Myeloid-derived suppressor cells (MDSCs) could have important roles in immune regulation, and MDSCs can be induced in patients with various malignant tumors. The immune-suppressive functions of MDSCs in hepatocellular carcinoma (HCC) patients have not been clarified. Therefore, we tried to analyze the biological significance of MDSCs in HCC patients. We quantified PD-L1+MDSCs of HCC patients in various conditions by using multi-color flow cytometry analysis. PBMCs from HCC patients contained significantly higher percentages of PD-L1+MDSCs in comparison to those from healthy subjects (p < 0.001). The percentages of PD-L1+MDSCs were reduced by curative treatment for HCC (p < 0.05), and the percentages of PD-L1+MDSCs before treatment were inversely correlated with disease-free survival time. After we cocultivated PBMCs and several liver cancer cell lines in a transwell coculture system, the percentages of PD-L1+MDSCs were significantly increased compared with control (p < 0.05). The expression of M-CSF and VEGFA was higher in the cell lines that strongly induced PD-L1+MDSCs. Peripheral blood from HCC patients had significantly higher percentages of PD-L1+MDSCs in comparison to those of healthy subjects, and the percentages of PD-L1+MDSCs were reduced by HCC treatment, suggesting that we might use PD-L1+MDSCs as a new biomarker of HCC.
Hepatitis B virus (HBV) infection is a worldwide health problem because of its potential to cause liver cirrhosis and hepatocellular carcinoma. Silibinin is a constituent of an extract of milk thistle, which is empirically used as a herbal medicine for the protection of liver, but its detailed effects on HBV are unknown. Because a previous study reported that silibinin hinders clathlin-mediated endocytosis (CME), we aimed to test whether silibinin inhibits the entry of HBV into hepatocytes. Using HepG2-NTCP-C4 cells, which overexpress sodium taurocholate cotransporting polypeptide (NTCP), it was shown that silibinin inhibited HBV infection dose-dependently. Similar effects were observed using human primary hepatocytes (PXB-cells). Additionally, a combination of silibinin and entecavir reduced HBV DNA in the culture supernatant more than either mono-treatment alone in HepG2-NTCP-C4 cells that had already been infected with HBV. Silibinin decreased transferrin uptake but did not affect the interaction between the HBV envelope and NTCP, suggesting that silibinin might inhibit HBV infection by hindering CME. In conclusion, this study showed that silibinin inhibits HBV entry in vitro.
Viruses are considered to use vesicular trafficking in infected cells, but the details of assembly/release pathways of hepatitis B virus (HBV) are still unknown. To identify key regulators of HBV production, we performed short interfering RNA (siRNA) screening for Rab proteins, which are considered to act as molecular switches in vesicular trafficking using HepG2.2.15 cells. Among 62 Rab proteins, the suppression of Rab5B most significantly increased HBV DNA in the culture supernatant. Surprisingly, 5 days after the transfection of Rab5B siRNA, HBV DNA in the supernatant was increased more than 30-fold, reflecting the increase of infectious HBV particles. Northern blotting showed that transcription of 2.4/2.1-kb mRNA coding envelope proteins containing large hepatitis B surface protein (LHBs) was increased. Analysis of hepatocyte nuclear factors (HNFs) showed that transcription of HNF4␣, which is known to enhance 2.4-kb mRNA transcription, was regulated by Rab5B. Also, it was revealed that LHBs had accumulated in the endoplasmic reticulum (ER) after Rab5B depletion but not in the multivesicular body (MVB), which is thought to be an organelle utilized for HBV envelope formation. Therefore, it was considered that Rab5B is required for the transport of LHBs from the ER to MVB. Immunofluorescent microscopy showed that HBs proteins, including LHBs, colocalized with HBc in the ER of Rab5Bdepleted cells, suggesting that HBV envelopment occurs not only in the MVB but also in the ER. In conclusion, Rab5B is a key regulator of HBV production and could be a target of antiviral therapy. IMPORTANCE HBV infection is a worldwide health problem, but the mechanisms of how HBV utilizes cellular machinery for its life cycle are poorly understood. In particular, it has been unclear how the viral components and virions are transported among the organelles. The HBV budding site has been reported to be the ER or MVB, but it has not been clearly determined. In this study, siRNA-based screening of Rab proteins using HBV-expressing cells showed that Rab5B, one of the Rab5 isoforms, has important roles in late steps of the HBV life cycle. Although Rab5 is known to work on early endosomes, this study showed that Rab5B plays a role in the transport of LHBs between the ER and MVB. Furthermore, it affects the transcription of LHBs. This is the first report on the mechanisms of HBV envelope protein
Hepatitis B virus (HBV) reactivation from resolved infection is a serious problem which can frequently lead to severe hepatitis. Generally, it occurs several months after the start of immunosuppressive therapy; however, it sometimes occurs a few years later, even after cessation of therapy. Here we report a patient with de novo HBV infection who had received corticosteroid therapy for pemphigus vulgaris for 6 years. Full-genome HBV sequence analysis using serial serum samples revealed that the patient was infected with HBV subgenotype C2, which had the G1896R mixed mutation in the precore region. Interestingly, it had the immune escape mutations P120A and G145R in the S gene. Because both hepatitis B surface antigen and antibodies to hepatitis B surface antigen (HBsAb) were positive at the onset of the de novo infection, it was considered that HBV with these mutations escaped from neutralization by the pre-existing HBsAbs. This case indicates that HBV reactivation with an immune escape mutant can occur long after immunosuppressive therapy.
It has been reported that acute hepatitis B (AHB) patients with genotype A HBV (HBV/A) have been increasing since the 1990s in metropolitan areas in Japan. However, little is known about the trends of HBV genotypes in AHB patients in northeast Japan where genotype B HBV (HBV/B) prevails more than in other areas. In this study, we aimed to clarify the changes in the HBV genotypes and clinical characteristics of AHB patients in this area. HBV genotypes were determined by direct sequencing (n = 125) or enzyme immunoassay (n = 9) using serum samples from AHB patients including fulminant hepatitis in 1987-2014. Among 134 patients, 26 (19%), 33 (25%), and 75 (56%) patients were infected with HBV of genotypes A, B, and C, respectively. HBV/A emerged from 2001 and the percentage was increased gradually up to 48% in 2010-2014, whereas HBV/B was reduced from 40% in 1987-1994 to 10% in 2010-2014. Phylogenetic analysis showed that three major subgenotype A2 strains had come into this area serially. The levels of HBV DNA and prothrombin time were higher in HBV/A patients than other genotypes. This study could not show significant difference in the HBsAg-positive period among genotypes nor the effect of nucleoside analogues to shorten the HBsAg-positive period. A higher level of initial HBV DNA was associated with late disappearance of HBsAg. In conclusion, the percentage of HBV/A in AHB patients has been increasing in northeast Japan since 2001, which is later than metropolitan areas, whereas that of HBV/B is decreasing.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.