Search Results (4,062)

Lactylation, a recently identified post-translational modification (PTM) triggered by excessive lactate accumulation, has emerged as a crucial regulator linking metabolic reprogramming to pathological processes in liver diseases. In hepatic contexts, aberrant lactylation contributes to a range of pathological processes, including inflammation, dysregulation of lipid metabolism, angiogenesis, and fibrosis. Importantly, lactylation has been shown to impact tumor growth, metastasis, and therapy resistance by modulating oncogene expression, metabolic adaptation, stemness, angiogenesis, and altering the tumor microenvironment (TME). This review synthesizes current knowledge on the biochemical mechanisms of lactylation, encompassing both enzymatic and non-enzymatic pathways, and its roles in specific liver diseases. From a therapeutic perspective, targeting lactate availability and transport, as well as the enzymes regulating lactylation, has demonstrated promise in preclinical models. Additionally, combinatorial approaches and natural compounds have shown efficacy in disrupting lactylation-driven pathways, providing insights into future research directions for hepatic diseases. Although the emerging role of lactylation is gaining attention, its spatiotemporal dynamics and potential for clinical translation are not yet well comprehended. This review aims to synthesize the multifaceted roles of lactylation, thereby bridging mechanistic insights with actionable therapeutic strategies for liver diseases. Full article

Current therapies for inflammatory bowel disease (IBD), such as olsalazine and cyclosporine, often exhibit limited long-term efficacy and are associated with adverse effects. Cannabidiol (CBD), a non-psychoactive phytocannabinoid, shows promise for its anti-inflammatory properties, though its effectiveness as a monotherapy remains inconclusive. This study investigates the therapeutic potential of combining low-dose CBD (10 mg/kg) with olsalazine (50 mg/kg) or cyclosporine (2.5, 5 mg/kg) in dextran sulphate sodium (DSS)-induced acute and chronic colitis models in mice. Disease severity was assessed via disease activity index (DAI), colon morphology, cytokine and chemokine expression, myeloperoxidase (MPO) activity, systemic inflammatory markers, and glucagon-like peptide-1 (GLP-1) regulation. Safety evaluations included haematology and plasma biochemistry. DSS-treated mice showed elevated DAI scores, colon shortening, heightened inflammation, and organ enlargement. Combination therapies significantly ameliorated colitis, reducing DAI, MPO activity, and inflammatory cytokines, while restoring colon length and GLP-1 levels—without inducing liver or kidney toxicity. These findings demonstrate that combining a low dose of CBD with standard IBD drugs enhances therapeutic efficacy while minimizing side effects, supporting its integration into future combination strategies for more effective and safer IBD management. Full article

Introduction: Hepatitis B is the most prevalent virus that causes severe liver infection worldwide. According to the current guidelines, the HBV viral load and other factors can help in treatment decisions. Therefore, the present study explores the relationship between the HBV viral load and blood-based laboratory parameters. Methods: The HBV viral load was evaluated in blood samples from 159 HBsAg-positive patients (ICT-positive). The viral load was categorized as high (above 200,000 IU/mL), moderate (between 2000 and 200,000 IU/mL), or low (below 2000 IU/mL). The viral load was then compared with laboratory parameters. Results: A significant association was observed between the Hepatitis B viral load and the patient’s age (p < 0.01). The males showed a substantially higher viral load, with 29.2% of the male patients exhibiting elevated levels, compared to 11% of the females. A statistically significant correlation was found between the viral load and liver enzymes, specifically AST (p < 0.005) and ALT (p < 0.04), as well as calcium (p < 0.01). Notably, the elevated ALT and AST levels were more pronounced in the patients with moderate and high viral loads, suggesting a potential link to liver dysfunction. A remarkable insight uncovered in our study revolves around the notable increase in the serum calcium levels (p < 0.01). Conclusions: The AST, ALT, and serum calcium levels were the most altered parameters with high HBV viral load. Though limited reports are available on altered serum calcium levels, they could serve as potential laboratory markers for assessing disease progression in HBV infection. Moreover, focusing on potential therapies to normalize the AST, ALT, and serum calcium levels could offer promising avenues for combating HBV infection. Full article

Background/Objectives: The coronavirus disease 2019 (COVID-19) has more severe symptoms and increased mortality among men than women. To address the prognostic impact of vaccination, comorbidities, and inflammatory biomarkers on classified clinical outcomes in hospitalized COVID-19 patients, we compared common and sex differences. Methods: Besides laboratory and clinical parameters at hospital admission, we performed a common and sex-based comparative analysis for the clinical outcomes, RT-qPCR analyses, and measured severe acute respiratory syndrome coronavirus (SARS-CoV-2)-specific IgM and IgG antibody levels of 702 COVID-19 patients in a single center from June 2020 to April 2022. Results: Pro-inflammatory biomarkers (C-reactive protein (CRP), interleukin-6 (IL-6), fibrinogen, lactate dehydrogenase (LDH), D-dimer, ferritin), and liver enzymes (AST, ALT, GGT) were significantly more increased in COVID-19 male patients and generally elevated with the severity of clinical outcome, regardless of the SARS-CoV-2 variant. Cycle threshold (Ct) values of RT-qPCR testing were in negative correlation with IL-6 in COVID-19 male patients, indicating that higher viral load largely increased IL-6 levels in parallel with the severity of clinical outcome and regardless of vaccination. IgG levels were higher in early post-COVID-19 male patients. Comorbidities were more frequent in COVID-19 female patients and generally more common in the severe clinical outcomes. Vaccination was negatively correlated with the severity of clinical outcome, liver enzymes, LDH, and inflammatory parameters in hospitalized COVID-19 patients, while the risk of pneumonia was reduced. Vaccination reduced the need for corticosteroid and anti-inflammatory therapies, but increased the need for antiviral drug treatment. Conclusions: In addition to confirming inflammatory biomarkers and the importance of anti-inflammatory therapy in vaccinated patients, this study showed that vaccination reduces, but does not prevent, mortality in patients with COVID-19. Full article

Co-infection of Orientia tsutsugamushi and influenza A virus complicates diagnosis and treatment in endemic regions because of overlapping clinical features and potential synergistic inflammation. We describe a 68-year-old woman from Hainan, China, who presented with five days of high fever (39.2 °C), nonproductive cough, eschar formation, lymphadenopathy, cytopenias, elevated liver enzymes, and raised inflammatory markers. On the day of admission, influenza A was confirmed by rapid antigen test and Orientia tsutsugamushi IgM/IgG was detected via colloidal-gold immunochromatography, prompting concurrent oseltamivir and doxycycline therapy. Quantitative PCR on day 2 measured an Orientia tsutsugamushi load of 2.85 × 10⁴ copies/mL (Cq 28.86), and targeted next-generation sequencing on day 3 revealed a high H1N1pdm09 viral burden (>1 × 10⁶ copies/mL) with low-level human herpesvirus 1 co-detection. Nested PCR and Sanger sequencing assigned Orientia tsutsugamushi to the Karp_A lineage and influenza A to clade 6B.1A.5a.2a. The patient defervesced by hospital day 2, laboratory indices normalized by day 3, and radiographic abnormalities resolved by day 6. This first documented Orientia tsutsugamushi–influenza A co-infection in China highlights the value of integrating rapid serology, qPCR quantification, nested PCR genotyping, and tNGS for early, precise dual-pathogen identification. Systematic multi-pathogen screening during overlapping transmission seasons is recommended to guide timely combination therapy and enhance epidemiological surveillance. Full article

Anemia remains a widespread public health concern, and the search for interventions demonstrating potent anti-anemic activity is critical for reducing its impact among high-risk populations. Conventional iron therapies are associated with several complications and potential adverse effects. This study explored a polyherbal approach to develop a safer and more effective alternative treatment for anemia. A molecular docking study was initially performed to screen and evaluate alizarin, catechin, kaempferol, recesmol, rubiadin, and rutin, which are known for their antioxidant and hematinic potential. Using AutoDock Vina, these compounds were docked against the target protein (PDB ID: 6MOE) with EPE and ferrous ions as controls. Rutin demonstrated the highest binding affinity of −6.4 kcal/moL, whereas alizarin and rubiadin both followed closely with −6.3 kcal/moL, while kaempferol and ellagic acid exhibited a binding affinity of −6.2 kcal/moL. In comparison, the reference compounds tested ferrous ions, and native ligand EPE (−5.0 kcal/moL) and iron (−4.8 kcal/moL), showed mild affinities. Moreover, the tested compounds demonstrated stable binding, suggesting their potential relevance in modulating anemia-related pathways. Based on the docking results and traditional therapeutic values, a polyherbal formulation (PHF) was developed using methanolic extracts of Trigonella foenum-graecum, Emblica officinalis, Pterocarpus marsupium, Withania somnifera, Asparagus racemosus, Zingiber officinale, Rubia cordifolia, Boerhavia diffusa, and Adhatoda vasica. Phytochemical screening via HPTLC analysis was used to quantify the presence of gallic and ellagic acids. In addition, PHF showed significant antioxidant potential (DPPH IC₅₀: 14.29 µg/mL; FRAP IC₅₀: 58.57 µg/mL) and iron content (98.47 ppm) values. Furthermore, in vivo evaluation using a phenylhydrazine-induced hemolytic anemia model in Sprague Dawley rats revealed that the PHF achieved complete restoration of RBCs (6.15 ± 0.04), hemoglobin (14.82 ± 0.03 g/dL), and hematocrit (43.08 ± 0.28%) in anemic rats and improved histopathological features in the liver, spleen, and bone marrow. These results demonstrate that combined molecular and pharmacological evidence support the efficacy of PHF as a promising candidate for the management of anemia by enhancing erythropoiesis, improving iron metabolism, and reducing oxidative stress. Full article

Despite improvements in kidney transplantation rates, the shortage of donor kidneys remains a critical issue, exacerbated by non-utilization of recovered kidneys due to quality concerns, necessitating advancements in perfusion methods to enhance graft outcomes and usage. Although static cold storage remains the default standard for kidney preservation, newer methods like hypothermic machine perfusion have shown improved outcomes, including reduced delayed graft function and better survival rates. Hypothermic oxygenated machine perfusion and normothermic machine perfusion offer some potential clinical benefits but studies to date have demonstrated mixed results. In the United States, LifePort and the XVIVO’s Kidney Assist Transport are the most popular hypothermic perfusion devices, with NMP devices mostly in trials. Combining perfusion with biomarkers such as mitochondrial flavin mononucleotide, neutrophil gelatinase-associated lipocalin, and osteopontin shows promise in assessing kidney viability and predicting post-transplant outcomes, though further research is also needed. Emphasis on repair biomarkers, such as uromodulin and osteopontin, aims to better predict graft outcomes and develop new therapies. While notable advancements have been made in the use of machine perfusion and viability testing for liver transplantation, additional research with larger sample sizes is essential to substantiate these results and enhance kidney transplantation outcomes. Full article

Hepatocellular carcinoma (HCC) is the most common liver cancer, with poor survival rates in advanced stages due to late diagnosis, tumor heterogeneity, and therapy resistance. The tumor microenvironment (TME) in HCC has a crucial role in tumor progression, characterized by a complex interaction of immune cells, stromal components, and immunosuppressive signaling pathways. Chronic inflammation driven by viral infections, metabolic dysfunction, and alcohol consumption triggers an immunosuppressive TME, promoting immune evasion and tumor growth. Immune cell populations, such as myeloid-derived suppressor cells, regulatory T cells, and tumor-associated macrophages, contribute to immunosuppression, while cytotoxic T lymphocytes and natural killer cells exert anti-tumor effects. Recent advances in immunotherapy, mainly immune checkpoint inhibitors (ICIs) targeting programmed death-ligand 1 and programmed cell death protein 1 and cytotoxic T-lymphocyte-associated protein 4, have revolutionized HCC treatment, though response rates remain limited. Combined therapies using tyrosine kinase inhibitors, anti-angiogenic agents, and ICIs improve patient outcomes. This review discusses the immunological mechanisms contributing to HCC progression, the role of immune cell subsets in tumor evasion, and therapeutic interventions, from conventional treatments to advanced immunotherapies. Ongoing clinical trials, barriers to effective treatment, and future directions to enhance HCC management and patient survival will also be overviewed. Full article

Quantitative dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI) is emerging as a valuable tool for assessing tumor and parenchymal perfusion in the liver, playing a developing role in locoregional therapies (LRTs) for hepatocellular carcinoma (HCC). This review explores the conceptual underpinnings and early investigational stages of DCE-MRI for LRTs, including thermal ablation, transarterial chemoembolization (TACE), and transarterial radioembolization (TARE). Preclinical and early-phase studies suggest that DCE-MRI may offer valuable insights into HCC tumor microvasculature, treatment response, and therapy planning. In thermal ablation therapies, DCE-MRI provides a quantitative measurement of tumor microvasculature and perfusion, which can guide more effective energy delivery and estimation of ablation margins. For TACE, DCE-MRI parameters are proving their potential to describe treatment efficacy and predict recurrence, especially when combined with adjuvant therapies. In ⁹⁰Y TARE, DCE-MRI shows promise for refining dosimetry planning by mapping tumor blood flow to improve microsphere distribution. However, despite these promising applications, there remains a profound gap between early investigational studies and clinical translation. Current quantitative DCE-MRI research is largely confined to phantom models and initial feasibility assessments, with robust retrospective data notably lacking and prospective clinical trials yet to be initiated. With continued development, DCE-MRI has the potential to personalize LRT treatment approaches and serve as an important tool to enhance patient outcomes for HCC. Full article

Halting liver fibrosis progression is a key goal in treating liver disease, yet effective antifibrotic drugs remain unavailable. This study explores the use of precision-cut liver slices (PCLS) as an ex vivo model to evaluate new therapies. Researchers tested how different oxygen levels affect viability, tissue integrity, and inflammatory response in PCLS from healthy and fibrotic rats. Fibrotic PCLS maintained their pathological gene signature under 40% oxygen and responded to inflammatory stimuli, indicating preserved functionality. Exposure to high oxygen levels increased oxidative stress and pro-inflammatory gene expression. Cirrhotic PCLS showed early signs of reduced viability and the upregulation of fibrosis-related genes including Col1α2, Col3α1, αSMA, Timp1, Timp2, Mmp2, Pdgfrβ, Nos2, Cox2, and Il6. Lipopolysaccharide (LPS) exposure induced the marked overexpression of Nos2 and Il1β mRNA and confirmed the model’s responsiveness to external injury. Fibrotic PCLS retained fibrogenic activity for at least 48 h. Additionally, the adenoviral delivery of a dominant-negative soluble PDGFRβ effectively blocked fibrotic signaling. Human fibrotic PCLS also remained viable for 72 h and showed an increased mRNA expression of fibrosis markers such as COL1A1, αSMA, and MMP2. These results highlight the potential of PCLS as a promising platform for future therapeutic testing, pending further validation with functional interventions. Full article

Primary sclerosing cholangitis (PSC) is a cholestatic liver disease with male predominance. This study investigated the role of microRNA-125b in PSC-related liver fibrosis, focusing on its interaction with transforming growth factor beta (TGF-β), androgen receptors (ARs), and apelin. Elevated serum and hepatic levels of miR-125b were observed in PSC patients, particularly in males and those with advanced fibrosis, and correlated with increased liver injury markers and FibroScan stiffness. miR-125b expression negatively correlated with apelin and TGF-β levels, while it positively correlated with AR expression. In vitro, miR-125b overexpression induced ARs and suppressed p53 and apelin, whereas lipopolysaccharide stimulation reduced miR-125b and enhanced pro-inflammatory genes, including TNF-α and TGF-β. Notably, ursodeoxycholic acid therapy significantly decreased serum miR-125b levels. These findings suggest that miR-125b contributes to inflammation and fibrogenesis in PSC, partly through the modulation of TGF-β, ARs, and apelin signalling. Moreover, the observed sex-based differences in miR-125b expression underscore the influence of androgens in PSC pathogenesis. Full article

Background: Chronic hepatitis B (CHB) remains being a major public health threat, and currently existing CHB therapies have limited efficacy and side effects. We have recently developed a vaccine termed VVX001 based on a recombinant fusion protein consisting of the preS domain of the large surface protein of hepatitis B virus (HBV) fused to grass pollen allergen peptides. VVX001 has been shown to induce preS-specific antibodies in grass pollen allergic patients, and sera of immunized subjects inhibited HBV infection in vitro. Methods: In this study we investigated if immunization with VVX001 can induce preS-specific antibodies in CHB using the adeno-associated virus (AAV)-HBV murine model of CHB. Six groups of C57BL/6 female mice (n = 6) were transduced with AAV-HBV or AAV-Empty, and after six weeks, they were immunized five times with 20 µg of aluminum hydroxide-adsorbed VVX001 or preS or vehicle (Alum alone). Serum samples were taken continuously. Two weeks after the last immunization, spleen and liver mononuclear cells were collected. Serum reactivity to preS and preS-derived peptides was assessed by ELISA. B-cell responses were measured by ELISPOT assay, and intrahepatic lymphocyte (ILH) counts were determined by FACS. HBV DNA, HBsAg, HBeAg, ALT, and AST were assessed using commercial kits. Results: Our results show that VVX001 induces preS-specific IgG antibodies that cross-react with different HBV genotypes A-H and are directed against the sodium taurocholate co-transporting polypeptide (NTCP) receptor binding site of preS both in mice with and without HBV. Actively immunized AAV-HBV-treated mice had a higher number of intrahepatic lymphocytes than vehicle-vaccinated and mock-transduced animals. Conclusions: These findings encourage performing further trials to study the potential of VVX001 for therapeutic vaccination against CHB. Full article

Background: Graft-versus-host disease (GVHD) is a rare but serious complication following solid organ transplantation (SOT), particularly in transplants involving organs with a high volume of passenger donor T-lymphocytes. This case highlights the clinical course and diagnostic challenges of GVHD following simultaneous pancreas and pre-emptive kidney transplantation. Methods: A 51-year-old male with long-standing type 1 diabetes mellitus underwent simultaneous pancreas and kidney transplantation with induction therapy using rabbit anti-thymocyte globulin and methylprednisolone. Three months post-transplant, he presented with a diffuse lichenoid cutaneous eruption. Diagnostic evaluation included an extensive infectious workup, skin punch biopsy, liver and bone marrow biopsies, and microchimerism assay. Results: Skin biopsy revealed interface vacuolar dermatitis consistent with cutaneous GVHD. Subsequent liver and bone marrow biopsies confirmed GVHD involvement, with microchimerism assay showing 43% donor-origin T-cells in the bone marrow. Initial treatment with systemic and topical corticosteroids led to temporary improvement. However, the patient developed bone marrow suppression, recurrent bacteremia, and invasive fungal infection, resulting in a prolonged ICU stay and ultimately death. Conclusions: This case underscores the importance of considering SOT-GVHD in patients receiving organs rich in donor lymphocytes, such as pancreas transplants. Early recognition and multidisciplinary management are critical to improving outcomes in this rare but life-threatening condition. Full article

Introduction. The Italian Committee for Tailored BIOlogic Therapy (ITABIO), in a first report, has reviewed the literature to identify the best strategy for the choice of second-line biologic therapy in patients with rheumatoid arthritis (RA), spondyloarthritis (SpA), and psoriatic arthritis (PsA). To verify the application of ITABIO recommendations in real life and how the recommendations perform in maintaining the health status of patients affected by inflammatory arthritis (RA, SpA, PsA), a database has been developed by Pharmaceutical Governance to evaluate the appropriateness of prescriptions. Methods. We have analyzed retrospectively 616 patients, 288 (46.7%) affected by RA, 117 (19%) affected by SpA, and 211 (34.3%) affected by PsA. Age, sex, diagnosis, current treatment, previous treatments with csDMARDs, b-DMARDs, ts-DMARDs, presence of risk factors for cardiovascular (CV) events, liver disease, infections, extra-articular manifestations such as interstitial lung disease (ILD) for RA, enthesitis, dactylitis, uveitis, inflammatory bowel disease for SpA and PsA, neoplasms, diabetes, presence or absence of rheumatoid factor (RF) and anti-citrullinated peptide antibodies (ACPA) for RA were evaluated. Results. The percentage of treatments with anti-TNF biosimilars was 65.1, 52.4, and 24.3% in SpA (76 patients(pt)), PsA (110 pt), and RA (69 pt), respectively. The percentage of monotherapy was 68% (418 pt) in the three diseases. For RA, 34.2% of patients were difficult to treat (D2T) (98 pt), 54.8% (157 pt) were in monotherapy (tocilizumab-sarilumab-upadacitinib-filgotinib). Abatacept was the most prescribed treatment in RF and ACPA-positive patients and in those with ILD. The anti-IL-17A secukinumab was prescribed in 12% of SpA, of which 71% had enthesitis and dactylitis (14 pt). Ixekizumab was prescribed in 10.4% of PsA patients over 65 years with previous CV events, enthesitis, and dactylitis (21 pt). Apremilast was present in 71% of PsA with previous cancer. Conclusions. The cross-sectional analysis of prescriptions in patients with RA, SpA, and PsA demonstrates how the ITABIO recommendations can guide towards the correct appropriateness of prescription. RA and especially D2T-RA remains the disease with the greatest therapeutic failures, with the highest percentage of monotherapy (anti-IL-6 and Jak-i) and of discontinuation of MTX. Full article

Ectopic lipid accumulation is a core contributor to insulin resistance and metabolic diseases, including type 2 diabetes, dyslipidemia, and non-alcoholic fatty liver disease. Conventional therapies have primarily focused on redistributing lipid burden across tissues or modulating specific pathways. However, this often causes compensatory responses that merely shift the burden rather than resolve the underlying lipid excess. In this review, we introduce the concept of the ballooning effect, wherein single-target interventions inadvertently exacerbate lipid accumulation in non-target tissues. We then explore fundamental strategies for true lipid disposal, which aim either to prevent lipid influx or to promote complete lipid oxidation. Among these, mild mitochondrial uncoupling emerges as a promising solution. By dissipating substrate energy as heat, mitochondrial uncoupling reduces ectopic lipid burden without relying on redistribution. Recent advances have yielded safer chemical uncouplers and novel endogenous protein-based mechanisms that enable controlled uncoupling with minimal toxicity. Together, these provide a new framework for next-generation metabolic therapies that move beyond lipid redistribution and aim for a true lipid disposal, potentially offering a safe and effective strategy. Full article