Irshad Ur Rehman

Hepatitis B virus in Pakistan: A systematic review of prevalence, risk factors, awareness status and genotypes

In Pakistan, there are estimated 7-9 million carriers of hepatitis B virus (HBV) with a carrier rate of 3-5%. This article reviews the available literature about the prevalence, risk factors, awareness status and genotypes of the HBV in Pakistan by using key words; HBV prevalence, risk factors, awareness status and genotypes in Pakistani population in PubMed, PakMediNet, Directory of Open Access Journals (DOAJ) and Google Scholar. One hundred and six different studies published from 1998 to 2010 were included in this study. Weighted mean and standard deviation were determined for each population group. The percentage of hepatitis B virus infection in general population was 4.3318% ± 1.644%, healthy blood donors (3.93% ± 1.58%), military recruits (4.276% ± 1.646%), healthcare persons (3.25% ± 1.202%), pregnant women (5.872% ± 4.984), prisoners (5.75% ± 0.212%), surgical patients (7.397% ± 2.012%), patients with cirrhosis (28.87% ± 11.90%), patients with HCC (22% ± 2.645%), patients with hepatitis (15.896% ± 14.824%), patients with liver diseases (27.54% ± 6.385%), multiple transfused patients (6.223% ± 2.121%), opthalmic patients (3.89% ± 1.004%) and users of injectable drugs (14.95% ± 10.536%). Genotype D (63.71%) is the most prevalent genotype in Pakistani population. Mass vaccination and awareness programs should be initiated on urgent basis especially in populations with HBV infection rates of more than 5%.

The changing epidemiology pattern and frequency distribution of hepatitis C virus in Pakistan.

Information regarding the changing pattern in hepatitis C virus (HCV) genotypes/subtypes and resulting disease outcome is not well known. The specific objective of this study was to find out the frequency distribution of HCV genotypes and changing pattern of various HCV genotypes overtime in well-characterized Pakistani HCV isolates. The genotype distribution of HCV from all the four provinces of Pakistan was tracked for a period of 10 years (2000-2009) on total 20,552 consecutive anti-HCV and HCV RNA positive patients sample using type-specific genotyping assay. Of these, 16,891 (82.2%) samples were successfully genotyped. Of these 11,189 (54.4%) were males and 9363 (45.55%) were females. Of the successfully genotyped samples, 12,537 (74.2%) were with 3a, 1834 (10.9%) with 3b, 50 (0.24%) with 3c, 678 (3.3%) with 1a, 170 (0.83%) with 1b, 49 (0.24%) with 1c, 431 (2.1%) with 2a, 48 (0.23%) with 2b, 3 (0.01%) with 2c, 13 (0.06%) with 5a, 12 (0.06%) with 6a, 101 (0.49%) with 4, and 965 (4.7%) were with mixed-genotype infection. A changing pattern of HCV genotypes prevalence was observed in Pakistan overtime, with an increase in the relative proportion of genotype 3a and mixed genotypes and a decrease of genotypes 3b, 2b, 4, 5a and 2a. This changed HCV genotype pattern might have direct impact on HCV disease outcome and new therapeutic strategies may be needed.

Occult hepatitis C virus infection and associated predictive factors: The Pakistan experience

The aim of the present study was to determine the presence of HCV RNA in the liver biopsies of patients with abnormal liver tests but without detectable serum HCV RNA and anti-HCV antibodies in sera. Liver biopsies and whole blood of total 31 patients who were negative for anti-HCV antibodies with elevated liver function tests were received at Division of Molecular Diagnostics, University of the Punjab Pakistan from January 2002 to June 2009 for the detection of HCV RNA. HCV RNA status of the subjects was tested by reverse-transcription PCR and quantified using SmartCycler II real-time PCR. HCV genotyping was carried out in HCV RNA positive samples using molecular genotyping method. HCV RNA was found in liver-biopsy specimens from 23 (74.2%) of the total 31 patients negative for anti-HCV antibodies and undetectable serum HCV RNA. HCV RNA of both negative and positive polarity was found in the livers of 8 (25.8%) patients. Genotyping analysis showed that 65% patients were infected with HCV 3a, 17% with 3b, 13% with 1a and 4% patients were found with untypable genotype. In a multivariate logistic regression model, patients having previous history surgeries, male sex and age above 30 years were significantly associated with the presence of occult HCV infection (p<0.05). In conclusion, patients with elevated liver enzymes and negative HCV antibodies and negative serum RNA may have occult HCV infection and its chance increases with previous history of surgeries, in male sex and above 30 years of age.

Mixed genotype infections with hepatitis C virus, Pakistan.

To the Editor: The prevalence of hepatitis C virus (HCV) infection is high (8% of the population) in Pakistan (1). HCV is an RNA virus that has a high mutation rate. This high rate results in extensive genetic heterogeneity, and HCV isolates are found as either quasispecies or genotypes (2). Humans can be co-infected with >1 genotype (mixed genotype infection) of this virus (3). The rate of HCV mixed genotype infections is extremely variable for different regions and for the same group of patients tested by using different assays (4). Thus, it is difficult to determine the prevalence of mixed genotype infections by currently available assays, including direct DNA sequencing, because they are designed to identify only the HCV genotype dominant in that particular population. Consequently, genotypes present at lower frequencies could be missed or mistyped (5). To determine the prevalence of HCV mixed genotype infections, we retrospectively analyzed genotyping data for paired serum samples from 22,125 HCV-infected patients during the past 11 years (March 2000–May 2010) for all regions in Pakistan by using molecular-based genotype-specific methods (6,7). A total of 12,036 (54.4%) were male patients and 10,089 (45.6%) were female patients. The sensitivity and reliability of the assay we used has been assessed and found to be superior to restriction fragment length polymorphism analysis and serotyping methods for detection of mixed genotypes in a viral population. Our method can detect a small amount (8.3%) of HCV RNA in a mixed genotype population (7). Restriction fragment polymorphism analysis can detect 2 genotypes only if 1 of them represents >41.6% of the genotypes in a mixed genotype population. Of 22,125 HCV RNA-positive serum samples, type-specific PCR bands were observed in 18,181 (82.2%) samples and 3,944 (17.8%) were not typeable. A total of 1,007 (5.5%) patients had HCV mixed genotype infections. The distribution of mixed genotype infections in 1,007 patients is shown in Figure A1. Infection with mixed genotype 3a + 3b was most prevalent (43.79%). Age distribution of patients with mixed genotype infections is shown in the Table. Approximately 33% of patients with mixed genotype infections were 31–40 years of age and 22.5% were 41–50 years of age. Table Distribution of mixed genotype infections with hepatitis C virus in 1,007 patients, by age, Pakistan, March 2000–May 2010 Patterns of HCV mixed genotype infections in Pakistan are similar to those reported from India and Iran (8). However, the prevalence of HCV mixed genotype infections was lower (2%) (8) for Iran than for Pakistan. This lower rate may have been caused by use of a genotyping kit that can detect only genotypes 1a, 1b, 2, and 3a. Thus, mixed infections with other genotypes would not have been detected. A recent study in Brazil reported that mixed genotype infections were detected in 3.9% of intravenous drug users and 7.1% of former injecting drug users (9). These rates were similar to those in our study. In contrast, data from Sweden and Russia showed no mixed genotype infections in serum samples of chronically infected intravenous drug users, hemodialysis patients, and patients with hemophilia (10). Women (288/7,390, 3.89%) in Pakistan had significantly fewer HCV mixed genotype infections than men (719/10,791, 6.66%) (p<0.01). This finding might be the result of women having fewer risk factors for contracting mixed genotype infections. Possible risk factors for infection with mixed genotype infections analyzed were blood transfusions and use of blood products (51.3%); multiple use of needles or syringes (18.4%); sharing razors during shaving or circumcision, piercing instruments, nail clippers, and toothbrushes (13.7%); and major or minor dental surgery (9.5%). Mode of transmission was not clear for 7.1% of the patients. In conclusion, the prevalence of HCV mixed genotype infections in Pakistan is higher than previously reported and higher among men (p<0.01). Comprehensive and detailed investigations are warranted to evaluate the clinical role of chronic HCV mixed genotype infections, provide essential information that can be used to determine type and duration of therapy needed, and predict disease outcome.

Envelope 2 protein phosphorylation sites S75 & 277 of hepatitis C virus genotype 1a and interferon resistance: A sequence alignment approach

BackgroundHepatitis C is a major health problem affecting more than 200 million individuals in world including Pakistan. Current treatment regimen consisting of interferon alpha and ribavirin does not always succeed to eliminate virus completely from the patients body.ResultsInterferon induced antiviral protein kinase R (PKR) has a role in the hepatitis C virus (HCV) treatment as dsRNA activated PKR has the capacity to phosphorylate the serine and threonine of E2 protein and dimerization viral RNA. E2 gene of hepatitis C virus (HCV) genotype 1 has an active role in IFN resistance. E2 protein inhibits and terminates the kinase activity of PKR by blocking it in protein synthesis and cell growth. This brings forward a possible relation of E2 and PKR through a mechanism via which HCV evades the antiviral effect of IFN.ConclusionA hybrid in-silico and wet laboratory approach of motif prediction, evolutionary and structural anlysis has pointed out serine 75 and 277 of the HCV E2 gene as a promising candidate for the serine phosphorylation. It is proposed that serine phosphorylation of HCV E2 gene has a significant role in interferon resistance.

Expression of core antigen of HCV genotype 3a and its evaluation as screening agent for HCV infection in Pakistan.

BackgroundPakistan is facing a threat from hepatitis C infection which is increasing at an alarming rate throughout the country. More specific and sensitive screening assays are needed to timely and correctly diagnose this infection.MethodsAfter RNA extraction from specimen (HCV-3a), cDNA was synthesized that was used to amplify full length core gene of HCV 3a. After verification through PCR, DNA sequencing and BLAST, a properly oriented positive recombinant plasmid for core gene was digested with proper restriction enzymes to release the target gene which was then inserted downstream of GST encoding DNA in the same open reading frame at proper restriction sites in multiple cloning site of pGEX4t2 expression vector. Recombinant expression vector for each gene was transformed in E. coli BL21 (DE3) and induced with IPTG for recombinant fusion protein production that was then purified through affinity chromatography. Western blot and Enzyme Linked Immunosorbant Assay (ELISA) were used to detect immuno-reactivity of the recombinant protein.ResultsThe HCV core antigen produced in prokaryotic expression system was reactive and used to develop a screening assay. After validating the positivity (100%) and negativity (100%) of in-house anti-HCV screening assay through a standardized panel of 200 HCV positive and 200 HCV negative sera, a group of 120 serum specimens of suspected HCV infection were subjected to comparative analysis of our method with commercially available assay. The comparison confirmed that our method is more specific than the commercially available assays for HCV strains circulating in this specific geographical region of the world and could thus be used for HCV screening in Pakistan.ConclusionIn this study, we devised a screening assay after successful PCR amplification, isolation, sequencing, expression and purification of core antigen of HCV genotype 3a. Our developed screening assay is more sensitive, specific and reproducible than the commercially available screening assays in Pakistan.

Evaluation of three different hepatitis C virus typing methods for detection of mixed-genotype infections

OBJECTIVE:  To evaluate the clinical applicability of an eligible assay for the true prevalence of hepatitis C virus (HCV) mixed‐genotype infections.

Genetic history of hepatitis C virus in Pakistan.

Hepatitis C virus (HCV) genotype 3a accounts for ∼80% of HCV infections in Pakistan, where ∼10 million people are HCV-infected. Here, we report analysis of the genetic heterogeneity of HCV NS3 and NS5b subgenomic regions from genotype 3a variants obtained from Pakistan. Phylogenetic analyses showed that Pakistani genotype 3a variants were as genetically diverse as global variants, with extensive intermixing. Bayesian estimates showed that the most recent ancestor for genotype 3a in Pakistan was last extant in ∼1896-1914 C.E. (range: 1851-1932). This genotype experienced a population expansion starting from ∼1905 to ∼1970 after which the effective population leveled. Death/birth models suggest that HCV 3a has reached saturating diversity with decreasing turnover rate and positive extinction. Taken together, these observations are consistent with a long and complex history of HCV 3a infection in Pakistan.

Positional effect of phosphorylation sites 266 and 267 in the cytoplasmic domain of the E2 protein of hepatitis C virus 3a genotype: Interferon Resistance analysis via Sequence Alignment

BackgroundInterferon is well thought-out as the key defence against all infections including HCV. The only treatment for HCV infection is pegylated interferon alpha (IFN-α) but unluckily more than half of the infected individuals do not act in response to the cure and become chronic HCV carriers. The mechanism how HCV induce interferon resistance is still elusive. It is recently reported that HCV envelope protein 2 interacts with PKR which is the interferon-inducible protein kinase and which in turn blocks the activity of its target molecule called eukaryotic initiation factor elF2. Sequence analysis of Envelope protein reveals it contains a domain homologous to phosphorylation sites of PKR andthe translation initiation factor eIF2alpha. Envelope protein competes for phosphorylation with PKR. Inhibition of kinase activity of PKR is postulated as a mechanism of to interferon (IFN) resistance.ResultsPresent study involves the insilico investigation of possible role of potential phosphorylation in envelope 2 protein of 3a genotype in interferon resistance. Envelope protein coding genes were isolated from local HCV isolates, cloned and sequenced. Phylogenetic analysis was done and tertiary structure of envelope gene was predicted. Visualization of phosphorylation in tertiary structure reveals that residue 266 and 267 of envelope gene 2 are surface exposed and their phosphorylation may compete with the phosphorylation of PKR protein and possibly involved in mediating Interferon Resistance.ConclusionA hybrid in-silico and wet laboratory approach of motif prediction, evolutionary and structural analysis has pointed out serine 266 and 267 of the HCV E2 gene as a hopeful claimant for the serine phosphorylation. Recognition of these nucleotide variations may assist to propose genotype precise therapy to avoid and resolve HCV infections.

Inhibitory effect of kaolin minerals compound against hepatitis C virus in Huh-7 cell lines.

BackgroundHepatitis C virus (HCV) is estimated to infect 200 million individuals in the globe, including approximately 10 million in Pakistan causing both acute and chronic hepatitis. The standard treatment against HCV is pegylated interferon therapy in combination with a nucleoside analogue ribavirin. In addition, several herbal extracts and phytochemicals derivatives are used traditionally in the treatment of liver diseases as well as HCV infection. The present study determines the inhibitory effect of kaolin minerals compound against hepatitis C virus in Huh-7 cell lines.MethodsHuh-7 cell lines were used for the in vitro HCV replication by using HCV positive sera from different patients with known HCV genotypes and viral titer/load. Total RNA was extracted from these infected cells and was quantified by real-time polymerase chain reaction (Real-time PCR). The viral titer was compared with the control samples to determine the anti-HCV activity of kaolin derived compounds. Kaolin is a group of clay minerals, with the chemical composition Al2 Si2O5 (OH)4.ResultsThe results showed promising effectiveness of local kaolin derived anti-HCV compounds by causing 28% to 77% decrease in the HCV titer, when applied to infected Huh-7 cell lines. This study provides the basis for future work on these compounds especially to determine the specific pathway and mechanism for inhibitory action in the replicon systems of viral hepatitis.ConclusionsKaolin mineral derivatives show promising inhibitory effects against HCV genotypes 3a and 1a infection, which suggests its possible use as complementary and alternative medicine for HCV viral infection.