to the first and third tertile of UPF consumption. Of these, five were excluded due to a low number of reads obtained by NGS. A total of 80 differentially methylated regions were identified between groups, most of which were hypomethylated in the high-UPF-intake group. Conclusions: High UPF consumption was associated with altered DNA methylation patterns, suggesting a potential epigenetic mechanism underlying the negative health effects of UPFs. This pilot study provides a model for future research with larger samples. Full article

Background/Objectives: Management of prehepatic portal hypertension involves endoscopic and medical therapies with subsequent shunting if symptoms persist. Lately, surgical shunts, particularly the Meso-Rex shunt, are increasingly considered early in the disease course, offering benefits such as minimized hyperammonemia, improved somatic growth, and preservation of liver function. Our study evaluates post-operative outcomes after different surgical procedures in children with prehepatic portal hypertension. Methods: This single-centre retrospective case series included six children undergoing surgical shunting for prehepatic portal hypertension over a 5-year period. Medical records before and after surgery, followed for an average of 4.0 years, were analyzed. Results: Five patients underwent a Meso-Rex bypass, while one patient underwent a mesorenal shunt procedure. All cases showed clinically significant regression of esophageal varices six months post-surgery. Thrombocyte as well as leukocyte count significantly increased in five out of six patients during the long-term follow-up. Currently, five out of six surgically formed shunts (83%) continue to function normally. Conclusions: Our study supports early surgical intervention for improved long-term outcomes in managing portal hypertension, reducing complications like hypersplenism and variceal bleeding. Early consideration and ongoing monitoring are crucial for long-term success in children with portal hypertension. Full article

Background: Tumor-promoting inflammation and immune evasion are hallmarks of cancer, contributing to the survival and proliferation of tumor cells. Infiltrating leukocytes and pro-inflammatory cytokines released into the tumor microenvironment (TME) often cause this inflammation and immune evasion. Neutrophils are leukocytes that contribute to inflammation and have immunomodulatory functions. They are shown to have pro- or anti-tumorigenic roles contingent on cancer type. Methods: In this study, we examined the role of neutrophil recruitment in pancreatic cancer (PC) progression using patient samples and murine models. Results: We observed enhanced neutrophil infiltration and neutrophil extracellular trap (NET) formation, which were dependent on disease stage and tumor site. Our murine model studies showed that the infiltration of neutrophils and NETs was dependent on disease progression. Moreover, chemokine receptor CXCR2 and its ligands played a crucial role in neutrophil recruitment. The expression of CXCR2 and its ligands was associated with a worse prognosis for patients. Conclusions: Our data demonstrates that gemcitabine therapy enhances neutrophil recruitment and NET formation in PC. In addition, we observed altered neutrophil phenotypes in PC dependent on disease progression, suggesting a context-dependent immunomodulatory role. Together, our data demonstrate that CXCR2-driven neutrophil recruitment increases with PC progression, is enhanced by gemcitabine chemotherapy, promotes an immunosuppressive microenvironment, and is associated with poor patient survival. Full article