Serum and urine malondialdehyde levels in NIDDM patients with and without hyperlipidemia

Malondialdehyde (MDA), a marker of lipid peroxidation, was measured as thiobarbituric acid reactive substance (TBARS) in 78 noninsulin-dependent diabetic patients, 38 hyperlipidemic patients, and 28 healthy subjects. Diabetic patients were divided into groups and subgroups according to the existence of hyperlipidemia and other complications. Serum and urine MDA concentrations were significantly higher in diabetic and nondiabetic patient groups than in the control group. By contrast to urine MDA level, serum MDA level was significantly higher in hyperlipidemic diabetics than that of normolipidemic diabetics. Serum MDA levels in the hyperlipidemic diabetic group and urine MDA levels in both diabetic groups were significantly higher than those in hyperlipidemic nondiabetic group. In both diabetic groups, the existence of complications didn't affect serum and urine MDA levels. No correlation existed between serum and urine MDA levels in both patient groups and control subjects. This study confirmed the existence of lipid peroxidation disorders in diabetic patients.     

Determination of urinary malondialdehyde by isotope dilution LC-MS/MS with automated solid-phase extraction: a cautionary note on derivatization optimization

A highly sensitive quantitative LC-MS/MS method was developed for measuring urinary malondialdehyde (MDA). With the use of an isotope internal standard and online solid-phase extraction, urine samples can be directly analyzed within 10 min after 2,4-dinitrophenylhydrazine (DNPH) derivatization. The detection limit was estimated as 0.08 pmol. This method was further applied to assess the optimal addition of DNPH for derivatization and to measure urinary MDA in 80 coke oven emission (COE)-exposed and 67 nonexposed workers. Derivatization optimization revealed that to achieve complete derivatization reaction, an excess of DNPH is required (DNPH/MDA molar ratio: 893-8929) for urine samples that is about 100 times higher than that of MDA standard solutions (molar ratio: 10-80). Meanwhile, the mean urinary concentrations of MDA in COE-exposed workers were significantly higher than those in nonexposed workers (0.23±0.17 vs 0.14±0.05 μmol/mmol creatinine, P<0.005). Urinary MDA concentrations were also significantly associated with the COE (P<0.005) and smoking exposure (P<0.05). Taken together, this method is capable of routine high-throughput analysis and accurate quantification of MDA and would be useful for assessing the whole-body burden of oxidative stress. Our findings, however, raise the issue that derivatization optimization should be performed before it is put into routine biological analysis.     

ReviewIsoprostanes: Novel Bioactive Products of Lipid Peroxidation

Isoprostanes, are a novel group of prostaglandin-like compounds that are biosynthesised from esterified polyunsaturated fatty acid (PUFA) through a non-enzymatic free radical-catalysed reaction. Several of these compounds possess potent biological activity, as evidenced mainly through their pulmonary and renal vasoconstrictive effects, and have short half-lives. It has been shown that isoprostanes act as full or partial agonists through thromboxane receptors. Both human and experimental studies have indicated associations of isoprostanes and severe inflammatory conditions, ischemia-reperfusion, diabetes and atherosclerosis. Reports have shown that F²-isoprostanes are authentic biomarkers of lipid peroxidation and can be used as potential in vivo indicators of oxidant stress in various clinical conditions, as well as in evaluations of antioxidants or drugs for their free radical-scavenging properties.

Higher levels of F²-isoprostanes have been found in the normal human pregnancy compared to non-pregnancy, but their physiological role has not been well studied so far. Since bioactive F²-isoprostanes are continuously formed in various tissues and large amounts of these potent compounds are found unmetabolised in their free acid form in the urine in normal basal conditions with a wide inter-individual variation, their role in the regulation of normal physiological functions could be of further biological interest, but has yet to be disclosed. Their potent biological activity has attracted great attention among scientists, since these compounds are found in humans and animals in both physiological and pathological conditions and can be used as reliable biomarkers of lipid peroxidation.     

Isoprostanes: novel bioactive products of lipid peroxidation

Isoprostanes, are a novel group of prostaglandin-like compounds that are biosynthesised from esterified polyunsaturated fatty acid (PUFA) through a non-enzymatic free radical-catalysed reaction. Several of these compounds possess potent biological activity, as evidenced mainly through their pulmonary and renal vasoconstrictive effects, and have short half-lives. It has been shown that isoprostanes act as full or partial agonists through thromboxane receptors. Both human and experimental studies have indicated associations of isoprostanes and severe inflammatory conditions, ischemia-reperfusion, diabetes and atherosclerosis. Reports have shown that F₂-isoprostanes are authentic biomarkers of lipid peroxidation and can be used as potential in vivo indicators of oxidant stress in various clinical conditions, as well as in evaluations of antioxidants or drugs for their free radical-scavenging properties.

Higher levels of F₂-isoprostanes have been found in the normal human pregnancy compared to non-pregnancy, but their physiological role has not been well studied so far. Since bioactive F₂-isoprostanes are continuously formed in various tissues and large amounts of these potent compounds are found unmetabolised in their free acid form in the urine in normal basal conditions with a wide inter-individual variation, their role in the regulation of normal physiological functions could be of further biological interest, but has yet to be disclosed. Their potent biological activity has attracted great attention among scientists, since these compounds are found in humans and animals in both physiological and pathological conditions and can be used as reliable biomarkers of lipid peroxidation.     

Oxidative stress during exercise: Implication of antioxidant nutrients

Research evidence has accumulated in the past decade that strenuous aerobic exercise is associated with oxidative stress and tissue damage in the body. There is indication that generation of oxygen free radicals and other reactive oxygen species may be the underlying mechanism for exercise-induced oxidative damage, but a causal relationship remains to be established. Enzymatic and nonenzymatic antioxidants play a vital role in protecting tissues from excessive oxidative damage during exercise. Depletion of each of the antioxidant systems increases the vulnerability of various tissues and cellular components to reactive oxygen species. Because acute strenuous exercise and chronic exercise training increase the consumption of various antioxidants, it is conceivable that dietary supplementation of specific antioxidants would be beneficial.     

Elevated hepatic iron: A confounding factor in chronic hepatitis C

Historically, iron overload in the liver has been associated with the genetic disorders hereditary hemochromatosis and thalassemia and with unusual dietary habits. More recently, elevated hepatic iron levels also have been observed in chronic hepatitis C virus (HCV) infection. Iron overload in the liver causes many changes including induction of oxidative stress, damage to lysosomes and mitochondria, altered oxidant defense systems and stimulation of hepatocyte proliferation. Chronic HCV infection causes numerous pathogenic changes in the liver including induction of endoplasmic reticulum stress, the unfolded protein response, oxidative stress, mitochondrial dysfunction and altered growth control. Understanding the molecular and cellular changes that could occur in a liver which has elevated hepatic iron levels and in which HCV replication and gene expression are ongoing has clinical relevance and represents an area of research in need of further investigation.     

丙型肝炎病毒高水平复制细胞株的构建及其机制初步研究

旨在探讨丙型肝炎病毒(hepatitis C virus, HCV)cured细胞株的易感机制。本研究将体外转录的HCV RNA电转入肝癌细胞系Huh 7细胞,建立HCV复制子细胞株,用 γ-干扰素(interferon,IFN)处理复制子细胞株,获得HCV cured Huh 7A和Huh 7B细胞株。用插入报告基因的HCV毒株Jc1-G感染上述细胞株,分别进行荧光素酶活性测定、蛋白质印迹法和荧光定量聚合酶链反应(polymerase chain reaction,PCR)检测以验证其易感性。收集Huh 7、Huh 7.5、Huh 7A和Huh 7B细胞并利用IFN-α处理,之后用蛋白质印迹法及荧光定量PCR进行检测,验证细胞株中IFN诱生信号通路中关键因子内源性表达及抗病毒活性ISGs的激活水平。结果显示,在Huh 7A和Huh 7B细胞中检测不到病毒RNA,与Huh 7细胞一致。病毒感染实验中,与Huh 7细胞相比,Huh 7A和Huh 7B细胞株中荧光素酶活性增高百倍,病毒蛋白表达和RNA水平亦显著上调,与Huh 7.5细胞株中的表达水平接近。IFN信号通路实验中,与Huh 7细胞相比,Huh 7A和Huh 7B细胞株中RIG-I/MDA5/MAVS内源性蛋白表达和mRNA水平无明显差异;IFN-α处理细胞后IFN刺激基因isg56,mx1,mx2,oax1,oax2,viperin,cxcl10,ifitm1和ifitm3激活水平亦无显著变化。结果提示,本研究制备的Huh 7A和Huh 7B细胞株可支持HCV高水平复制,将为研究病毒复制机制提供有力的支持。     

Short-term and long-term vitamin C supplementation in humans dose-dependently increases the resistance of plasma to ex vivo lipid peroxidation

To assess the effects of short-term and long-term vitamin C supplementation in humans on plasma antioxidant status and resistance to oxidative stress, plasma was obtained from 20 individuals before and 2h after oral administration of 2g of vitamin C, or from eight subjects enrolled in a vitamin C depletion-repletion study using increasing daily doses of vitamin C from 30 to 2500 mg. Plasma concentrations of ascorbate, but not other physiological antioxidants, increased significantly after short-term supplementation, and increased progressively in the long-term study with increasing vitamin C doses of up to 1000 mg/day. Upon incubation of plasma with a free radical initiator, ascorbate concentrations were positively correlated with the lag phase preceding detectable lipid peroxidation. We conclude that vitamin C supplementation in humans dose-dependently increases plasma ascorbate concentrations and, thus, the resistance of plasma to lipid peroxidation ex vivo. Plasma and body saturation with vitamin C in humans appears desirable to maximize antioxidant protection and lower risk of oxidative damage.     

Establishment of hepatitis C virus replicon cell lines possessing interferon-resistant phenotype

To clarify the mechanism underlying resistance to interferon (IFN) by the hepatitis C virus (HCV) in patients with chronic hepatitis, we attempted to develop an IFN-resistant HCV replicon from the IFN-sensitive 50-1 replicon established previously. By treating 50-1 replicon cells with a prolonged low-dose treatment of IFN-alpha and then transfecting the total RNA derived from the IFN-alpha-treated replicon cells, we successfully obtained four clones (named 1, 3, 4, and 5) of HCV replicon cells that survived against IFN-alpha (200 IU/ml). These cloned cells were further treated with IFN-alpha or IFN-beta (increased gradually to 2000 or 1000 IU/ml, respectively). This led to four replicon cell lines (alphaR series) possessing the IFN-alpha-resistant phenotype and four replicon cell lines (betaR series) possessing the IFN-beta-resistant phenotype. Furthermore, we obtained an additional replicon cell line (alphaRmix) possessing the IFN-alpha-resistant phenotype by two rounds of prolonged treatment with IFN-alpha and RNA transfection as mentioned above. Characterization of these obtained HCV replicon cell lines revealed that the betaR series were highly resistant to both IFN-alpha and IFN-beta, although the alphaR series containing alphaRmix were only partially resistant to both IFN-alpha and IFN-beta. Genetic analysis of these HCV replicons found one common amino acid substitution in the NS4B and several additional amino acid substitutions in the NS5A of the betaR series, suggesting that these genetic alterations are involved in the IFN resistance of these HCV replicons. These newly established HCV replicon cell lines possessing IFN-resistant phenotypes are the first useful tools for understanding the mechanisms by which HCV acquires IFN resistance in vivo.     

Efficient regulation of viral replication by siRNA in a non-human primate surrogate model for hepatitis C

RNA interference (RNAi) represents a new technology which could offer potential applications for the therapeutics of human diseases. RNAi-mediated therapy has recently been shown to be effective toward infectious diseases in in vitro and rodent models, however, it remains unclear whether RNAi therapy with systemic application could be effective in primates. In this study, we examined if RNAi therapy could be effective toward infectious diseases by using a non-human primate surrogate model for hepatitis C. Administration into marmosets of cationic liposome-encapsulated siRNA (CL-siRNA) for GB virus B (GBV-B), which is most closely related to hepatitis C virus, repressed GBV-B replication in a dose-dependent manner. Especially, 5 mg/kg of the CL-siRNA completely inhibited the viral replication. Since the serum interferons (IFNs) were induced by CL-siRNA in vivo, inhibition of viral regulation by anti-GBV-B CL-siRNA may include an antiviral effect of IFN. However, contribution of induced IFN may be partial, since the control CL-siRNA which induced a stronger IFN response than GBV-B CL-siRNA could only delay the viral replication. Our results suggest the feasibility of systemic administration of CL-siRNA as an antiviral strategy.     

Platelet sparing effect of COX II inhibition used with pegylated interferon alfa-2a for the treatment of chronic hepatitis C: a short term pilot study

The role of a cyclooxygenase (COX) II inhibitor in reducing microvascular inflammation and the platelet count associated with interferon (IFN) plus ribavirin therapy of chronic hepatitis C (HCV) was assessed. Three plasma mediators (biomarkers) associated with platelet activation, inflammation and fibrosis were measured. Eighteen IFN na?ve patients were studied. Nine were treated with pegylated IFN alfa-2a (PEG-IFN alpha-2a) plus ribavirin and rofecoxib; nine were treated with PEG-IFN alpha-2a plus ribavirin. A complete blood count, liver panel and HCV-RNA were assayed weekly. Human soluble P-selectin (hs-P-selectin), human interleukin-8 (IL-8), human interleukin-13 (IL-13) and human thrombopoietin (TPO) were assayed at 4 week intervals. The COX II inhibitor reduced the platelet reduction experienced with PEG-IFN alpha-2a treatment of HCV despite a reduction in the plasma TPO level. Hs-P-selectin was increased in both groups. In contrast, human IL-8 levels declined to undetectable levels in virologic responders. Similarly, human IL-13 levels declined with therapy (P < 0.001). These data suggest that: (1) a COX II inhibition is associated with an increase in the platelet count despite a reduction in the TPO level; (2) human IL-8 and human IL-13 but not hs-P-selectin levels decline in those who experience an early virologic response.     

Oxidative Status in Chronic Hepatitis C: The Influence of Antiviral Therapy and Prognostic Value of Serum Hydroperoxide Assay

The effect of α-interferon (α-IFN) and ribavirin (RBV) treatment on oxidative status in chronic hepatitis C (CHC) is unknown.

Aim: To study the time course of oxidative status in patients with CHC during α-IFN and RBV administration, and to evaluate the role of oxidative status in order to predict the therapeutic response.

Patients and methods: Fifty one patients with CHC were studied. All received a combination of α-IFN and RBV for 6 or 12 months in relation to the type of response. The hydroperoxides concentration in serum test samples by D-ROM test was measured in all of the patients before therapy. In 27 patients, hydroperoxides were also measured during the treatment and during the 12 subsequent months.

Results: Cross-sectional analysis demonstrates that patients with a successive long-term response had a lower basal serum hydroperoxide concentration than non-responders (280±40.8 vs 337±83 CARR Units, p<0.05). This resulted to be an independent factor predictive of long-term response in the multi-varied analysis. Longitudinal observation on 27 patients showed that the mean hydroperoxide concentration decreased significantly during treatment (T⁰ 329±79.2 vs T¹² 272±34.5 CARR Units) and that the decrease in the mean values was mainly due to variations in the relapsers group.

Conclusions: Normal basal hydroperoxide concentration helps to predict long-term response to combination therapy. The D-ROM test may be used for screening patients before treatment.     

Mass spectrometric characterization of the oxidation of the fluorescent lipid peroxidation reporter molecule C11-BODIPY(581/591)

C11-BODIPY^581/591 is a fluorescent lipid peroxidation reporter molecule that shifts its fluorescence from red to green when challenged with oxidizing agents, i.e., reactive oxygen species (ROS) or reactive nitrogen species (RNS). To understand the molecular mechanism responsible for this shift, we studied the molecular rearrangements leading to the shift in fluorescence in C11-BODIPY^581/591. Furthermore, we aimed to determine if these rearrangements were dependent on the nature of the applied ROS, in homogenous solution, bilayer vesicles, and living cells. C11-BODIPY^581/591 was challenged with various ROS- or RNS-generating systems, including peroxynitrite, NO₂^√, peroxides, and hydroxyl, alkoxyl, tyrosyl, and peroxyl radicals. The reaction products were subsequently analyzed by means of mass spectrometry. Our results show that the initial target for free radical-mediated oxidation is the conjugated diene interconnection between the BODIPY core and the terminal phenyl moiety, which already explains the shift in fluorescence properties of the probe. After oxidative challenge, three different stable products were identified, one of which was specific for oxidation by peroxynitrite. The two other stable end products had lost the entire phenyl moiety, irrespective of the type of radical generating system used. These products were also recovered from Rat-1 fibroblasts stressed either by GSH depletion/serum starvation or by exposure to peroxynitrite, and were the only C11-BODIPY^581/591 oxidation products detectable in these cells.     

Cholesterol, linoleic acid or/and tyrosine yield different spectra of products when oxidized alone or in a mixture: studies in various oxidative systems

Identification of reliable biomarkers for oxidative stress for the prediction of the early development of pathological conditions is essential. The detection of biomarkers for oxidative stress such as degradation products of polyunsaturated fatty acid (PUFA), oxysterols, and oxidized proteins, as indicators of oxidative stress are in use, but suffers from insufficient specificity, accuracy and reliability. The overall aim of the present study was to develop new markers which will not only provide information about the presence and level of oxidative stress in biological systems but also on the type of reactive oxygen species (ROS) involved and their metabolic consequences. In the first stage of the study, we compared the level and type of oxidized products formed when different ROS were applied onto three major biomolecules, i.e. cholesterol, linoleic acid (LH) and tyrosine, representing sterols, PUFA and protein, when each compounds was exposed alone or in a mixture to the ROS [copper ions, 2,2-azobis(2-amidinopropane) dihydrochloride (AAPH) and hypochlorous acid (HOCl)]. It was found that different types of oxidants resulted in the formation of different types of oxidation products. Furthermore, oxidation pattern differs when the substrates (cholesterol, PUFA or amino acid) were present alone or in a mixture. As biological systems such as lipoproteins and cell membranes are composed of the above studied molecules, the need for simultaneous detection of the major oxidized products is requires for better characterization of the oxidative stress outcome.     

Adenovirus-mediated gene transfer of interferon alpha inhibits hepatitis C virus replication in hepatocytes

Recently we reported that on-site interferon (IFN)-alpha production in the liver using an adenovirus vector can achieve a substantial confinement of IFN-alpha in the target organ and can improve liver fibrosis in a rat liver cirrhosis model. However, the major therapeutic effect of IFN for hepatitis C virus (HCV)-associated liver diseases is its antiviral effect on HCV. As a prelude to the in vivo HCV infection experiment using a primate animal model, here we examined the antiviral effect of IFN-alpha gene transfer into HCV-positive hepatocytes in vitro. The non-neoplastic human hepatocyte cell line PH5CH8 was inoculated with HCV-positive serum. Successful in vitro HCV replication and thus the validity of this model was confirmed by a strong selection for HCV variants determined by sequence analysis of the hypervariable region and an increase of HCV RNA estimated by real time TaqMan RT-PCR. One day after the inoculation of HCV, PH5CH8 cells were infected with adenoviral vectors encoding human IFN-alpha cDNA. HCV completely disappeared 9 days after the adenoviral infection, which is linked to the increase of 2('),5(')-oligoadenylate synthetase activity, suggesting that IFN-alpha produced by gene transfer effectively inhibits HCV replication in hepatocytes. This study supports the development of IFN-alpha gene therapy for HCV-associated liver diseases.     

Seroepidemiology of hepatitis C virus infection in Japan and HCV infection in haemodialysis patients

Abstract: Since January 1990, Japanese Red Cross Blood Centres have introduced hepatitis C virus screening with a first-generation ELISA. From April to December 1992, approximately 0.98% among 10905 489 blood donations screened by a second-generation assay were anti-HCV-positive in all Japan. Seropositivity of anti-HCV increased with the age and serum transminase value in both sexes. In blood donors having a history of transfusion, the anti-HCV reactive rate was 7.4%. The results of the study made by the Japanese Red Cross Non-A, Non-B Hepatitis Research Group show the effectiveness of implementation of HCV screening to prevent posttransfusion hepatitis. Consecutive haemodialysis patients with chronic renal failure are at risk for inflection by a variety of blood-borne agents transmitted within dialysis units. Because of their immunocompromised state, they frequently also have an unusual susceptibility to a variety of nosocomial infections, such as HBV, and HTLV-I. We tested the prevalence of anti-HCV in 1423 (848 males and 575 females) haemodialiysis patients from 18 hospitals in Kumamoto Prefecture, Japan using the Orhto first generation anti- HCV screening assay. There were 316 patients (22.2%) positive for HCV antibodies. The second-generation test was positive in most haemodialysis patients who were eractive to the firs-generation assay. The prevalence of HCV infection increased with the duration of haemodialysis, yet there was a high frequency of HCV seropositivity even wihtout blood transfusion. Acquisition of HCV in dialysis patients could be explained by HCV seropositivity even without blood (all haemodialysis are done with disposable kits, and needles), by secondary HCV infection after the immunodeficiency of haemodialysis, or by HCV infection of the kidney or glomerular deposition of immune HCV/anti-HCV complexes leading to chronic renal failure (as with HBV infection of the liver and kidney).     

丙型肝炎病毒感染过程中其NS3/4A蛋白酶切割线粒体抗病毒信号蛋白的动态过程

已知丙型肝炎病毒(hepatitis C virus,HCV)可通过其蛋白酶NS3/4A切割线粒体抗病毒信号蛋白(mitochondrial antiviral signaling protein,MAVS)来逃逸天然免疫识别,但尚不清楚其切割动力学及切割在抑制干扰素中的作用。本研究旨在细胞模型中探讨HCV感染过程中病毒复制建立及病毒NS3/4A切割MAVS的动态过程,探究NS3/4A切割MAVS对病毒逃逸宿主天然免疫建立感染的贡献。首先构建基于绿色荧光蛋白(green fluorescent protein,GFP)的MAVS切割报告系统(GFP-NLS-MAVS-TM462),用 HCV Jc1-Gluc 感染Huh7.5/GFP-NLS-MAVS-TM462细胞。结果显示,病毒复制早期MAVS切割效率较低;NS3/4A高效切割MAVS发生于HCV复制晚期,且其切割效率与NS3蛋白水平相关。利用带有GFP ypet的HCV报告病毒Jc1-378-1感染Huh7.5/RFP-NLS-MAVS-TM462细胞,在单细胞水平观察HCV感染阳性细胞中MAVS被切割情况,发现HCV复制细胞中仅部分细胞MAVS被切割。进一步研究发现,不同基因型NS3/4A切割MAVS的效率仅与NS3表达水平相关。以上结果提示,HCV蛋白酶NS3/4A切割MAVS依赖NS3/4A蛋白在病毒复制过程中的累积,对在病毒复制早期逃逸宿主天然免疫建立感染可能无显著贡献。     

Breath ethane generation during clinical total body irradiation as a marker of oxygen-free-radical-mediated lipid peroxidation: A case study

Total body irradiation (TBI) is used therapeutically for treatment of leukemias and other malignancies of the hemopoietic system. Ionizing radiation produces oxygen free radicals that contribute to cytotoxicity. Breath collected from one patient undergoing therapeutic TBI showed measurable changes in levels of ethane during treatment. Breath ethane is a marker of lipid peroxidation of n-3 fatty acids. The TBI treatment involved 4 days of irradiation. The largest changes in breath ethane occured on Day 2. The increased levels of breath ethane on Day 2 were correlated to clinical manifestations of toxicity. The correlation of the onset of gastrointestinal side effects with higher levels of breath ethane suggests that breath ethane may be a clinically useful measure of the toxicity of various TBI fractionation treatment protocols currently in use at different medical centers. The levels of breath ehtane on the other days of treatment were lower, suggesting that the oxidative-antioxidative balance of the patient may be important in protection against free radical mediated injury. These results for a single patient suggest that breath ethane may be a promising approach to elucidate the role of antioxidants in clinical TBI and should be extended for verification to a larger volunteer patient population.     

不同干扰素应答慢性乙型肝炎患者的基因组DNA甲基化谱差异分析

α干扰素,包括长效干扰素——聚乙醇化α干扰素(PEG-IFNα),是临床用以治疗慢性乙型肝炎的首选药物。但干扰素治疗通常只能在有限的患者中获得完全应答。目前干扰素治疗应答相关指标预测的灵敏度与特异度远未令人满意,因此继续寻找潜在的与干扰素疗效预测相关的分子标记仍是一个十分有意义的工作。为探讨慢性乙型肝炎患者基因组DNA甲基化状态与干扰素治疗疗效的关系,本研究采用RocheNimbleGen人甲基化DNA免疫共沉淀-芯片(MeDIP-chip)技术,分析20例不同干扰素疗效慢性乙型肝炎患者的血浆基因组启动子甲基化谱差异,并利用MeDIP-定量聚合酶链反应(MeDIP-qPCR)检验部分基因启动子区域DNA甲基化的水平。结果显示,与快速应答组相比,无应答组中有588个基因启动子区甲基化水平存在显著差异(P0.05)。这些基因主要涉及多个信号通路,即钙离子信号通路、细胞周期调节通路、肝脏代谢相关通路等。MeDIP-qPCR验证与芯片结果的一致性超过80%。本研究为探讨差异甲基化基因在干扰素应答中的作用及发现潜在的预测干扰素疗效的血液分子标记奠定了基础。     

Mizoribine inhibits hepatitis C virus RNA replication: effect of combination with interferon-alpha

Interferon (IFN)-alpha monotherapy, as well as the more effective combination therapy of IFN-alpha and ribavirin, are currently used for patients with chronic hepatitis C caused by hepatitis C virus (HCV) infection, although the mechanisms of the antiviral effects of these reagents on HCV remain ambiguous, and side effects such as anemia due to the administration of ribavirin present a problem for patients who are advanced in years. Using a recently developed reporter assay system in which genome-length dicistronic HCV RNA encoding Renilla luciferase gene was found to replicate efficiently, we found that mizoribine, an imidazole nucleoside, inhibited HCV RNA replication. The anti-HCV activity of mizoribine (IC50: approximately 100 microM) was similar to that of ribavirin. Using this genome-length HCV RNA replication monitor system, we were the first to demonstrate that the combination of IFN-alpha and ribavirin exhibited more effective anti-HCV activity than the use of IFN-alpha alone. Moreover, we found that the anti-HCV activity of mizoribine in co-treatment with IFN-alpha was at least equivalent to that of ribavirin. This effect was apparent in the presence of at least 5 microM mizoribine. Since mizoribine is currently used in several clinical applications and has not been associated with severe side effects, mizoribine is considered to be of potential use as a new anti-HCV reagent in combination with IFN-alpha.