key: cord-347319-lcuma3eh
authors: Ashfaq, Usman A; Javed, Tariq; Rehman, Sidra; Nawaz, Zafar; Riazuddin, Sheikh
title: Lysosomotropic agents as HCV entry inhibitors
date: 2011-04-12
journal: Virol J
DOI: 10.1186/1743-422x-8-163
sha: 
doc_id: 347319
cord_uid: lcuma3eh

HCV has two envelop proteins named as E1 and E2 which play an important role in cell entry through two main pathways: direct fusion at the plasma membrane and receptor-mediated endocytosis. Fusion of the HCV envelope proteins is triggered by low pH within the endosome. Lysosomotropic agents (LA) such as Chloroquine and Ammonium chloride (NH(4)Cl) are the weak bases and penetrate in lysosome as protonated form and increase the intracellular pH. To investigate the antiviral effect of LA (Chloroquine and NH(4)Cl) on pH dependent endocytosis, HCV pseudoparticles (HCVpp) of 1a and 3a genotype were produced and used to infect liver cells. The toxicological effects of Chloroquine and NH(4)Cl were tested in liver cells through MTT cell proliferation assay. For antiviral screening of Chloroquine and NH(4)Cl, liver cells were infected with HCVpp of 3a and 1a genotype in the presence or absence of different concentrations of Chloroquine and NH4Cl and there luciferase activity was determined by using a luminometer. The results demonstrated that Chloroquine and NH(4)Cl showed more than 50% reduction of virus infectivity at 50 μM and 10 mM concentrations respectively. These results suggest that inhibition of HCV at fusion step by increasing the lysosomal pH will be better option to treat chronic HCV.

Hepatitis C Virus (HCV) is an enveloped, positive stranded RNA virus classified in the family of Flaviviridae. HCV causes acute and chronic hepatitis infection which can eventually lead to permanent liver damage, hepatocellular carcinoma and death. It is estimated that three to four million people are infected with HCV every year [1] . HCV genome encodes a single polyprotein precursor of just over 3000 amino acids. This polyprotein precursor is co-and posttranslationally processed by cellular (signal peptidase and signal peptide peptidase) and viral (NS2-3 and NS3-4A) proteases to yield four structural (Core, E1, E2 and P7) and six non structural (NS2, NS3, NS4A, NS4B, NS5A, NS5B) proteins. HCV envelope is formed by E1 and E2 glycoprotein heterodimers which are essential for virus entry into cells [2] . HCV E1 and E2 fusion was enhanced at low pH, suggesting that HCV enters cells via the endosomal pathway and that E1 and/or E2 undergo conformational modifications that allow fusion of viral and cellular membranes [3] .

There are six major and more than 80 subtypes of HCV. This classification is based on nucleotide variation among different HCV isolates. They occur in different proportion in different parts of the world. Genotype 1a and 1b are the most common genotypes in the United States and Europe [4, 5] . The most prevalent HCV genotype in Pakistan is 3a followed by 3b and 1a [6] .

Presently, there is no vaccine available for prevention of HCV infection due to high degree of strain variation. Current therapeutic options for hepatitis C are limited, especially for genotype 1. For genotypes 2 and 3, pegylated interferon in combination with ribavirin, can lead to a sustained virological response in up to 80% of patients [7] . However, this therapy is expensive and often associated with side effects that may lead to discontinuation of therapy [8] . Hemolytic anemia, cough, shortness of breath & treatogenicity are the most common adverse effect associated with ribavirin treatment, and muscle aches, fatigue & neuropsychiatric adverse effects of IFNα lead to premature cessation of therapy in 10 to 20% of patients [9, 10] . Moreover, cost of interferon for 6 month treatment ranging from PKR 50,000 to 150,000 is beyond the financial range of most patients. Hence, there is a need to develop anti HCV agents, which are less toxic, more efficacious and cost-effective.

The term "lysosomotropic agent" was introduced by DeDuve and co-workers (1974) to designate substances that are taken up selectively into lysosomes. This definition leaves open the chemical nature of a lysosomotropic substance and the mechanism of its uptake.

Lysosomotrpic agents such as NH 4 C1, chloroquine and methylamine penetrate acidic compartments of the cell and accumulate as protonated forms, resulting in an increase in the intravesicular pH [11] [12] [13] .

Chloroquine, which is widely used for the treatment of malaria, is a well-established inhibitor of autophagic proteolysis which acts by inhibiting acidification of lysosomes and endosomes [14] . It has been reported that lysosomotropic agents such as Chloroquine and NH 4 Cl exert direct antiviral effects on several RNA viruses including coronaviruses, flaviviruses and human immunodeficiency virus (HIV) [15] [16] [17] [18] . Moreover, clinical studies have demonstrated the safety, tolerability, and efficacy of lysosomotropic agents in the antiviral treatment of HIV infection [19, 20] .

In the current study HCV entry is blocked by Lysosomotropic agents. Firstly toxicological analysis of Chloroquine and NH 4 Cl were done in liver cells. After toxicological analysis, antiviral effects were studied in HCVpp of 1a and 3a genotype.

Huh-7 and HEK 293 T cells were cultured in Dulbecco's Modified Eagle medium (DMEM) supplemented with 10% fetal calf serum, 100 IU/ml penicillin and 100 μg/ ml streptomycin, at 37°C in an atmosphere of 5% CO 2 . Huh-7 was kindly provided by Dr. Zafar Nawaz (Biochemistry and Molecular Biology Department, University of Miami, USA.

The pcDNA-E1E2 expression vector encoding the E1 and E2 glycoproteins (171-746) of HCV genotype 3a and 1a, was generated by inserting into a nonpackageable, CMV promoter-driven expression construct. The CMV-Gag-Pol murine leukemia virus (MLV) packaging construct, encoding the MLV gag and pol genes, and the pTG-Luciferase plasmid provided by Dr Jaean Dubison, France.

HCVpp were produced by co-transfection of 293-T cells with equal amounts of three expression vector as described previously [21] . Supernatants containing HCVpp were harvested 48 h later, filtered through 0.45 μm pore-sized membranes and stored at -80°C before use in infection of Huh7 cells.

MTT (3-[4, 5-dimethylthiazol-2-yl]-2, 5-diphenyltetrazolium bromide) is a rapid and sensitive in-vitro procedure for evaluating cellular toxicity of compounds. The MTT substance is reduced by mitochondrial succinic dehydrogenases in living cells to purple formazan crystals that are not soluble in aqueous water. The absorption of dissolved formazan in the visible region correlates with the number of viable cells [21] . To investigate cellular toxicity, 2 × 10 4 Huh-7 cells were plated into 96-well plates. After 24 h, different concentrations of Chloroquine and NH 4 Cl were added and the plate was sealed and kept at 37°C in an atmosphere of 5% CO 2 for 24 h. After 24 h, fresh media (100 μl) and MTT solution (5 mg/ml in PBS) were added to all wells in Columns 1-11. Wrapped the plate in aluminium foil and incubated for 3-4 h at 37°C. Media was carefully removed and added 100 μl of DMSO to dissolve the formazan crystals in Columns 1-11. MTT formazan product was determined by measuring absorbance with an enzyme-linked immunosorbent assay (ELISA) plate reader at a test wavelength of 570 nm and a reference wavelength of 620 nm.

Cell viability was obtained using the following equation.

Percent cell viability = Test 570 nm − 650 nm/Control 570 nm − 620 nm × 100

To investigate anti-fusion effect of Chloroquine and NH 4 Cl, Huh-7 cells were incubated in the presence or absence of Chloroquine and NH 4 Cl at 37°C for 30 min. After 30 min Huh-7 cells were infected with HCVpp of 3a and 1a genotype in the presence or absence of different concentrations of Chloroquine and NH 4 Cl and incubated for additional 24 h. After 24 h cells were lysed and luciferase activity was determined by using a luminometer.

All statistical analysis was done using SPSS software (version 16.0, SPSS Inc). Data are presented as mean ± SD. Numerical data were analyzed using student's t-test and ANOVA. P value < 0.05 was considered statistically significant.

MTT assay is a widely used test for evaluating cytotoxicity of compounds/herbs in cell cultures. The MTT substance is reduced by mitochondrial succinic dehydrogenases in living cells to purple formazan crystals that are not soluble in aqueous water. The absorption of dissolved formazan in the visible region correlates with the number of alive cells [21] . Cytotoxic effects of Chloroquine and NH 4 Cl were analyzed after 24 h incubation of Huh-7 cells with different concentrations of compounds. Figure 1 showed that cell proliferation of liver cells is unaffected at high concentration. After toxicological analysis through MTT proliferation assay, antiviral activities of Chloroquine and NH 4 Cl were tested at non toxic concentrations.

Enveloped viruses enter cells through two main pathways: direct fusion at the plasma membrane and receptor-mediated endocytosis. Fusion of the viral envelope protein(s) is triggered by low pH within the endosome. Lysosomotropic agents such as Chloroquine and NH 4 Cl, have been used to demonstrate the pH sensitivity of virus entry. We therefore tested the infectivity of HCVpp after treatment of target cells with different concentrations of Chloroquine and NH 4 Cl. HCVpp of 1a and 3a genotype demonstrated dose-dependent inhibition in the presence of Chloroquine and NH 4 Cl. Chloroquine and NH 4 Cl showed greater than 50% reduction of virus infectivity at 50 μM and 10 mM concentration respectively, suggesting a pH-sensitive route of virus entry (Figure 2a and 2b ).

HCV entry is a multistep process requiring four cellular receptor, fusion and endocytosis. HCV fusion depends on E1 and E2, viral dose, and occurs within a specific pH range. Targeting pH dependent endocytosis is a useful tool to identify antiviral drugs against. A major advancement to look into HCV entry process was the development of HCVpp, consisting of native HCV envelope glycoproteins, E1 and E2, assembled onto [3, 22, 23] . This system is potentially very powerful tool to identify and characterize molecules that block HCV entry. In this study, HCVpp of local HCV genotype 3a and 1a were produced to study early entry steps mediated by HCV envelope glycoproteins. This assay is based on the quantification of retroviral DNA synthesis, which occurs soon after the fusion of the retroviral particle with a cellular membrane. Presumably, this assay is only dependent on the entry steps mediated by the heterodimer E1E2 (binding, endocytosis, and fusion) and on the activity of the reverse transcriptase of the HCVpp retroviral core.

The intracellular sub-compartments such as lysosomes and endosomes have an acid nature with pH of about 5 [14] . Lysosomotropic agents such as Chloroquine and NH 4 Cl are weak bases which have a tendency to accumulate in these compartments. Lysosomotropic agents are captured by protonation inside the lysosomes and accumulate there (Figure 3 ). The ratio of intra/extra lysosomal concentrations of these substances is equal to the ratio of concentration of hydrogen ions in lysosomes and in their vicinity, i.e. 1 : 100 if we suppose that pH in lysosomes is 5 and in cytoplasm 7. The amount of the permeable form of lysosomotropic agents passing through the membrane depends on the substance pKa value and pH value of solution. The higher the pKa value, the lower the permeable form ratio. This has led to the assumption that the specific uptake of lysosomotropic substances into lysosomes depends on the acidic pH of these compartments, ion-trapping weak bases [13] . In this model, the most suitable weak bases are those with a pKa around 8.

NH 4 Cl and Chloroquine are lysosomal weak bases that are known to affect acid vesicles leading to dysfunction of several proteins. Previous studies of Chloroquine and 4 Cl have demonstrated that it has multiple effects on mammalian cells in addition to the elevation of endosomal pH, including the prevention of terminal glycosylation of immunoglobulin's [24] . When added to virusinfected cells, chloroquine inhibited later stages in vesicular stomatitis virus maturation by inhibiting the glycoprotein expression at the cell surface [25] , and it inhibited the production of infectious HIV-1 particles by interfering with terminal glycosylation of the glycoprotein [26, 27] . Increase in pH by Chloroquine and NH 4 Cl, firstly inhibits low pH confirmational changes that triggers fusion, penetration and uncoating and secondly inhibits posttranslational modification of HCV enveloped proteins (E1 and E2) (Figure 4 ). Our results demonstrated that, Chloroquine and NH 4 Cl inhibit HCVpp entry in a dose-dependent manner at non toxic concentration. Chloroquine and NH 4 Cl resulted in greater than 50% reduction of virus infectivity at a concentration of 50 μM and 10 mM respectively, suggesting a pH-sensitive route of virus entry (Figure 2a and 2b) .

In conclusion, inhibition of HCV entry by increasing the pH through lysosomotropic agents is an important target to identified new drugs against HCV and combination of lysosomotropic agents with interferon will be better option to treat chronic HCV. 

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Lysosomotropic agents as HCV entry inhibitors

Financial support by Higher Education Commission Pakistan is highly acknowledged.

Authors' contributions UAA, TJ and SDR contributed equally in lab work and manuscript write up. ZN and SRD were the principal investigator and provide all facilities to complete this work. All the authors read and approved the final manuscript.

Usman Ali Ashfaq (PhD Molecular Biology), Imran shahid (M Phil Molecular Biology), Tariq Javed (M. Phil pharmaceutical chemistry, Sidra Rehman (MSc Chemistry) and Sheikh Riazuddin (PhD molecular Biology and Dean Post graduate study at Allama Iqbal medical college, Lahore

The authors declare that they have no competing interests.