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The human hepatitis B virus (HBV), that is causative for more than 240 million cases of chronic liver inflammation (hepatitis), is an enveloped virus with a partially double-stranded DNA genome. After virion uptake by receptor-mediated endocytosis, the viral nucleocapsid is transported towards the nuclear pore complex. In the nuclear basket, the nucleocapsid disassembles. The viral genome that is covalently linked to the viral polymerase, which harbors a bipartite NLS, is imported into the nucleus. Here, the partially double-stranded DNA genome is converted in a minichromosome-like structure, the covalently closed circular DNA (cccDNA). The DNA virus HBV replicates via a pregenomic RNA (pgRNA)-intermediate that is reverse transcribed into DNA. HBV-infected cells release apart from the infectious viral parrticle two forms of non-infectious subviral particles (spheres and filaments), which are assembled by the surface proteins but lack any capsid and nucleic acid. In addition, naked capsids are released by HBV replicating cells. Infectious viral particles and filaments are released via multivesicular bodies; spheres are secreted by the classic constitutive secretory pathway. The release of naked capsids is still not fully understood, autophagosomal processes are discussed. This review describes intracellular trafficking pathways involved in virus entry, morphogenesis and release of (sub)viral particles.

Hepatitis B virus (HBV) surface proteins (HBsAg) coat the viral particle and form subviral particles (SVPs). Loss of HBsAg represents a functional cure and is an important treatment goal. We analyzed the impact of the HBV genotypes A-E and pre-S mutations on SVP expression in hepatitis B virus e antigen (HBeAg)-negative chronic HBV-infected patients. A HBV genome harboring a preS1-deletion was analyzed in hepatoma cells. We observed a genotype-specific ratio of the 3 surface proteins (SHBs/MHBs/LHBs), reflecting differences in the morphology and composition of SVPs. Deletions/mutations in the preS1/preS2 domain, detected in released viral genomes, did not affect the molecular weight of MHBs and LHBs in these patients. In contrast, LHB molecular weight was altered in vitro using an HBV genome harboring a preS1-deletion derived from one of these patients. Differences in composition of SVPs may result in genotype-specific immunogenicity and pathogenesis. In the patients with preS-mutations, secreted HBsAg and released viral genomes cannot be derived from the same genetic source. As viral genomes are derived from covalently closed circular DNA (cccDNA), HBsAg is presumably derived from integrated DNA. This important HBsAg source should be considered for novel antiviral strategies in HBeAg-negative chronic HBV-infected patients.

The N-terminus of the hepatitis B virus (HBV) large surface protein (LHB) differs with respect to genotypes. Compared to the amino terminus of genotype (Gt)D, in GtA, GtB and GtC, an additional identical 11 amino acids (aa) are found, while GtE and GtG share another similar 10 aa. Variants of GtB and GtC affecting this N-terminal part are associated with hepatoma formation. Deletion of these amino-terminal 11 aa in GtA reduces the amount of LHBs and changes subcellular accumulation (GtA-like pattern) to a dispersed distribution (GtD-like pattern). Vice versa, the fusion of the GtA-derived N-terminal 11 aa to GtD causes a GtA-like phenotype. However, insertion of the corresponding GtE-derived 10 aa to GtD has no effect. Deletion of these 11aa decreases filament size while neither the number of released viral genomes nor virion size and infectivity are affected. A negative regulatory element (aa 2–8) and a dominant positive regulatory element (aa 9–11) affecting the amount of LHBs were identified. The fusion of this motif to eGFP revealed that the effect on protein amount and subcellular distribution is not restricted to LHBs. These data identify a novel region in the N-terminus of LHBs affecting the amount and subcellular distribution of LHBs and identify release-promoting and -inhibiting aa residues within this motive.

Many mutation analyses of the HBV genome have been performed in the search for new prognostic markers. However, the Kozak sequence preceding precore was covered only infrequently in these analyses. In this study, the HBV core promoter/precore region was sequenced in serum samples from European inactive HBV carriers. Quadruple mutation GCAC1809-1812TTCT was found with a high prevalence of 42% in the Kozak sequence preceding precore among all HBV genotypes. GCAC1809-1812TTCT was strongly associated with coexistence of basal core promoter (BCP) double mutation A1762T/G1764A and lower HBV DNA levels. In vitro GCAC1809-1812TTCT lead to drastically diminished synthesis of pregenomic RNA (pgRNA), precore mRNA, core, HBsAg, and HBeAg. Calculation of the pgRNA secondary structure suggests a destabilization of the pgRNA structure by A1762T/G1764A that was compensated by GCAC1809-1812TTCT. In 125 patients with HBV-related cirrhosis, GCAC1809-1812TTCT was not detected. While a strong association of GCAC1809-1812TTCT with inactive carrier status was observed, BCP double mutation was strongly correlated with cirrhosis, but this was only observed in absence of GCAC1809-1812TTCT. In conclusion, our data reveal that GCAC1809-1812TTCT is highly prevalent in inactive carriers and acts as a compensatory mutation for BCP double mutation. GCAC1809-1812TTCT seems to be a biomarker of good prognosis in HBV infection.

Key messageGenetic resources contributes to the sustainable protein production in soybean.Soybean is an important crop for food, oil, and forage and is the main source of edible vegetable oil and vegetable protein. It plays an important role in maintaining balanced dietary nutrients for human health. The soybean protein content is a quantitative trait mainly controlled by gene additive effects and is usually negatively correlated with agronomic traits such as the oil content and yield. The selection of soybean varieties with high protein content and high yield to secure sustainable protein production is one of the difficulties in soybean breeding. The abundant genetic variation of soybean germplasm resources is the basis for overcoming the obstacles in breeding for soybean varieties with high yield and high protein content. Soybean has been cultivated for more than 5000 years and has spread from China to other parts of the world. The rich genetic resources play an important role in promoting the sustainable production of soybean protein worldwide. In this paper, the origin and spread of soybean and the current status of soybean production are reviewed; the genetic characteristics of soybean protein and the distribution of resources are expounded based on phenotypes; the discovery of soybean seed protein-related genes as well as transcriptomic, metabolomic, and proteomic studies in soybean are elaborated; the creation and utilization of high-protein germplasm resources are introduced; and the prospect of high-protein soybean breeding is described.

Prostate cancer (PCa) is an androgen-dependent disease. Androgen receptor (AR) has a crucial role in the development and progression of PCa. Recently, several microRNAs (miRNAs/miRs) involved in AR regulation have been associated with castration-resistant prostate cancer (CRPC), the terminal stage of PCa. Nevertheless, the precise mechanism remains unclear. The present study aimed to identify a novel miR-149 regulatory network and potential therapeutic target for CRPC. It was found that ectopic expression of miR-149 mimic could inhibit AR expression, repress epithelial-mesenchymal transition, induce cell cycle arrest and apoptosis in CRPC cell line C4-2, whereas the miR-149 inhibitor exerted the opposite effects. Furthermore, it was also revealed that miR-149 could reduce the functional activity of the PI3K/Akt1 signaling pathway by targeting Akt1 protein, the key regulatory factor of the PI3K/Akt1 signaling pathway. Knockdown of Akt1 by short hairpin RNA increased apoptosis, reduced proliferation, and restrained migration and invasion in CRPC cells, with the effect of AR inhibition. In conclusion, these results revealed that miR-149 acts as a tumor suppressor in CRPC cell line C4-2 and restrains its progression through the AR signaling pathway by targeting Akt1. The miR-149/Akt1/AR regulatory pathway may represent a novel PCa therapeutic target.

This prospective randomized comparative trial study aimed to evaluate the therapeutic outcomes of radical nephroureterectomy and adjuvant chemotherapy (ACT) used in combination in high risk upper tract urothelial carcinoma (UTUC) patients with cardiovascular comorbidity. Based on the inclusion criteria of high-risk UTUC in EAU guidelines (updated in 2014), all eligible patients treated in our hospital from January 2014 to March 2018 were included, and cases with late disease, renal dysfunction, severe cardiopulmonary disease or other malignant tumors were excluded. The cases were randomized into two groups based on treatment regimen. Multivariate analyses were performed to analyze the influencing factors of survival outcome in the enrolled patients. The Cox proportional-hazards model and the Kaplan–Meier method were employed to assess progression free survival (PFS), overall survival (OS) and cancer specific survival (CSS). In addition, the potential adverse effects of chemotherapy were actively monitored. A total of 176 high-risk UTUC individuals with cardiovascular comorbidity were enrolled and evaluated in this study. Median follow-up durations were 30 months (range 6–54) in the RNU (n = 82) group and 36 months (range 6–54) in the RNU + ACT (n = 94) group. Multivariable analysis indicated that peri-operative cardiovascular events risk grade was independent prognostic factor for OS. Tumor size was independent prognostic factor for PFS and CSS. BMI and lymphovacular invasion were significant predictors of PFS. Clinical stage, lymph node involvement, and tumor grade were significant predictors of PFS, OS and CSS in these patients. Especially, chemotherapy was helpful in improving PFS [ P  < 0.001, HR = 6.327 (5.115–7.793)], OS [ P  = 0.013, HR = 2.336 (1.956–2.883)] and CSS [ P  = 0.008, HR = 3.073 (2.533–3.738)]. Kaplan–Meier analysis demonstrated that the oncologic outcomes of RNU treated high-risk UTUC patients were improved much significantly by ACT, including PFS [ P  = 0.0033, HR = 3.78 (3.13–4.55)], OS [ P  = 0.0397, HR = 1.39 (1.01–1.75)] and CSS [ P  = 0.0255, HR = 1.26 (1.07–1.45)]. Further analysis of the lymph node positive subgroup showed that the median time of oncologic events was enhanced in RNU + ACT treated individuals in comparison with the RNU group, including PFS (11.4 months vs. 31.9 months, P  = 0.0018), OS (26.8 months vs. 36.3 months, P  = 0.0255) and CSS (28.2 months vs. 39.3 months, P  = 0.0197). In the T3/4 cohort, significantly increased median PFS (13.9 months vs. 36.3 months, P  = 0.0217), OS (20.6 months vs. 32.2 months, P  = 0.0183) and CSS (21.9 months vs. 38.4 months, P  = 0.0226) were obtained in the combination group. Additionally, no severe adverse events (over grade 4) associated with chemotherapy were detected in the RNU + ACT group. In conclusion, ACT after radical surgery has statistically significant therapeutic effects on PFS, OS and CSS in high-risk UTUC patients with cardiovascular comorbidity.