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Hepatitis B virus (HBV) is the main causative viral agent for liver diseases in China. In liver injury, exosomes may impede the interaction with chromatin in the target cell and transmit inflammatory, apoptosis, or regeneration signals through RNAs. Therefore, we attempted to determine the potential functions of exosomal RNAs using bioinformatics technology. We performed RNA sequencing analysis in exosomes derived from clinical specimens of healthy control (HC) individuals and patients with chronic hepatitis B (CHB) and acute-on-chronic liver failure caused by HBV (HBV-ACLF). This analysis resulted in the identification of different types and proportions of RNAs in exosomes from the HC individuals and patients. Exosomes from the CHB and HBV-ACLF patients showed distinct upregulation and downregulation patterns of differentially expressed genes compared with those from the HC subjects. Gene Ontology and Kyoto Encyclopaedia of Genes and Genomes pathway analysis further confirmed different patterns of biological functions and signalling pathways in CHB and HBV-ACLF. Then we chose two upregulated RNAs both in CHB and HBV-ACLF for further qPCR validation. It confirmed the significantly different expression levels in CHB and HBV-ACLF compared with HC. Our findings indicate selective packaging of the RNA cargo into exosomes under different HBV attacks; these may represent potential targets for the diagnosis and treatment of HBV-caused liver injury.

BackgroundAcute-on-chronic liver failure (ACLF) is a life-threatening syndrome involving dysfunction of multiple immune cell types.ObjectiveThis study aimed to comprehensively depict the dynamic trajectory of immune responses throughout the disease course of HBV-related ACLF (HBV-ACLF).DesignSingle-cell RNA sequencing and single-cell proteomics were performed on the peripheral blood mononuclear cells of 45 samples from 17 patients who were hospitalised (progressive/stable/recovering course of HBV-ACLF, 6/5/6) and 15 control subjects (liver cirrhosis, chronic hepatitis B and healthy controls, 5/5/5). Functional and mechanistic experiments were validated in vivo and in vitro.ResultsSingle-cell multiomics analysis revealed specific changes in the peripheral immune response in ACLF. VCAN+CD14+-monocytes with activated interferon-stimulated genes and enhanced inflammatory functions, stimulated by HBV relapse and expanded in ACLF-1, fuelling early inflammatory storm. The subsequent apoptotic hepatocytes predominantly induce hyperinflammatory C-X-C motif chemokine receptor 2 (CXCR2)+-neutrophils and CD163+-monocytes, enriching in patients with progressive ACLF and serving as significant markers of disease deterioration. Cytotoxic T-cells were functionally impaired and significantly decreased in progressive patients. CXCR2+-neutrophils exhibited immunosuppressive activity and induced the exhaustion of cytotoxic T-cells. Pharmacological inhibition of CXCR2 significantly reduced neutrophils infiltration, restored cytotoxic T-cells and showed therapeutic effect in ACLF mice. Six immune cellular modules (CMs) were identified for patient stratification, with CM2 and CM6 showing strong predictive value for disease outcomes, and CM3 indicating a potential early therapeutic window.ConclusionOur longitudinal multiomics study revealed the dynamic evolution of the immune response in HBV-ACLF and characterised diverse immune patterns for the future precise management and therapeutic intervention.

This study investigates the longitudinal dynamic changes in immune cells in COVID-19 patients over an extended period after recovery, as well as the interplay between immune cells and antibodies. Leveraging single-cell mass spectrometry, we selected six COVID-19 patients and four healthy controls, dissecting the evolving landscape within six months post-viral RNA clearance, alongside the levels of anti-spike protein antibodies. The T cell immunophenotype ascertained via single-cell mass spectrometry underwent validation through flow cytometry in 37 samples. Our findings illuminate that CD8 + T cells, gamma-delta (gd) T cells, and NK cells witnessed an increase, in contrast to the reduction observed in monocytes, B cells, and double-negative T (DNT) cells over time. The proportion of monocytes remained significantly elevated in COVID-19 patients compared to controls even after six-month. Subpopulation-wise, an upsurge manifested within various T effector memory subsets, CD45RA + T effector memory, gdT, and NK cells, whereas declines marked the populations of DNT, naive and memory B cells, and classical as well as non-classical monocytes. Noteworthy associations surfaced between DNT, gdT, CD4 + T, NK cells, and the anti-S antibody titer. This study reveals the changes in peripheral blood mononuclear cells of COVID-19 patients within 6 months after viral RNA clearance and sheds light on the interactions between immune cells and antibodies. The findings from this research contribute to a better understanding of immune transformations during the recovery from COVID-19 and offer guidance for protective measures against reinfection in the context of viral variants.

Background and aim Liver failure, which is predominantly caused by hepatitis B (HBV) can be improved by an artificial liver support system (ALSS). This study investigated the phenotypic heterogeneity of immunocytes in patients with HBV-related acute-on-chronic liver failure (HBV-ACLF) before and after ALSS therapy. Methods A total of 22 patients with HBV-ACLF who received ALSS therapy were included in the study. Patients with Grade I according to the ACLF Research Consortium score were considered to have improved. Demographic and laboratory data were collected and analyzed during hospitalization. Immunological features of peripheral blood in the patients before and after ALSS were detected by mass cytometry analyses. Results In total, 12 patients improved and 10 patients did not. According to the immunological features data after ALSS, the proportion of circulating monocytes was significantly higher in non-improved patients, but there were fewer γδT cells compared with those in improved patients. Characterization of 37 cell clusters revealed that the frequency of effector CD8 + T ( P  = 0.003), CD4 + T CM ( P  = 0.033), CD4 + T EM ( P  = 0.039), and inhibitory natural killer (NK) cells ( P  = 0.029) decreased in HBV-ACLF patients after ALSS therapy. Sub group analyses after treatment showed that the improved patients had higher proportions of CD4 + T CM ( P  = 0.010), CD4 + T EM ( P  = 0.021), and γδT cells ( P  = 0.003) and a lower proportion of monocytes ( P  = 0.012) compared with the non-improved patients. Conclusions Changes in effector CD8 + T cells, effector and memory CD4 + T cells, and inhibitory NK cells are associated with ALSS treatment of HBV-ACLF. Moreover, monocytes and γδT cells exhibited the main differences when patients obtained different prognoses. The phenotypic heterogeneity of lymphocytes and monocytes may contribute to the prognosis of ALSS and future immunotherapy strategies.

Since the December 2019 outbreak of coronavirus disease 2019 (COVID-19) in Wuhan, the infection has spread locally and globally resulting in a pandemic. As the numbers of confirmed diagnoses and deaths continue to rise, COVID-19 has become the focus of international public health. COVID-19 is highly contagious, and there is no effective treatment yet. New treatment strategies are urgently needed to improve the treatment success rate of severe and critically ill patients. Increasing evidence has shown that a cytokine storm plays an important role in the progression of COVID-19. The artificial-liver blood-purification system (ALS) is expected to improve the outcome of the cytokine storm. In the present study, the levels of cytokines were detected in 12 COVID-19 patients pre- and post-ALS with promising results. The present study shows promising evidence that ALS can block the cytokine storm, rapidly remove the inflammatory mediators, and hopefully, suppress the progression of the disease, thereby providing a new strategy for the clinical treatment of COVID-19.

Background Hepatitis B virus-related acute-on-chronic liver failure (HBV-ACLF) is a serious liver disease with pathogenesis remaining unclear. This study aims to investigate the association between testosterone levels, stage (early, middle, or late, categorized according to clinical manifestation), severity scores, and clinical outcomes of HBV-ACLF. Methods This single-center observational study involved 160 male patients with HBV-ACLF, 151 chronic hepatitis B patients without liver failure (CHB) and 106 healthy controls (HC). Morning blood samples were collected and androgen levels analyzed by chemi-bioluminescent immunoassay. Time to death or liver transplantation within 90 days comprised the primary composite outcome. Results Serum levels of total testosterone (TT), free testosterone index (FTI), dehydroepiandrosterone sulfate and cortisol were significantly lower among HBV-ACLF than CHB and HC, while androstenedione was higher. Low TT, sex hormone binding globulin and FTI were associated with increased stage (of HBV-ACLF, ascites, and hepatic encephalopathy) and severity scores (Model for End-stage Liver Disease and Chinese Group on the Study of Severe Hepatitis B-ACLF scores). Low TT (< 142.39 ng/dL) was a risk factor for both the composite outcome and for death alone within 90 days. Multivariate analysis revealed TT to be an independent predictor for the composite outcome (hazard ratio 2.57, 95% CI 1.09–6.02; P  = 0.030). Conclusion Low serum testosterone is common among male patients with HBV-ACLF and predictive of increased severity and worse outcome of the disease and may play an important role in the progression of HBV-ACLF.

Tetanus is a fatal but vaccine‐preventable disease. The currently available tetanus vaccines are tetanus toxoid (TT)‐based. Although these vaccines are generally effective, challenges in vaccine development and access remain. A randomized, double‐blind, dose escalation, placebo‐ and positive‐controlled, phase 1/2 trial (ChiCTR1800015865) is performed to evaluate the safety and immunogenicity of an alternative recombinant tetanus vaccine based on the Hc domain of tetanus neurotoxin (TeNT‐Hc) in healthy adult volunteers. The primary outcome is the safety profile of the recombinant tetanus vaccine, and immunogenicity is the secondary outcome. 150 eligible participants were enrolled and randomly assigned to receive one of the three doses of recombinant tetanus vaccine (TeNT‐Hc 10/20/30 µg), TT vaccine, or placebo. The recombinant tetanus vaccine shows a good safety profile. The frequency of any solicited and unsolicited adverse events after each vaccination does not differ across the vaccine and placebo recipients. No serious treatment‐related adverse events occur. The recombinant tetanus vaccine shows strong immune responses (seroconversion rates, geometric mean titer, and antigen‐specific CD4+/CD8+ T‐cell responses), which are roughly comparable to those of the TT vaccine. In conclusion, the findings from this study support that recombinant tetanus vaccine is safe and immunogenic; thereby, it represents a novel vaccine candidate against tetanus. This study is the first randomized, phase 1/2 trial comparing dose escalation recombinant tetanus vaccine (TeNT‐Hc) with TT vaccine and placebo in healthy adults. All three doses of recombinant tetanus vaccine show a good safety profile, and strong immune responses, which are roughly comparable with TT vaccine. Thus, recombinant tetanus vaccine might be a novel vaccine candidate against tetanus.

ObjectiveHepatitis B virus-related acute-on-chronic liver failure (HBV-ACLF) pathophysiology remains unclear. This study aims to characterise the molecular basis of HBV-ACLF using transcriptomics.MethodsFour hundred subjects with HBV-ACLF, acute-on-chronic hepatic dysfunction (ACHD), liver cirrhosis (LC) or chronic hepatitis B (CHB) and normal controls (NC) from a prospective multicentre cohort were studied, and 65 subjects (ACLF, 20; ACHD, 10; LC, 10; CHB, 10; NC, 15) among them underwent mRNA sequencing using peripheral blood mononuclear cells (PBMCs).ResultsThe functional synergy analysis focusing on seven bioprocesses related to the PBMC response and the top 500 differentially expressed genes (DEGs) showed that viral processes were associated with all disease stages. Immune dysregulation, as the most prominent change and disorder triggered by HBV exacerbation, drove CHB or LC to ACHD and ACLF. Metabolic disruption was significant in ACHD and severe in ACLF. The analysis of 62 overlapping DEGs further linked the HBV-based immune-metabolism disorder to ACLF progression. The signatures of interferon-related, neutrophil-related and monocyte-related pathways related to the innate immune response were significantly upregulated. Signatures linked to the adaptive immune response were downregulated. Disruptions of lipid and fatty acid metabolism were observed during ACLF development. External validation of four DEGs underlying the aforementioned molecular mechanism in patients and experimental rats confirmed their specificity and potential as biomarkers for HBV-ACLF pathogenesis.ConclusionsThis study highlights immune-metabolism disorder triggered by HBV exacerbation as a potential mechanism of HBV-ACLF and may indicate a novel diagnostic and treatment target to reduce HBV-ACLF-related mortality.

Background HBV‐related acute‐on‐chronic liver failure (HBV‐ACLF) is the most common type of liver failure with high mortality. Artificial liver support system (ALSS) is an important mean to reduce the mortality of HBV‐ACLF but lacking index to assess its effectiveness. The cytokines are closely related to the prognosis of HBV‐ACLF patients with ALSS treatment, however, which is not fully understood. Methods One hundred forty‐two patients with HBV‐ACLF and 25 healthy donors were enrolled. The cytokine profile of peripheral blood was determined in the patients before and after ALSS treatment, and their relationship with effectiveness of ALSS treatment in HBV‐ACLF was analyzed. Results Serum IL‐28A levels were markedly lower in ALSS‐effective patients than those in non‐effective patients pre‐ALSS treatment. Similarly, serum IL‐6 was significantly lower in ALSS‐effective patients. Furthermore, for patients with effective treatment, serum IL‐28A levels were positively related with IL‐6 levels post‐ALSS (r = 0.2413, p = 0.0383). The ROC curve analysis showed that serum levels of IL‐28A (AUC = 0.6959 when alone or 0.8795 when combined with total bilirubin, platelet count and INR, both p < 0.0001) and IL‐6 (AUC = 0.6704, p = 0.0005) were useful indices for separating effective from non‐effective ALSS treatment of HBV‐ACLF patients. Multivariate logistic regression analysis demonstrated that lower level of IL‐28A was independently associated with higher effective rate of ALSS treatments. Conclusions Lower level of IL‐28A is a predictive biomarker for ALSS in effective treatment of HBV‐ACLF patients and IL‐28A may be potential target for the treatment of HBV‐ACLF. The receiver operative characteristic curve analysis showed that serum levels of IL‐28A [AUC = 0.6959 when alone (A) or 0.8795 when combined with total bilirubin, platelet count and INR (C)] was a useful index for separating effective from non‐effective artificial liver support system treatment of HBV‐ACLF patients. Lower level of IL‐28A is a predictive biomarker for artificial liver support system in effective treatment of HBV‐ACLF patients.