Mechanisms of human hepatocarcinogenesis

The major risk factors and etiological agents responsible for development of hepatocellular carcinoma in humans have been identified and characterized. Among these are chronic infection with hepatitis B virus or hepatitis C virus, exposure to aflatoxin B1, and cirrhosis of any etiology (including alcoholic cirrhosis and cirrhosis associated with genetic liver diseases). Both chronic hepatitis and cirrhosis represent major preneoplastic conditions of the liver as the majority of hepatocellular carcinomas arise in these pathological settings. Hepatocarcinogenesis represents a linear and progressive process in which successively more aberrant monoclonal populations of hepatocytes evolve. Regenerative hepatocytes in focal lesions in the inflamed liver (chronic hepatitis or cirrhosis) give rise to hyperplastic hepatocyte nodules, and these progress to dysplastic nodules, which are thought to be the direct precursor of hepatocellular carcinoma. In most cases, the neoplastic transformation of hepatocytes results from accumulation of genetic damage during the repetitive cellular proliferation that occurs in the injured liver in response to paracrine growth factor and cytokine stimulation. Hepatocellular carcinomas exhibit numerous genetic abnormalities (including chromosomal deletions, rearrangements, aneuploidy, gene amplifications, and mutations), as well as epigenetic alterations (including modulation of DNA methylation). These genetic and epigenetic alterations combine to activate positive mediators of cellular proliferation (including cellular proto-oncogenes and their mitogenic signaling pathways) and inactivate negative mediators of cellular proliferation (including tumor suppressor genes), resulting in cells with autonomous growth potential. However, hepatocellular carcinomas exhibit a high degree of genetic heterogeneity, suggesting that multiple molecular pathways may be involved in the genesis of subsets of hepatocellular neoplasms. Continued investigation of the mechanisms of hepatocarcinogenesis will refine our current understanding of the molecular and cellular basis for neoplastic transformation in liver, enabling the development of effective strategies for prevention and/or more effective treatment of hepatocellular carcinoma.     

Human livers with cirrhosis and hepatocellular carcinoma have less mitochondrial DNA deletion than normal human livers.

We measured the populations of mutated mitochondrial DNAs with the 7,436 bp or the 4,977 bp deletion from apparently normal human liver and human livers with chronic hepatitis, cirrhosis, and hepatocellular carcinoma. The amount of the mutated mitochondrial DNA was at the same level between normal and chronically hepatitic livers but was significantly lower in human livers with cirrhosis and hepatocellular carcinoma, especially the latter, suggesting that the mutated mitochondrial DNAs may be decreased with the progress of liver disease from chronic hepatitis to cirrhosis and hepatocellular carcinoma. This phenomenon is opposite to that occuring in the ageing process.     

Urinary metabolic biomarkers of hepatocellular carcinoma in an Egyptian population: a validation study

The advent of metabonomics has seen a proliferation of biofluid profiling studies of patients with hepatocellular carcinoma. The majority of these studies have been conducted in single indigenous populations making the widespread applicability of candidate metabolite biomarkers difficult. Presented here is a urinary proton nuclear magnetic resonance spectroscopy study of mainly hepatitis C virus infected Egyptian patients with hepatocellular carcinoma, which corroborates findings of a previous study from our group of mainly hepatitis B-infected Nigerian patients with hepatocellular carcinoma. Using multivariate statistical analysis, in the form of orthogonal signal-corrected partial least squared discriminant analysis, the sensitivity and specificity of the technique for distinguishing patients with tumors from healthy controls and patients with cirrhosis was 100%/94% and 81%/71%, respectively. Discriminatory metabolites included glycine, trimethylamine-N-oxide, hippurate, citrate, creatinine, creatine, and carnitine. This metabolic profile bears similarity to profiles identified in the Nigerian cohort of subjects indicative of tumor effects on physiology, energy production, and aberrant chromosomal methylation. This is the first study to identify similarly altered urine metabolic profiles of hepatocellular carcinoma in two etiologically and ethnically distinct populations, suggesting that altered metabolism as a result of tumorogenesis is independent of these two factors.     

Global Metabolomic Profiling of Mice Brains following Experimental Infection with the Cyst-Forming Toxoplasma gondii

The interplay between the Apicomplexan parasite Toxoplasma gondii and its host has been largely studied. However, molecular changes at the metabolic level in the host central nervous system and pathogenesis-associated metabolites during brain infection are largely unexplored. We used a global metabolomics strategy to identify differentially regulated metabolites and affected metabolic pathways in BALB/c mice during infection with T. gondii Pru strain at 7, 14 and 21 days post-infection (DPI). The non-targeted Liquid Chromatography-Mass Spectrometry (LC-MS) metabolomics analysis detected approximately 2,755 retention time-exact mass pairs, of which more than 60 had significantly differential profiles at different stages of infection. These include amino acids, organic acids, carbohydrates, fatty acids, and vitamins. The biological significance of these metabolites is discussed. Principal Component Analysis and Orthogonal Partial Least Square-Discriminant Analysis showed the metabolites’ profile to change over time with the most significant changes occurring at 14 DPI. Correlated metabolic pathway imbalances were observed in carbohydrate metabolism, lipid metabolism, energetic metabolism and fatty acid oxidation. Eight metabolites correlated with the physical recovery from infection-caused illness were identified. These findings indicate that global metabolomics adopted in this study is a sensitive approach for detecting metabolic alterations in T. gondii-infected mice and generated a comparative metabolic profile of brain tissue distinguishing infected from non-infected host.     

Proteomic analysis of liver tissue from HBx‐transgenic mice at early stages of hepatocarcinogenesis

The hepatitis B virus X‐protein (HBx), a multifunctional viral regulator, participates in the viral life cycle and in the development of hepatocellular carcinoma (HCC). We previously reported a high incidence of HCC in transgenic mice expressing HBx. In this study, proteomic analysis was performed to identify proteins that may be involved in hepatocarcinogenesis and/or that could be utilized as early detection biomarkers for HCC. Proteins from the liver tissue of HBx‐transgenic mice at early stages of carcinogenesis (dysplasia and hepatocellular adenoma) were separated by 2‐DE, and quantitative changes were analyzed. A total of 22 spots displaying significant quantitative changes were identified using LC‐MS/MS. In particular, several proteins involved in glucose and fatty acid metabolism, such as mitochondrial 3‐ketoacyl‐CoA thiolase, intestinal fatty acid‐binding protein 2 and cytoplasmic malate dehydrogenase, were differentially expressed, implying that significant metabolic alterations occurred during the early stages of hepatocarcinogenesis. The results of this proteomic analysis provide insights into the mechanism of HBx‐mediated hepatocarcinogenesis. Additionally, this study identifies possible therapeutic targets for HCC diagnosis and novel drug development for treatment of the disease.     

New insights in the pathogenesis of non-alcoholic fatty liver disease

PURPOSE OF REVIEW: The hallmark of non-alcoholic fatty liver disease is hepatic steatosis. This is mostly a benign condition, but for largely unknown reasons it progresses to liver fibrosis, cirrhosis, and ultimately hepatocellular carcinoma in about 10% of patients. In this review we discuss recent progress in the understanding of the etiology of non-alcoholic fatty liver disease. RECENT FINDINGS: In the last few years many connections between carbohydrate and triglyceride homeostasis, as well as inflammation, have surfaced. These seemingly unrelated metabolic pathways are linked by the action of diverse nuclear receptors. Many intermediates in lipid metabolism were shown to be activating ligands of these receptors, explaining the dysregulation of intermediary metabolism and induction of insulin resistance by a lipid overload. In addition to invoking a derangement in nuclear receptor regulation, excessive hepatic lipid influx may have direct metabolic consequences, particularly on mitochondrial function. SUMMARY: Non-alcoholic fatty liver disease is a multifactorial disease. Many aspects of the disease and the links to inflammation can be understood when the multiple functions of the regulating nuclear receptors are taken into account. Many of these nuclear receptors seem attractive targets to develop therapy for non-alcoholic fatty liver disease and the closely related metabolic syndrome.     

肝细胞癌及相关病变的计算机图像定量分析

为研究肝炎、肝硬变与肝细胞癌的关系,利用自动图像分析仪对６４例肝炎、肝硬变、癌旁肝硬变、肝细胞癌和正常肝组织进行了十三项参数的形态定量研究。结果：大多数参数随病变的发展而呈规律性变化,癌旁肝硬变的多数参数介于不伴肝癌的肝硬变与肝细胞癌之间。提示：（１）慢活肝、肝硬变与肝细胞癌密切相关;（２）癌旁肝硬变不同于不伴肝癌的肝硬变,与肝细胞癌的关系更密切。利用逐步判别分析选择出六项参数建立判别函数方程,回代正确率为９８．２％。     

慢性病毒性肝炎研究进展

近年,慢性病毒性肝炎研究领域有较大进展,慢性乙型肝炎病毒（HBV）感染,虽然有了应用广泛、历史较久、且效果较好的疫苗,但迄今仍是世界范围肝硬化和肝癌的主要诱因。传染途径可经产道、性接触和非肠道途径（包括静脉吸毒、血制品等）。成年病人有少有变慢性,但一岁以下患儿90％变成慢性肝炎。慢性肝损伤的临床表现可以是轻微的炎症重到晚期肝硬化,程度不等。α干扰素（IFNα）是治疗活动性肝炎的产宰药物,单核苷酸类药物（lamivudine和adefovir）也具有同样的疗效。晚期肝病和肝癌患者可进行移植,但异常伴发移植物的感染。乙型肝炎免疫球蛋白和新型抗病毒药物联合应用,可降低移植物感染的严重性。丙型肝炎病毒（HCV）在20世纪后期感染了大约1％的世界人口。这中RNA病毒非经口传播,绝大多数病人变成慢性肝炎,约20％逐渐演变成肝硬化或肝癌。用IFNα和病毒唑（Ribavirin）联合治疗,约40％病人的病理表现有所改善。肝移植对某些病例是适宜的,但移植物感染仍是悬而未决的问题,新发现的庚型肝炎病毒（HGV）和TT病毒目前认为并不引起严重的肝损害。     

Selenium, iron, copper, and zinc levels and copper-to-zinc ratios in serum of patients at different stages of viral hepatic diseases

Viral hepatic diseases, especially those induced by the hepatitis B virus, can progress into more serious pathological outcomes and eventually to hepatocellular carcinoma. A growing body of evidence indicates that many trace elements play important roles in a number of carcinogenic processes that proceed through various mechanisms. To examine the status of trace elements during the development of hepatic carcinoma, we determined the selenium, iron, copper, and zinc levels and copper-to-zinc ratios in the serum of patients at different stages of viral hepatic disease. We observed significant changes in the selenium, iron copper, and zinc levels in the serum of patients having hepatocellular carcinoma, relative to those of healthy controls (p<0.05). The mean serum copper level in patients with hepatocellular carcinoma was significantly higher than that of the control group. In contrast, the mean selenium, iron, and zinc levels in patients having hepatocellular carcinoma were significantly lower than those of the control group. In addition, the mean zinc level in the serum of patients with hepatic cirrhosis was significantly lower than that of the control group (p<0.05). Moreover, we found markedly elevated Cu: Zn ratios (p<0.05) in patients having hepatic cirrhosis or hepatocellular carcinoma. Our findings imply that the levels of some trace elements, such as selenium, iron, copper, and zinc, and Cu:Zn ratios, might serve as biomarkers for the increased severity of viral hepatic damage.     

Serum cytokine levels as putative prognostic markers in the progression of chronic HCV hepatitis to cirrhosis

Hepatitis C virus (HCV) infection can present as an acute manifestation, and can lead to severe complications such as chronic hepatitis, cirrhosis, and hepatocellular carcinoma (HCC). It represents a global health problem because there is no vaccine currently available. Cytokines play an important role in viral clearance, infection control, inflammation, regeneration and fibrosis, and also are implicated in the pathological processes occurring in the liver during viral infection. Immunological markers of chronic HCV hepatitis progression as compared to cirrhosis and HCC would be extremely useful, particularly for distinguishing between the molecules produced during HCV-induced chronic inflammation and those secreted during cirrhosis and HCC. In this work, we evaluated the serum levels of several cytokines, chemokines and growth factors in 30 patients affected by chronic HCV (HC), 30 patients affected by HCV-related cirrhosis (LC) and 20 healthy, control subjects. We used a multiplex biometric ELISA-based immunoassay in order to identify molecules that might be useful for monitoring the progression of HCV to liver cirrhosis and, possibly, to cancer. Our results show that some pro-inflammatory molecules are significantly up-regulated, and play a role as immunological markers in the intermediate steps towards liver cancer, and that hepatocyte growth factor (HGF) is a specific marker of liver cirrhosis. Finally, these data will be used to define a cytokinome profile, which might prove useful for studies involving the transition of chronic inflammation to neoplastic processes.     

Antituberculosis drug-induced hepatitis: risk factors, prevention and management

Apart from infectious or viral hepatitis, other most common non-infectious causes of hepatitis are alcohol, cholestatic, drugs and toxic materials. The most common mode that leads to liver injuries is antituberculosis drug-induced hepatitis. The severity of drug-induced liver injury varies from minor nonspecific changes in hepatic structure to fulminant hepatic failure, cirrhosis and liver cancer. Patients receiving antitubercular drug frequently develop acute or chronic hepatitis. The time required for the metabolites to reach hepatotoxic levels is much earlier with isoniazid plus rifampicin treatment than isoniazid alone and this has been shown to be synergistic rather than additive. Antituberculosis drug (ATT)-inducible cytochrome P-4502E1 (CYP2E1) is constitutively expressed in the liver. Recent studies show that polymorphism of the N-acetyltransferase 2 (NAT2) genes and glutathione-S-transferase (GST) are the major susceptibility risk factors for ATT-induced hepatitis. The hepatic NAT and GST are involved in the metabolism of several carcinogenic arylamines and drugs. The NAT2 enzyme has a genetic polymorphism in human. N-acetyltransferase 2 genes (NAT2) have been identified to be responsible for genetic polymorphism of slow and rapid acetylation in humans. Slow acetylators of NAT2 prove to develop more severe hepatotoxicity than rapid acetylators making it a significant risk factor. Deficiency of GST activity, because of homozygous null mutations at GSTM1 and GSTT1 loci, may modulate susceptibility to drug and xenobiotic-induced hepatotoxicity. Polymorphisms at GSTM1, GSTT1 and NAT2 loci had been linked to various forms of liver injury, including hepatocellular carcinoma.     

The cell biology of hepatitis C virus (HCV) lipid addiction: Molecular mechanisms and its potential importance in the clinic

Hepatitis C virus (HCV) is a major cause of chronic hepatitis associated with liver steatosis, commonly evolving to cirrhosis or hepatocellular carcinoma. The World Health Organisation (WHO) estimates that there are around 170 million chronic HCV carriers worldwide. The virus has a highly variable sequence, allowing definition of seven genotypes with different geographical distributions. Both clinical outcome and response to antiviral therapy are strongly influenced by HCV genotype. Importantly, several recent papers have suggested that the lipid profile of infected patients is strongly indicative of the various clinical outcomes of HCV infection. Furthermore, viral molecular and cellular studies have shown a tight link between cellular lipid metabolism and almost every step of the HCV infectious cycle. In the present review we summarise the current knowledge establishing the interplay between the molecular features of HCV replication, the cellular lipid biology and the lipid profiles observed in the serum of infected patients.     

Comparison of pathways associated with hepatitis B- and C-infected hepatocellular carcinoma using pathway-based class discrimination method

Molecular signatures causing hepatocellular carcinoma (HCC) from chronic infection of hepatitis B virus (HBV) or hepatitis C virus (HCV) are not clearly known. Using microarray datasets composed of HCV-positive HCC or HBV-positive HCC, pathways that could discriminate tumor tissue from adjacent non-tumor liver tissue were selected by implementing nearest shrunken centroid algorithm. Cancer-related signaling pathways and lipid metabolism-related pathways were predominantly enriched in HCV-positive HCC, whereas functionally diverse pathways including immune-related pathways, cell cycle pathways, and RNA metabolism pathways were mainly enriched in HBV-positive HCC. In addition to differentially involved pathways, signaling pathways such as TGF-β, MAPK, and p53 pathways were commonly significant in both HCCs, suggesting the presence of common hepatocarcinogenesis process. The pathway clustering also verified segregation of pathways into the functional subgroups in both HCCs. This study indicates the functional distinction and similarity on the pathways implicated in the development of HCV- and/or HBV-positive HCC.     

Risk factors and mechanisms of hepatocarcinogenesis with special emphasis on alcohol and oxidative stress

Hepatocellular cancer is the fifth most frequent cancer in men and the eighth in women worldwide. Established risk factors are chronic hepatitis B and C infection, chronic heavy alcohol consumption, obesity and type 2 diabetes, tobacco use, use of oral contraceptives, and aflatoxin-contaminated food. Almost 90% of all hepatocellular carcinomas develop in cirrhotic livers. In Western countries, attributable risks are highest for cirrhosis due to chronic alcohol abuse and viral hepatitis B and C infection. Among those with alcoholic cirrhosis, the annual incidence of hepatocellular cancer is 1-2%. An important mechanism implicated in alcohol-related hepatocarcinogenesis is oxidative stress from alcohol metabolism, inflammation, and increased iron storage. Ethanol-induced cytochrome P-450 2E1 produces various reactive oxygen species, leading to the formation of lipid peroxides such as 4-hydroxy-nonenal. Furthermore, alcohol impairs the antioxidant defense system, resulting in mitochondrial damage and apoptosis. Chronic alcohol exposure elicits hepatocyte hyperregeneration due to the activation of survival factors and interference with retinoid metabolism. Direct DNA damage results from acetaldehyde, which can bind to DNA, inhibit DNA repair systems, and lead to the formation of carcinogenic exocyclic DNA etheno adducts. Finally, chronic alcohol abuse interferes with methyl group transfer and may thereby alter gene expression.     

Chemokines in hepatitis C virus infection: pathogenesis, prognosis and therapeutics

Hepatitis C virus infection and its associated liver inflammatory disease is a major global health problem affecting over 170 million people worldwide. Following viral infection, multiple pro-inflammatory mediators contribute to recruitment of immune cells to the liver and to the generation of an anti-viral immune response. However, when this vigorous immune response fails to eliminate the virus, chronic infection is established. This in turn, results in an ongoing process of inflammation, regeneration and fibrosis that in many cases leads to the development of cirrhosis and of hepatocellular carcinoma. Multiple recent publications mark chemokines and their receptors as key players in leukocyte recirculation through the inflamed liver. Furthermore, chemokines may also be involved in liver regeneration, fibrosis, and in malignant transformation, which is induced by the persistence of inflammation. Accumulating data indicates that distinct chemokines and chemokine receptors may be associated with different stages of the chronic hepatitis C virus infection-associated liver disease. Multiple small molecules and peptide antagonizing chemokines and their receptors are in advanced phase 3 and phase 2 clinical trials. In the near future, such drugs are expected to enter clinical use raising the question whether they may be applicable for the treatment of chronic viral infection-associated liver disease. In this review, recent advances in understanding the role of chemokines and their receptors in the pathogenesis of chronic viral infection-associated liver disease are presented. Furthermore, the clinical implications of these novel findings, which mark chemokines as prognostic markers and therapeutic targets for immune-modulation during chronic liver viral infection, are documented.     

病毒性肝病抗病毒治疗期间新发肝癌7例临床分析

目的:探讨病毒性肝炎肝硬化患者经抗病毒治疗仍发生原发性肝癌的原因。方法:回顾性分析兰州大学第一医院东岗院区肝病中心在2012年10月-2013年6月收治的7例病毒性肝炎肝硬化患者在规范抗病毒治疗期间新发原发性肝癌的临床资料、抗病毒治疗情况。结果:7例患者中有HBV感染6例,HCV感染1例;慢性肝炎2例,肝硬化5例;HBeAg阴性5例;3例合并糖尿病;经抗病毒治疗后病毒载量均处于低度复制或不可测状态。结论:病毒性肝炎肝硬化患者经抗病毒治疗不能完全消除原发性肝癌发生的风险,病毒载量、HBeAg阴性、糖尿病、肝硬化等可能是肝癌发生的危险因素。     

Dynamic metabolic transformation in tumor invasion and metastasis in mice with LM-8 osteosarcoma cell transplantation

While extensive evidence indicates that tumor cells shift their global metabolic programs, the molecular details of the metabolic transformation in tumor invasion, progression, and metastasis remain largely unknown. Characterization of the time-dependent metabolic shift during the tumor invasion, development, and metastasis will describe an important aspect of tumor phenotypes and potentially allow us to design therapies that inhibit tumor cell movement. In this study, a metabonomic study was performed to characterize the global metabolic changes during the process of tumor invasion and metastasis to lung in a mouse model with subcutaneous transplantation of murine osteosarcoma cell line (LM8). The serum metabolic profiling revealed that many key metabolites in glycolysis and tricarboxylic acid (TCA) cycle, as well as most of the amino acids were elevated at rapidly growing stage of tumor, presumably resulting from a high energy demand and turnover of anabolic metabolism during the tumor cell proliferation. Serum levels of succinic acid and proline significantly increased (with fold change FC = 10.75 and 4.43, relative to controls) among all the metabolites in the third week. The serum metabolic profile of lung metastasis at week 4 was different from that at week 3, in that most of previously increased serum metabolites were found decreased, except for cholesterol and several free fatty acids, suggesting lowered carbohydrate and amino acids metabolism, but an elevated lipid metabolism associated with tumor metastasis.