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Background/objective:Insulin signals, via the regulation of key enzyme expression, both suppress gluconeogenesis and enhance lipid synthesis in the liver. Animal studies have revealed insulin signaling favoring gluconeogenesis suppression to be selectively impaired in steatotic livers. However, whether, and if so how, such selective insulin resistance occurs in human steatotic livers remains unknown. Our aim was to investigate selective insulin resistance in human livers with non-alcoholic fatty liver disease (NAFLD).Subjects/methods:We examined mRNA expressions of key molecules for insulin signaling, gluconeogenesis and lipogenesis in human liver biopsy samples obtained from 51 non-diabetic subjects: 9 healthy controls and 42 NAFLD patients, and analyzed associations of these molecules with each other and with detailed pathological and clinical biochemistry data.Results:In NAFLD patients, insulin receptor substrate (IRS)-2 expression was decreased, while those of key enzymes for gluconeogenesis were increased. These alterations of IRS-2 and gluconeogenesis enzymes were induced both in simple steatosis (SS) and non-alcoholic steatohepatitis (NASH), while these expression levels did not differ between SS and NASH. Furthermore, alterations in the expressions of IRS-2 and gluconeogenesis enzymes showed strong negative correlations and were concurrently induced in the early histological stage of NAFLD. In contrast, fatty acid synthase (FAS) expression was not decreased in NAFLD, despite IRS-2 downregulation, but correlated strongly with IRS-1 expression. Furthermore, no histological scores were associated with these molecules. Thus, IRS-1 signaling, which is not impaired in NAFLD, appears to modulate FAS expression.Conclusion:These analyses revealed that selective insulin resistance is present in human NAFLD livers and occurs in its early phases. The effect of insulin, during the IRS step, on gene expressions for lipogenesis and gluconeogenesis are apparently distinct and preferential downregulation of IRS-2 may contribute to selective resistance to the suppressive effects of insulin on gluconeogenesis.

BackgroundDecompensated liver cirrhosis patients with refractory ascites or pleural effusion have a poor prognosis. Tolvaptan has been used for treating water retention associated with cirrhosis. However, despite the short-term response, water retention recurrence is still observed in some cases. This study aimed to clarify the water retention recurrence rate and the relationship between long-term response without recurrence and prognosis.MethodsAltogether, 100 patients with decompensated cirrhosis treated with tolvaptan were retrospectively analyzed. Recurrence was evaluated according to the criteria of the EASL clinical practice guideline. The recurrence rate and prognosis of non-responders, patients with recurrence, and long-term responders were analyzed. The baseline factors related to short-term response, recurrence, and long-term response were also evaluated.ResultsApproximately 31.0% of the short-term responders had recurrence. Although there was no significant difference in the prognosis by short-term response (p = 0.07), the long-term responders had a significantly better prognosis than those with recurrence and non-responders (p < 0.01). Low CRP levels and high urinary Na/K ratios were significant factors related to short-term response, and the presence of acute kidney injury was also a factor related to non-response. The low CRP level (relapse: < 1.10 mg/dl, long-term response: < 0.94 mg/dl) was identified as a factor related to recurrence and long-term response.ConclusionThe long-term responders without recurrence had a significantly better prognosis. CRP was a useful predictor for long-term response, whereas renal function parameters were useful predictors for short-term response. Inflammation control may be important for long-term response and prognosis in cirrhosis patients with water retention.

For long-term treatment of hepatitis B virus (HBV) infection, switching from tenofovir-disoproxil-fumarate (TDF) to tenofovir-alafenamide (TAF) may prevent renal dysfunction and bone loss. However, the precise effects of this switch on the blood lipid profile remain to be clarified. This is an important issue as TDF is known to have effects on both low- and high-density lipids. Therefore, our retrospective multi-center study aimed to evaluate the effects of switching from TDF to TAF on the lipid profile of patients with HBV infection. Samples were obtained prior to the switch from TDF to TAF and at 6–12 months after TAF initiation. In some cases, additional samples obtained pre- and post-TDF administration were available for analysis. Serum cholesterol levels, including oxidized-low-density lipoprotein (LDL) and non-high-density lipoprotein-cholesterol (HDL-c), and the rate of dyslipidemia, according to the NCEP-ATP III lipid risk classification, were analyzed. The data from 69 patients were analyzed, including 33 patients with pre- and post-TDF-initiation serum samples. Total cholesterol (T-chol), HDL-c, LDL-c, non-HDL-c, and oxidized LDL levels increased significantly after switching to TAF. With regard to sequential changes pre- to post-TAF, TDF was associated with significantly lower serum T-chol, HDL-c, and oxidized LDL-c levels, with T-chol, HDL-c, LDL-c, and oxidized LDL-c levels increasing significantly after the switch. The switch from TDF to TAF was also associated with an increase in the rate of dyslipidemia, from 33% to 39%, with an increase in the rate of severe dyslipidemia of 1.4% and 5.8%, based on T-chol and LDL-c levels. Of note, no cases of severe dyslipidemia were detected pre-TAF treatment. As oxidized LDL-c and non-HDL-c are strongly associated with atherosclerosis development, careful monitoring of lipid is needed after switching from TDF to TAF in this clinical population.

We previously revealed that Angiopoietin-2 (Ang2) predicts non-regression of liver fibrosis based on liver stiffness measurement (LSM) at 24 weeks after anti-hepatitis C virus (HCV) treatment. In this study, we extended the observational period to 96 weeks to investigate the factors associated with non-regression after treatment with direct-acting-antivirals (DAAs). Patients treated with DAAs who underwent transient elastography at baseline and 24 and 96 weeks after DAA therapy were included. Baseline and post-treatment serum Ang2 levels were measured. Liver fibrosis stages were defined based on LSM. Multivariate regression was used to evaluate factors associated with non-regression of liver fibrosis between various time points. In total, 110 patients were included. Of these, 11% showed non-regression of LSM-based fibrosis stage at 96 weeks after DAA therapy. In multivariate analysis, advanced liver fibrosis stage and high baseline Ang2 levels were significantly associated with non-regression at 96 weeks. In patients with advanced liver fibrosis (F3/4), baseline Ang2 levels were associated with non-regression of liver fibrosis stage. Between SVR24 and SVR96, post-treatment Ang2 levels and controlled attenuation parameter values at SVR24 were significantly associated with non-regression of liver fibrosis stage in patients with F3/4. Thus, serum Ang2 levels are an important target for monitoring and therapy.

BackgroundEntecavir and tenofovir–disoproxil–fumarate are first-line nucleos(t)ide analogs (NA) for treatment of hepatitis B virus (HBV) infections; however, their long-term administration can impact extrahepatic organs. Herein, we sought to examine the effect of NA on lipid metabolism while also characterizing the associated mechanism.MethodsA retrospective study was performed on HBV patients administered entecavir or tenofovir–disoproxil–fumarate. Patient clinical information, as well as their preserved serum samples obtained at baseline and 6–12 months after treatment initiation, were analyzed. A 1:1 propensity score matching was applied to the assignment of tenofovir–disoproxil–fumarate or entecavir treatment. Changes in serum cholesterol, including oxidized-LDL, were analyzed. Subsequently, in vitro analysis elucidated the mechanism associated with the effect of NAs on lipid metabolism.ResultsAdministration of tenofovir–disoproxil–fumarate, not entecavir, to chronic HBV patients, decreased serum cholesterol levels, including non-HDL and oxidized-LDL, which are strongly associated with arteriosclerosis. In vitro analysis revealed that tenofovir–disoproxil–fumarate reduced supernatant cholesterol, and upregulated the scavenger receptor, CD36, in hepatocytes. Meanwhile, silencing of hepatic CD36 increased supernatant cholesterol and negated the cholesterol-reducing effect of tenofovir–disoproxil–fumarate in HepG2-cells. Reporter, microarray, and RT-PCR analyses further revealed that tenofovir–disoproxil–fumarate treatment activates PPAR-α-mediated signaling, and upregulates PPAR-α target genes, including CPT1 and CD36. Alternatively, silencing of PPAR-α reversed the effects of tenofovir–disoproxil–fumarate on CD36.ConclusionsTenofovir–disoproxil–fumarate modulates lipid metabolism by upregulating hepatic CD36 via PPAR-α activation. Since dyslipidemia could be associated with arteriosclerosis and hepatocarcinogenesis, these discoveries provide novel insights into anti-HBV therapies, as well as the associated extrahepatic effects of NA.

We comprehensively analyzed how hepatitis C virus (HCV) eradication by interferon (IFN)-free direct-acting-antiviral-agents (DAAs) affects liver steatosis and atherogenic risk. Patients treated with IFN-free-DAAs who underwent transient elastography before and at 24-weeks post-treatment, including controlled attenuation parameter (CAP), and achieved sustained viral response (SVR) were enrolled. The association between changes in liver steatosis, lipid-metabolism, and genetic and clinical factors was analyzed. A total of 117 patients were included. The mean CAP and low-density lipoprotein cholesterol (LDL-C) levels were significantly elevated at SVR24. However, baseline LDL-C and CAP values were significantly negatively correlated with changes in these values after HCV eradication, indicating that in patients with high baseline values, the values generally decreased after HCV eradication. Mean small-dense LDL-C (sdLDL-C), which has greater atherogenic potential, was significantly elevated only in patients with both dyslipidemia (LDL-C >140 mg/dL) and liver steatosis (CAP >248 dB/m) at SVR24. Those patients had significant higher baseline BMI, LDL-C, and total-cholesterol levels. Generally, successful HCV eradication by IFN-free-DAAs decreases CAP and LDL-C in patients with high baseline values. However, elevated LDL-C was accompanied with elevated sdLDL-C only in patients with liver steatosis and dyslipidemia at SVR24; therefore, those patients may require closer monitoring.

Accumulating evidence suggests that cancer stem cells (CSC) play an important role in tumorigenicity. Epithelial cell adhesion molecule (EpCAM) is one of the markers that identifies tumor cells with high tumorigenicity. The expression of EpCAM in liver progenitor cells prompted us to investigate whether CSC could be identified in hepatocellular carcinoma (HCC) cell lines. The sorted EpCAM+ subpopulation from HCC cell lines showed a greater colony formation rate than the sorted EpCAM− subpopulation from the same cell lines, although cell proliferation was comparable between the two subpopulations. The in vivo evaluation of tumorigenicity, using supra‐immunodeficient NOD/scid/γcnull (NOG) mice, revealed that a smaller number of EpCAM+ cells (minimum 100) than EpCAM− cells was necessary for tumor formation. The bifurcated differentiation of EpCAM+ cell clones into both EpCAM+ and EpCAM− cells was obvious both in vitro and in vivo, but EpCAM− clones sustained their phenotype. These clonal analyses suggested that EpCAM+ cells may contain a multipotent cell population. Interestingly, the introduction of exogenous EpCAM into EpCAM+ clones, but not into EpCAM− clones, markedly enhanced their tumor‐forming ability, even though both transfectants expressed a similar level of EpCAM. Therefore, the difference in the tumor‐forming ability between EpCAM+ and EpCAM− cells is probably due to the intrinsic biological differences between them. Collectively, our results suggest that the EpCAM+ population is biologically quite different from the EpCAM− population in HCC cell lines, and preferentially contains a highly tumorigenic cell population with the characteristics of CSC. (Cancer Sci 2010)

We aimed to evaluate factors associated with changes in skeletal muscle mass in hepatitis C virus (HCV)-infected patients after treatment with direct-acting antivirals (DAAs). Consecutive HCV-infected patients after treatment with DAA were recruited into the study. Patients who achieved sustained virological response (SVR); and had complete clinical information, preserved serum samples at baseline and SVR48, and skeletal muscle mass evaluations based on the psoas muscle mass index (PMI) on computed tomography at baseline and ≥ 12 months were included. Altogether, 70.7% of patients (41/58) showed increased PMI after DAA therapy, and mean relative PMI was significantly higher after DAA therapy than at baseline. There were no significant associations between baseline clinical factors routinely examined in clinical practice and increased PMI. Among factors reported to be associated with skeletal muscle loss in patients with chronic liver disease, serum zinc levels and total and free carnitine levels increased significantly after DAA therapy and only changes in serum free carnitine levels were significantly associated with an increased PMI ( r  = 0305, P  = 0.020). In conclusion, increased skeletal muscle mass after successful HCV eradication by DAAs was significantly associated with increased serum-free carnitine levels. l -carnitine supplementation may be beneficial in patients with low skeletal muscle mass after DAA.

Simplified (“minimal monitoring”) pathways can expand access to direct-acting antivirals (DAAs) by reducing visit burden. In Japan, where hepatitis C virus (HCV) patients are among the oldest worldwide, whether DAA regimens can be delivered safely and effectively with fewer visits remains unclear, and real-world outcomes with sofosbuvir/velpatasvir are scarce. We evaluated effectiveness, safety, and visit frequency in a multicenter cohort. Sixty patients with HCV-infection, with or without compensated liver cirrhosis, received 12 weeks of sofosbuvir/velpatasvir with follow-up to sustained virologic response at 12 weeks post-treatment (SVR12). The visit number was set with no schedule and analyzed post hoc (≤ 3 vs. ≥4 visits). There were 1–8 outpatient visits (median 3). SVR12 was 96.7% by intention-to-treat (ITT; 58/60; 95% CI, 88.6–99.6) and 100% per protocol (57/57; 95% CI, 90.0–100.0). Cure rates were comparable (ITT 95.8–97.2% for ≤ 3 vs. ≥4 visits; p  = 1.00; PP 100% in both). Sofosbuvir/velpatasvir was well-tolerated: adverse events were recorded in 10%, none grade ≥ 3, no treatment-related serious events, and no toxicity-related discontinuations. Two patients were lost to follow-up; one who discontinued treatment achieved SVR12. This is the first Japanese real-world evaluation of DAA under simplified monitoring and supports low-burden pathways with high efficacy and safety.

A deteriorated liver functional reserve during systemic therapy for unresectable hepatocellular carcinoma (HCC) causes poor patient outcomes. We aimed to identify predictive factors associated with the deterioration of Child-Pugh score at 8 weeks after lenvatinib initiation. Patients with adequate clinical data and baseline preserved serum samples available were included. Baseline fibroblast growth factor (FGF)19 and 21, angiopoietin (ANG)2, and vascular endothelial growth factor (VEGF) levels were evaluated. Thirty-seven patients were included, and 6, 15, 14, and 2 experienced complete response, partial response, stable disease, and progressive disease, respectively. Twenty-four (65%) and 13 (35%) patients showed a maintained/improved and deteriorated Child-Pugh-score, respectively. While baseline clinical data, treatment response, and laboratory data were similar between these two patient groups, baseline ANG2 and VEGF levels were significantly higher ( P = 0.0017) and lower ( P = 0.0231), respectively, in patients with deteriorated Child-Pugh score than in those without. Based on receiver operating characteristic curve analysis, cut-off values for ANG2 and VEGF were found to be 3,108 pg/mL and 514.9 pg/mL, respectively. Among patients with low VEGF and high ANG2, 89% (8/9) exhibited a deteriorated Child-Pugh score, whereas none of the patients (0/9) with high VEGF and low ANG2 did. The deterioration of the Child-Pugh score in patients with unresectable HCC who are treated with lenvatinib may be predictable based on combined baseline serum ANG2 and VEGF levels.