A Deep Ravine Rather Than a Shallow Gap: Many More Bridges Needed to Improve Care of Chronic Hepatitis B in the United States.

ABSTRACT: In the United States, improved screening of those who are at highest risk of chronic hepatitis B (CHB) has been a major focus of public health efforts, as has facilitating access to care for those with chronic infection. Despite this, data suggest that less than half of those at risk are tested, and another minority of those who harbor chronic infection receive longitudinal care for the disease. In this study by Tran et al., the authors find that even among those being treated for CHB, a vast minority receive basic testing and screening for staging and complications of CHB.

IQGAP2 is a novel interferon-alpha antiviral effector gene acting non-conventionally through the NF-κB pathway.

BACKGROUND & AIMS: Type I interferons (IFN) provide the first line of defense against invading pathogens but its mechanism of action is still not well understood. Using unbiased genome-wide siRNA screens, we recently identified IQ-motif containing GTPase activating protein 2 (IQGAP2), a tumor suppressor predominantly expressed in the liver, as a novel gene putatively required for IFN antiviral response against hepatitis C virus (HCV) infection. Here we sought to characterize IQGAP2 role in IFN response. METHODS: We used transient small interfering RNA knockdown strategy in hepatic cell lines highly permissive to JFH1 strain of HCV infection. RESULTS: We found that IQGAP2 acts downstream of IFN binding to its receptor, and independently of the JAK-STAT pathway, by physically interacting with RelA (also known as p65), a subunit of the NF-κB transcription factor. Interestingly, our data reveal a mechanism distinct from the well-characterized role of nuclear factor kappa-light-chain-enhancer of activated B cells (NF-κB) in IFN production. Indeed, IFN alone was sufficient to stimulate NF-κB-dependent transcription in the absence of viral infection. Finally, both IQGAP2 and RelA were required for the induction by IFN of a subset of IFN-stimulated genes (ISG) with known antiviral properties. CONCLUSIONS: Our data identify a novel function for IQGAP2 in IFN antiviral response in hepatoma cells. We demonstrate the involvement of IQGAP2 in regulating ISG induction by IFN in an NF-κB-dependent manner. The IQGAP2 pathway may provide new targets for antiviral strategies in the liver, and may have a wider therapeutic implication in other disease pathogeneses driven by NF-κB activation. LAY SUMMARY: In this study, we identify a novel mechanism of action of interferon involving the IQGAP2 protein and the NF-κB pathway that is ultimately protective against hepatitis C virus infection. This newly identified pathway functions independently of the well-known STAT pathway and may therefore provide new targets for antiviral strategies in the liver.

HCV and host lipids: an intimate connection.

The hepatitis C virus (HCV) requires elements of host lipid metabolism for every step in the viral life cycle. Clinically, it has long been observed that patients with chronic hepatitis C have lower nonhigh-density lipoprotein cholesterol, and these levels rise after successful treatment. The HCV itself circulates as a highly lipidated lipoviral particle, which closely resembles very low-density lipoprotein (VLDL). Several required coentry factors for the virus to gain access to the hepatocytes have been described, and several, including SRB1, LDL-R, and the NPC1L1 receptors, are important receptors for lipoprotein and cholesterol uptake. Inside the cell, the virus induces lipogenesis, and specifically induces the master regulator sterol response element binding protein. Viral replication then requires the concerted efforts of viral proteins combined with several host factors involved in cholesterol synthesis. The virus is then packaged alongside the cellular machinery for VLDL production. The complex interplay highlights pathways of hepatic steatosis and unveils drug targets for the treatment of HCV.

The AMPK-related kinase SNARK regulates hepatitis C virus replication and pathogenesis through enhancement of TGF-ß signaling.

BACKGROUND & AIMS: Hepatitis C virus (HCV) is a major cause of chronic liver disease worldwide. The biological and therapeutic importance of host cellular cofactors for viral replication has been recently appreciated. Here we examined the roles of SNF1/AMP kinase-related kinase (SNARK) in HCV replication and pathogenesis. METHODS: The JFH1 infection system and the full-length HCV replicon OR6 cell line were used. Gene expression was knocked down by siRNAs. SNARK mutants were created by site-directed mutagenesis. Intracellular mRNA levels were measured by qRT-PCR. Endogenous and overexpressed proteins were detected by Western blot analysis and immunofluorescence. Transforming growth factor (TGF)-ß signaling was monitored by a luciferase reporter construct. Liver biopsy samples from HCV-infected patients were analyzed for SNARK expression. RESULTS: Knockdown of SNARK impaired viral replication, which was rescued by wild type SNARK but not by unphosphorylated or kinase-deficient mutants. Knockdown and overexpression studies demonstrated that SNARK promoted TGF-ß signaling in a manner dependent on both its phosphorylation and kinase activity. In turn, chronic HCV replication upregulated the expression of SNARK in patients. Further, the SNARK kinase inhibitor metformin suppressed both HCV replication and SNARK-mediated enhancement of TGF-ß signaling. CONCLUSIONS: Thus reciprocal regulation between HCV and SNARK promotes TGF-ß signaling, a major driver of hepatic fibrogenesis. These findings suggest that SNARK will be an attractive target for the design of novel host-directed antiviral and antifibrotic drugs.

Anti-hepatitis C virus drugs in development.

Development of robust cell culture models for hepatitis C viral infection has greatly increased our understanding of this virus and its life cycle. This knowledge has led to the development of many drugs that target specific elements of viral replication, including viral proteins and host factors required for replication. The NS3/4A serine protease inhibitors were the first of these to be used in the clinic, and reagents that target other elements of the viral lifecycle are in advanced stages of clinical development. These include new NS3/4A protease inhibitors, NS5B RNA-dependent RNA polymerase inhibitors, NS5A inhibitors, and host-directed antivirals, such as cyclophilin inhibitors. Alternative interferons with possibly improved tolerability, specifically interferon-λ1 (interleukin-29), are also under development. These new reagents against hepatitis C virus should lead to highly effective, well-tolerated, and likely interferon-sparing therapies in the next several years.

Serum Fibroblast Growth Factor-21 Discriminates Between Decompensated Alcohol-Associated Cirrhosis and Severe Alcohol-Associated Hepatitis.

INTRODUCTION: We hypothesized that fibroblast growth factor-21 (FGF-21) would be highly expressed in patients with alcohol-associated hepatitis (AH) and could be a novel and biologically relevant predictive biomarker to reliably distinguish severe AH and decompensated alcohol-associated cirrhosis (AC). METHODS: We identified a discovery cohort of 88 subjects with alcohol-associated liver disease (ALD) of varying disease severity from our ALD repository. Our validation cohort consisted of 37 patients with a biopsy-proven diagnosis of AH, AC, or absence of ALD with Model for End-Stage Liver Disease scores ≥10. Serum from both groups during index hospitalization was assayed for FGF-21 by ELISA. We performed receiver operating characteristic analysis and prediction modeling in both cohorts to discriminate between AH and AC in high Model for End-Stage Liver Disease (≥20) patients. RESULTS: In both cohorts, FGF-21 concentrations were highest in subjects with moderate to severe AH compared with those having alcohol use disorder or AC (mean: 2,609 pg/mL, P < 0.0001). The discovery cohort area under the curve of FGF-21 between AH and AC was 0.81 (95% confidence interval: 0.65-0.98, P < 0.01). In the validation cohort, FGF-21 levels were higher in severe AH compared with AC (3,052 vs 1,235 pg/mL, P = 0.03), and the area under the curve was 0.76 (95% confidence interval: 0.56-0.96, P < 0.03). A survival analysis showed that patients with FGF-21 serum levels in the second interquartile had the highest survival compared with all other quartiles. DISCUSSION: FGF-21 performs well as a predictive biomarker to distinguish severe AH from AC and may be helpful in the management and clinical investigation of patients with severe alcohol-associated liver diseases.

Autoimmune hepatitis: current challenges in diagnosis and management in a chronic progressive liver disease.

PURPOSE OF REVIEW: The understanding of autoimmune hepatitis (AIH) has evolved in the past two decades since diagnostic criteria were developed. Now with long-term experience with well characterized cohorts, strides have been gained in understanding the true epidemiology and natural history of the disease. Therapeutic trials have also added new tools to the armamentarium in managing this challenging disease. RECENT FINDINGS: AIH has been demonstrated to be a disease of middle-aged women, with a disease course that frequently progresses to cirrhosis, transplant or death. Despite its rare prevalence, AIH is one of the most common indications for transplantation. Diagnosis remains challenging, and the most recently adopted criteria prove very specific but lack sensitivity in the diagnosis of AIH, particularly when presenting atypically. Recently, drug-induced AIH and IgG4-associated AIH have been proposed as distinct clinicopathological entities. Clinical trials for alternate therapeutics have long been needed, and recently two agents, budesonide and mycophenolate mofeteil, show promise in treating AIH. SUMMARY: Increasing evidence has mounted to suggest that AIH is a disease that often requires long-term treatment, and frequently progresses to end-stage liver disease. Further research identifying predictors of poor outcome, optimal therapeutic regimens and duration of treatment is much needed.

Ceestatin, a novel small molecule inhibitor of hepatitis C virus replication, inhibits 3-hydroxy-3-methylglutaryl-coenzyme A synthase.

BACKGROUND: Hepatitis C virus (HCV) chronically infects >170 million persons worldwide and is a leading cause of cirrhosis and hepatocellular carcinoma. The identification of more effective and better-tolerated agents for treating HCV is a high priority. We have reported elsewhere the discovery of the anti-HCV compound ceestatin using a high-throughput screen of a small molecule library. METHODS: To identify host or viral protein targets in an unbiased fashion, we performed affinity chromatography, using tandem liquid chromatography/mass spectrometry to identify specific potential targets. RESULTS. Ceestatin binds to 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) synthase and irreversibly inhibits HMG-CoA synthase in a dose-dependent manner. Ceestatin's anti-HCV effects are reversed by addition of HMG-CoA, mevalonic acid, or geranylgeraniol. Treatment with small interfering RNA against HMG-CoA synthase led to a substantial reduction in HCV replication, further validating HMG-CoA synthase as an enzyme essential for HCV replication. CONCLUSIONS: Ceestatin therefore exerts its anti-HCV effects through inhibition of HMG-CoA synthase. It may prove useful as an antiviral agent, as a probe to study HCV replication, and as a cholesterol-lowering agent. The logical stepwise process employed to discover the mechanism of action of ceestatin can serve as a general experimental strategy to uncover the targets on which novel uncharacterized anti-HCV compounds act.

The impact of human gene polymorphisms on HCV infection and disease outcome.

In recent years, some genome-wide association studies have identified several single nucleotide polymorphisms (SNPs) associated with hepatitis C viral containment, treatment response, and disease progression. IL28B is a gene on chromosome 19, coding for interferon-λ3, and two polymorphisms upstream of this the gene have been strongly associated with clinical outcomes after treatment for the hepatitis C virus (HCV). The IL28B polymorphisms have additionally been associated with spontaneous clearance. The mechanism has yet to be clearly defined, but appears to involve differential responsiveness to interferon signaling between the favorable and unfavorable genotypes. ITPA is a gene on chromosome 20, coding for inosine triphosphatase, and polymorphisms on this gene have been associated with ribavirin-induced hemolytic anemia. Functional variants of ITPA have been identified that have decreased enzymatic activity, which appear to protect against anemia. Finally, PNPLA3 polymorphisms were initially described as predictors of nonalcoholic fatty liver disease, but have recently been associated with disease progression in HCV.

Fatty Acids Activate the Transcriptional Coactivator YAP1 to Promote Liver Fibrosis via p38 Mitogen-Activated Protein Kinase.

BACKGROUND & AIMS: Patients with simple steatosis (SS) and nonalcoholic steatohepatitis can develop progressive liver fibrosis, which is associated with liver-related mortality. The mechanisms contributing to liver fibrosis development in SS, however, are poorly understood. SS is characterized by hepatocellular free fatty acid (FFA) accumulation without lobular inflammation seen in nonalcoholic steatohepatitis. Because the Hippo signaling transcriptional coactivator YAP1 (YAP) has previously been linked with nonalcoholic fatty liver disease (NAFLD)-related fibrosis, we sought to explore how hepatocyte FFAs activate a YAP-mediated profibrogenic program. METHODS: We analyzed RNA sequencing data from a GEO DataSet (accession: GSE162694) consisting of 143 patients with NAFLD. We also performed immunohistochemical, immunofluorescence, immunoblot, and quantitative reverse-transcription polymerase chain reaction analyses (qRT-PCR) in liver specimens from NAFLD subjects, from a murine dietary NAFLD model, and in FFA-treated hepatic spheroids and hepatocytes. RESULTS: YAP-target gene expression correlated with increasing fibrosis stage in NAFLD patients and was associated with fibrosis in mice fed a NAFLD-inducing diet. Hepatocyte-specific YAP deletion in the murine NAFLD model attenuated diet-induced fibrosis, suggesting a causative role of YAP in NAFLD-related fibrosis. Likewise, in hepatic spheroids composed of Huh7 hepatoma cells and primary human hepatic stellate cells, Huh7 YAP silencing reduced FFA-induced fibrogenic gene expression. Notably, inhibition of p38 mitogen-activated protein kinase could block YAP activation in FFA-treated Huh7 cells. CONCLUSIONS: These studies provide further evidence for the pathological role of YAP in NAFLD-associated fibrosis and that YAP activation in NAFLD may be driven by FFA-induced p38 MAPK activation.

Vascular Injury Characterizes Doxycycline-induced Upper Gastrointestinal Tract Mucosal Injury.

Doxycycline is an oral tetracycline antibiotic that has been associated with upper gastrointestinal (GI) mucosal injury. Recently, characteristic vascular degeneration has been reported in the stomach and duodenum in patients with doxycycline-induced injury. Fourteen patients who underwent upper GI endoscopy for nonspecific symptoms and were found to have doxycycline-induced gastric and esophageal injury are described. Most patients showed characteristic vascular injury. A control group of gastric erosions and esophageal ulcers showed no cases with the characteristic vascular changes. Clinical, endoscopic, and pathologic features of doxycycline-induced upper GI tract injury are reviewed, with an emphasis on vascular injury.

Apolipoprotein B100 is required for hepatitis C infectivity and Mipomersen inhibits hepatitis C.

AIM: To characterize the role of apolipoprotein B100 (apoB100) in hepatitis C viral (HCV) infection. METHODS: In this study, we utilize a gene editing tool, transcription activator-like effector nucleases (TALENs), to generate human hepatoma cells with a stable genetic deletion of APOB to assess of apoB in HCV. Using infectious cell culture-competent HCV, viral pseudoparticles, replicon models, and lipidomic analysis we determined the contribution of apoB to each step of the viral lifecycle. We further studied the effect of mipomersen, an FDA-approved antisense inhibitor of apoB100, on HCV using in vitro cell-culture competent HCV and determined its impact on viral infectivity with the TCID50 method. RESULTS: We found that apoB100 is indispensable for HCV infection. Using the JFH-1 fully infectious cell-culture competent virus in Huh 7 hepatoma cells with TALEN-mediated gene deletion of apoB (APOB KO), we found a significant reduction in HCV RNA and protein levels following infection. Pseudoparticle and replicon models demonstrated that apoB did not play a role in HCV entry or replication. However, the virus produced by APOB KO cells had significantly diminished infectivity as measured by the TCID-50 method compared to wild-type virus. Lipidomic analysis demonstrated that these virions have a fundamentally altered lipidome, with complete depletion of cholesterol esters. We further demonstrate that inhibition of apoB using mipomersen, an FDA-approved anti-sense oligonucleotide, results in a potent anti-HCV effect and significantly reduces the infectivity of the virus. CONCLUSION: ApoB is required for the generation of fully infectious HCV virions, and inhibition of apoB with mipomersen blocks HCV. Targeting lipid metabolic pathways to impair viral infectivity represents a novel host targeted strategy to inhibit HCV.

A TALEN genome-editing system for generating human stem cell-based disease models.

Transcription activator-like effector nucleases (TALENs) are a new class of engineered nucleases that are easier to design to cleave at desired sites in a genome than previous types of nucleases. We report here the use of TALENs to rapidly and efficiently generate mutant alleles of 15 genes in cultured somatic cells or human pluripotent stem cells, the latter for which we differentiated both the targeted lines and isogenic control lines into various metabolic cell types. We demonstrate cell-autonomous phenotypes directly linked to disease-dyslipidemia, insulin resistance, hypoglycemia, lipodystrophy, motor-neuron death, and hepatitis C infection. We found little evidence of TALEN off-target effects, but each clonal line nevertheless harbors a significant number of unique mutations. Given the speed and ease with which we were able to derive and characterize these cell lines, we anticipate TALEN-mediated genome editing of human cells becoming a mainstay for the investigation of human biology and disease.