Presence of multiple genotype-specific antibodies in patients with persistent infection with hepatitis C virus (HCV) of a single genotype: evidence for transient or occult superinfection with HCV of different genotypes

OBJECTIVE: We investigated the significance of multiple genotype-specific antibodies in patients with persistent infection with hepatitis C virus (HCV) of a single genotype. METHODS: Titers of genotype-specific antibodies to group 1 and 2 HCV polypeptides in the NS4 region of HCV were measured in 53 hemophiliacs and 58 nonhemophiliacs who were persistently infected with HCV of a single genotype. In addition, sequence variability in hypervariable region 1 (HVR1) of HCV was evaluated in these patients. RESULTS: The presence of antibodies to both group 1 and 2 polypeptides, reflecting a mixture of serotypes, was more frequent in hemophiliacs (11 of 53 patients, 20.8%) than in nonhemophiliacs (two of 58 patients, 3.4%; p = 0.01). HVR1 sequence variability in 13 patients with mixed serotypes was higher than in 87 patients with a single serotype (21.1 +/- 4.3% vs 8.5 +/- 6.3%; p < 0.01). CONCLUSIONS: A mixture of HCV serotypes was more common in hemophiliacs with persistent HCV infection of a single genotype who were at high risk of exposure to HCV than in nonhemophiliacs, and the sequence variability of the infecting strains was high in these patients. These data are suggestive of the effects of superinfection with HCV of different genotypes. The presence of multiple genotype-specific antibodies to HCV may be evidence of transient or occult superinfection with HCV of different genotypes in patients with persistent infection by HCV of a single genotype.     

Quasispecies of hepatitis C virus in serum and in three different parts of the liver of patients with chronic hepatitis.

Hepatitis C virus (HCV) has been known to infect hosts as a quasispecies. Several reports have shown this using serum samples, but there is little information about quasispecies in the liver. In this study, we evaluated quasispecies in serum and in 3 different parts of the liver in 8 patients with varying severity of chronic hepatitis C by calculating nucleotide diversity, entropy, type of substitution and by phylogenetic analysis. Nucleotide diversity of HCV was different in each sample and ranged from 0.37% +/- 0.31% to 4.10% +/- 1.06%. However, the degree of HCV diversity in serum correlated with that in the liver in each patient (P <.01). Common HCV clones were found both in serum and liver samples in all 6 noncirrhotic patients, but all serum clones were different from the clones from the 2 cirrhotic livers. Phylogenetic analysis showed that the degree of genetic diversity of HCV among the 3 liver samples was significantly high in the 4 patients with fibrosis. These genetic compartmentalizations of HCV did not depend on the type of substitution or the viral load of each liver sample. HCV quasispecies within the liver may be closely related to the viral life cycle and the pathogenesis of persistent infection of HCV.     

Hepatitis C virus quasispecies and response to interferon therapy in patients with chronic hepatitis C: a prospective study

We prospectively examined whether the complexity of hepatitis C virus (HCV) quasispecies is related to the response to interferon (IFN) therapy. Among 64 patients who had histologically proven chronic hepatitis and were treated with natural IFN-α, 53 patients were analysed. The other 11 patients discontinued therapy because of adverse effects of IFN. The complexity of the hypervariable region 1 (HVR 1) in quasispecies was determined using both clone number determined by fluorescence single-strand conformation polymorphism (SSCP) and nucleotide diversity determined by direct sequencing. These parameters were measured not only before treatment but also at completion and 6 months after therapy, if serum HCV RNA was detectable. This population of patients was different from the general Japanese population with regard to the high prevalence of patients infected with genotype 2a or 2b (49%), who had a higher viral load than those with genotype 1b ( P  = 0.021). Twenty-two patients (41.5%) were sustained responders. Genotype non-1b ( P  = 0.0009) and a smaller clone number ( P  = 0.008) were significantly associated with a sustained response. In multivariate analysis, these variables were independently associated with a sustained response (i.e. genotype: odds ratio 6.84, 95% CI 1.84–30.12; and clone number: odds ratio 1.26, 95% CI 0.99–1.68). The clone number and nucleotide diversity did not change significantly between pretreatment and at completion or 6 months after therapy. These results suggest that lower complexity of HVR 1 quasispecies predicts a preferable response to IFN therapy that is independent of viral load, especially in the population of the relatively high prevalence of patients infected with genotype 2.     

Pretransplantation hepatitis C virus quasispecies may be predictive of outcome after liver transplantation

The evolution of hepatitis C virus (HCV) envelope variation was studied using a liver-transplant model to evaluate the role of HCV quasispecies for hepatocyte infection. Twelve HCV polymerase chain reaction (PCR)-positive liver-transplant recipients (6 with posttransplantation biochemical hepatitis and 6 without hepatitis [controls]) were prospectively evaluated and underwent detailed quasispecies analysis of pre- and postoperative serum samples. HCV amino acid sequence diversity and complexity at the first hypervariable region (HVR1) of the second envelope protein (E2) was correlated with outcome. Recurrence of HCV-induced allograft injury was defined by persistently elevated serum alanine transaminase (ALT) levels. The major variant (sequences >10% of all clones) of recipients with hepatitis accounted for a significantly smaller percent of all preoperative clones compared with controls (41% +/- 6% vs. 69% +/- 8%; P <.015). Recipients with hepatitis had an increased number of pretransplantation major variants (2.5 +/- 0.3 vs. 1.1 +/- 0.2; P <.006). Eighty-three percent of controls had a predominant variant (accounting for >50% of clones) compared with 17% of those with recurrence (P <.05). These differences did not persist postoperatively. In addition, recipients without a pretransplantation predominant variant demonstrated an increased allograft fibrosis score (2.3 +/- 0.3 vs. 0.5 +/- 0.3; P <.015) at 181 to 360 days posttransplantation compared with those in whom a predominant variant was present. Increased HCV envelope complexity may act as a stronger antigenic stimulus or improve hepatocyte receptor binding and lead to allograft hepatitis and fibrosis. Although pretransplantation differences in HCV quasispecies did not persist postoperatively, pretransplantation quasispecies may be a predictor of HCV-induced hepatitis and graft fibrosis after liver transplantation.     

Influence of quasispecies on virological responses and disease severity in patients with chronic hepatitis C

AIM： To elucidate the influence of quasispecies on virological response and disease severity in patients with chronic hepatitis C.
METHODS： Forty seven patients with hepatitis C [32 with chronic active hepatitis （CAH）, 9 with cirrhosis, and 6 with hepatocellular carcinoma （HCC）] were screened for the presence of quasispecies by single stranded conformational polymorphism （SSCP） analysis in the hypervariable region （HVR） and non-structural 5B （NS5B） viral genes of hepatitis C virus. The 41 patients excluding those with HCC were on therapy and followed up for a year with the determination of virological response and disease severity. Virus isolated from twenty three randomly selected patients （11 non-responders and 12 showing a sustained virological response） was sequenced for the assessment of mutations.
RESULTS： The occurrence of quasispecies was proportionately higher in patients with HCC and cirrhosis than in those with CAH, revealing a significant correlation between the molecular evolution of quasispecies and the severity of disease in patients with hepatitis C. The occurrence of complex quasispecies has a significant association （P 〈 0.05） with the non-responders, and leads to persistence of infection. Significant differences （P 〈 0.05） in viral load （log10 IU/mL） were observed among patients infected with complex quasispecies （CQS）, those infected with simple quasispecies （SQS） and those with no quasispecies （NQS）, after 12 wk （CQS-5.2 ± 2.3, SQS-3.2 ± 1.9, NQS-2.8 ± 2.4） and 24 wk （CQS-3.9 ± 2.2, SQS-3.0 ± 2.2, NQS-2.1 ± 2.3） in the HVR region. However, a statistically significant difference （P 〈 0.05） was observed between the viral loads of patients infected with CQS and those infected with NQS in NS5B viral gene after 24 wk （CQS-3.9 ± 2.2, SQS-3.0 ± 2.2, and NQS-2.1 ± 2.3） and 48 wk （CQS-3.1 ± 2.7, SQS-2.3 ± 2.4, NQS-2.0 ± 2.3） of therapy. Disease severity was significantly associated with viral load during th     

丙型肝炎病毒感染自然过程中的准种变化

目的观察丙型肝炎病毒(HCV)持续感染者与自然阴转者外周血HCV准种构成的变化规律。方法应用基因扩增、分子克隆和测序的方法,对未接受过治疗的4例HCV持续感染者与4例自然阴转者前后间隔10年血清中HCV高变区1(HVR1)基因片段进行了序列分析及遗传进化关系比较。结果与持续感染者相比,自然阴转者外周血HCVHVR1区准种群体组内平均遗传距离、熵值较小。4例持续感染者中有3例10年前后血清HCVHVR1准种群体组内与组间遗传距离有明显差异。8例感染者中有7例血清HCV准种KA/KS值大于1。结论在丙型肝炎的自然病程中HCV准种遗传复杂度、变异度大小可能与丙型肝炎的转归相关;HCV准种构成可能发生改变。     

A possible role of hypervariable region 1 quasispecies in escape of hepatitis C virus particles from neutralization

We examined serial changes in the hypervariable region 1(HVR1) quasispecies both in immune and nonimmune complexed hepatitis C virus (HCV) particles from 12 patients with chronic hepatitis C to elucidate the mechanism by which genetic diversification of HCV during the course of infection allows escape of virus from the humoural immune response. Immune and nonimmune complexes were separated by differential flotation centrifugation and immunoprecipitation, and their HVR1 quasispecies were determined by subcloning and sequencing. The presence of a specific antibody against a specific viral clone in serum was examined in two patients by Western blotting of the corresponding recombinant HVR1 protein. The distribution of HVR1 quasispecies in both immune and nonimmune complexes conspicuously changed over time in most of the patients studied. In seven patients, various HCV clones serially shifted from nonimmune complexes to immune complexes. In four of them, a group of clones with similar HVR1 sequences to each other remained predominant in nonimmune complexes, whereas minor clones with sequences considerably divergent from the predominant clones shifted from nonimmune complexes to immune complexes. These results suggest a mechanism for persistent infection of HCV, in which major HCV clones escape from neutralization by anti-HVR1 antibodies by generating considerably divergent minor 'decoy' clones which may be preferentially neutralized.     

Distribution of hepatitis C virus genotypes in patients with chronic hepatitis C infection in Western Turkey.

OBJECTIVE: The primary aim of this study was to determine the recent distribution of various genotypes of hepatitis C virus (HCV) in patients with chronic HCV infection in Western Turkey. Additional objectives were to determine whether there are any associations of genotype with gender and age, and to determine the nucleotide similarities and risk factors of non-1 HCV genotypes. METHODS: Serum samples from 345 patients (176 male, 169 female; mean age 53.3+/-12.7 years, range 10-81 years) with chronic HCV infection were analyzed in this study. Viral genotypes were determined by a restriction fragment length polymorphism (RFLP)-based in-house assay. To confirm genotypes for the samples with band patterns other than genotype 1, the 5' UTR was amplified and sequenced. RESULTS: Genotype 1 was observed in 335 of the 345 patients (97.1%). Of these, 34 patients showed infection with subtype 1a (9.9%) and 301 with subtype 1b (87.2%). Genotypes 2, 3, and 4 were determined in 0.9%, 1.4%, and 0.6% of the patients, respectively. Patients infected with type 1 were significantly older than patients infected with non-1 genotypes; however no significant differences were recorded in gender distribution. CONCLUSIONS: Genotypes other than genotype 1 are quite rare; these are possibly acquired in other countries. Turkish patients with chronic hepatitis C still represent a rather homogenous group with genotypic diversity encountered rarely.     

Diversity of Nucleotide Sequences in Hypervariable Region 1 of Hepatitis C Virus in Japanese Patients with Chronic Hepatitis C of Unknown Mode of Transmission

We evaluated the sequence diversity of thehypervariable region 1 (HVR1) of hepatitis C virus (HCV)in HCV-infected patients in whom the mode oftransmission is unknown. The sequence diversity of HVR1in 26 Japanese patients with chronic HCV infectionof unknown mode of transmission (UT) was compared with17 patients with chronic posttransfusion hepatitis C inwhom only a single HCV infection had occurred (PH), and with 18 patients with hemophilia withchronic HCV infection who might have been multiplyinfected with HCV (HE). The diversity of HVR1 wasevaluated by direct sequencing after PCR amplification of HVR1. The sequence diversity of HVR1 was10.1 ± 7.7% in UT, 2.7 ± 2.8% in PH, and14.6 ± 6.9% in HE. The diversity of the patientswith unknown transmission was greater than that of theposttransfusion hepatitis patients, and in some patients it wassimilar to that of multitransfused hemophiliac patients(UT vs PH, P = 0.0004; UT vs HE, P = 0.04; and HE vs PH,P < 0.0001). Multiple infections with HCV could have occurred frequently in patientswith chronic HCV infection in whom the mode oftransmission was unknown, which increased the sequencediversity of HVR1 of these patients.     

Multigene tracking of quasispecies in viral persistence and clearance of hepatitis C virus

AIM: To investigate the evaluation of hepatitis C virus (HCV) quasispecies in the envelope region and its relationship with the outcome of acute hepatitis C. METHODS: HCV quasispecies were characterized in specimens collected every 2-6 mo from a cohort of acutely HCV-infected subjects. We evaluated two individuals who spontaneously cleared viremia and three individuals with persistent viremia by cloning 33 1-kb amplicons that spanned E1 and the 5' half of E2, including hypervariable region 1 (HVR1). To assess the quasispecies complexity and to detect variants for sequencing, 33 cloned cDNAs representing each specimen were assessed by a combined method of analysis of a single-stranded conformational polymorphism and heteroduplex analysis. The rates of both synonymous and nonsynonymous substitutions for the E1, HVR1 and E2 regions outside HVR1 were analyzed. RESULTS: Serum samples collected from chronic phase of infection had higher quasispecies complexity than those collected from acute phase of infection in all individuals examined. The genetic diversity (genetic distance) within HVR1 was consistently higher than that in the complete E1(0.0322±0.0068 vs-0.0020±0.0014, P<0.05) and E2 regions outside HVR1 (0.0322±0.0068 vs 0.0017±0.0011, P<0.05) in individuals with persistent viremia, but did not change markedly over time in those with clearance of viremia. For individuals with persistent viremia, the rate of nonsynonymous substitutions within the HVR1 region (2.76×10-3±1.51×10-3) predominated and gradually increased, as compared with that in the E1 and E2 regions outside HVR1 (0.23×10-3±0.15×10-3, 0.50×10-3±0.10×10-3). By contrast, the rates of both nonsynonymous and synonymous substitutions for the E1 and E2 regions including HVR1 were consistently lower in individuals with clearance of viremia. CONCLUSION: HCV persistence is associated with a complexity quasispecies and positive selection of HVR1 by the host immune system.     

Evolution of hepatitis C viral quasispecies after liver transplantation

BACKGROUND & AIMS: To determine whether HCV quasispecies diversity correlated positively with liver disease progression after orthotopic liver transplantation (OLT). METHODS: We studied 11 patients undergoing OLT for HCV-related cirrhosis with recurrent hepatitis C in 2 groups according to the stage of hepatic fibrosis on follow-up. The mild group had stage 1 or 2 fibrosis; the severe group, stage 3 or 4 fibrosis. HCV quasispecies diversity was assessed by cloning and sequencing in pretransplantation and posttransplantation serum samples. RESULTS: In the mild fibrosis group, intrasample hypervariable region 1 (HVR1) genetic distance and nonsynonymous substitutions increased after OLT, whereas in the severe fibrosis group, these parameters decreased in follow-up. In contrast, intrasample diversity progressed similarly in both groups in the adjacent sequences flanking HVR1. There was an inverse correlation between the stage of hepatic fibrosis and amino acid complexity after OLT. Among all patients, the estimated rate of amino acid change was greater initially and became more constant after 36 months. CONCLUSIONS: After OLT, a more complex HCV HVR1 quasispecies population was associated with mild disease recurrence. Among those patients with severe recurrent hepatitis C, HCV appeared to be under greater immune pressure. The greatest change in viral amino acid sequences occurred in the first 36 months after OLT.     

Analysis of hepatitis C virus quasispecies transmission and evolution in patients infected through blood transfusion

BACKGROUND & AIMS: Studies on hepatitis C virus (HCV) quasispecies dynamics in the natural course of infection are rare owing to difficulties in obtaining samples from the early phase of infection. METHODS: We studied 15 patients from the Transfusion-Transmitted Viruses Study who seroconverted to anti-HCV after receiving infected blood. Follow-up serum samples were collected every 2-3 weeks for 6 months, at 10 months, and at 11-16 years. Viral quasispecies in the second envelope hypervariable region 1 (E2/HVR1) and 5' untranslated region (5'UTR) were analyzed with single-strand conformation polymorphism (SSCP) and heteroduplex mobility assay (HMA). RESULTS: Seven patients cleared infection within 7-24 weeks (mean, 14.0 wk) and 3 patients eventually became anti-HCV negative. In 6 patients with resolving hepatitis the SSCP band pattern remained stable, whereas in one patient minor changes appeared before clearance. In contrast, in all 8 patients progressing to chronicity, major changes in the E2/HVR1 quasispecies developed at 8-22 weeks (mean, 13.1 wk). Shannon entropy and medium mobility shift values derived from HMA gels remained stable in patients with resolving hepatitis but changed in those who developed chronic infection. Only 2 patients showed minor changes in 5'UTR. A decrease in E2/HVR1 complexity at the time of transmission (bottleneck) was found in 5 patients altogether. CONCLUSIONS: Changes in E2/HVR1 quasispecies 8-22 weeks after infection, likely caused by mounting immune pressure, were predictive of ensuing chronic infection, whereas stability was associated with resolution. Our study also showed that composition of HCV quasispecies may be preserved during transmission from host to host.     

HCV selection and HVR1 evolution in a chimpanzee chronically infected with HCV-1 over 12 years.

Aim: To study hepatitis C virus (HCV) selection and hypervariable region-1 (HVR1) evolution in a chimpanzee chronically infected with HCV-1 over 12 years after inoculation with a human factor VIII concentrate contaminated with HCV. Methods: From the inoculum, the earliest chimpanzee plasma and 12 annual plasma samples, HCV fragments including HVR1 were amplified followed by cloning and sequencing. Results: Five HCV subtypes - 1a, 1b, 2a, 2b, 3a - and multiple 1a strains were identified in the inoculum. Two 1a strains were found in the earliest chimpanzee sample, while a single HCV-1 strain was detected in the 12 annual samples. None of the chimpanzee sequences were identical to those found in the inoculum. Over 12 years, HVR1 patterns changed irregularly, but a few patterns showed identical nucleotide or amino acid sequences. In the last three years, the variety of HVR1 patterns decreased, while the proportion of major patterns increased. These corresponded to a higher virus load and a lower number of amino acid substitutions. Simultaneously, the HVR1 sequences became more similar to the consensus sequence of the 1a subtype. Conclusion: HCV selection was observed from the inoculum to the inoculated chimpanzee and from the early acute hepatitis to the persistent chronic infection. The selection occurred at three levels: among subtypes after transmission, among isolates during acute hepatitis and among quasispecies in chronic infection.     

Prevalence and characterization of hepatitis C virus genotype 4 in Japanese hepatitis C carriers

Hepatitis C virus (HCV) can be classified into six major genotypes, the prevalences of which differ around the world. In Japan, the main genotypes are HCV 1 and HCV 2; others are found only rarely. Little is known about the prevalence in Japan of HCV genotype 4 which, is found frequently in North and Central Africa and the Middle East. Thus, we conducted a study to clarify distribution of HCV genotype 4 and the clinical demographics of patients with HCV genotype 4 in Japan. We examined HCV genotypes in 899 Japanese individuals with HCV viremia living in Aichi Prefecture, including 63 hemophiliacs. Four patients (0.4%) were infected with HCV genotype 4. All four of these patients were male hemophiliacs who had received clotting factors from foreign countries. Three patients were co-infected with human immunodeficiency virus (HIV); none were co-infected with GB virus-C/hepatitis G virus. Phylogenetic analysis of the El region indicated that all four patients were infected with subtype 4a. This subtype is related genetically to a subtype previously reported in Japanese and Italian hemophiliacs. HCV genotype 4 is indeed rare in Japan and may be detected only among hemophiliacs who have received inactivated clotting factor concentrates from foreign countries.     

Occurrence of identical hypervariable region 1 sequences of hepatitis C virus in transfusion recipients and their respective blood donors: divergence over time

A total of 240 stored serum specimens from 30 transfusion recipients and 120 blood donors from the Transfusion-Transmitted Viruses Study (TTVS) were evaluated with the objective of establishing transmission of hepatitis C virus (HCV) by specific blood donors. Phylogenetic analysis of hypervariable region 1 (HVR1) and HCV genotyping were performed on the genomic region encoding amino acids 329 to 410. Amino acid distances between HVR1 sequences were calculated by the Kimura formula. Bootstrap analysis of HVR1 sequences provided support for linking recipients to specific donors. Linear regression analysis showed no differences between donor and recipient HVR1 sequences 7.9 weeks posttransfusion, but donor and recipient sequences diverged thereafter (r = 0.690). The initial lag phase in the evolution of HVR1 in the infected recipient was attributed to the time required to mount host immunologic defenses against the virus. Within-recipient divergence in HVR1 was determined from analyses of serial specimens collected within 2 weeks after the alanine transaminase peak, at the end of the original study (1974-1979), and in the follow-up study (1987-present). HVR1 remained invariant over a period of 6.7 to 9.5 days (95% CI) during acute infection. Within-patient divergence in HVR1 increased over a period of 11 to 15 years (r = 0.771), reaching the degree of divergence observed between unlinked subjects. In cases in which transfusion involved more than one HCV subtype, only one of the HCV subtypes established infection in the recipient. Subtype-specific differences in HVR1 were shown.     

慢性乙型肝炎患者病毒准种特性的初步研究

目的 探讨慢性乙型肝炎(CHB)患者血清中乙型肝炎病毒(HBV)是否存在准种特性,并初步了解HBV准种的复杂性和遗传差异性。 方法用多聚酶链反应(PCR)技术从1例CHB患者血清中扩增HBV整个PreC/C基因区,然后用T载体克隆PCR产物,从转化阳性的克隆中随机选出34个克隆进行核酸序列分析。结果在34个测序克隆中发现存在28种不同的序列,序列间差异性介于0.2％～2.1％。变异位点分布于整个区域。所有序列nt1896位均无变异。 结论 在CHB患者体内HBV存在复杂的准种特性。     

Dynamics of hepatitis C virus quasispecies turnover during interferon-alpha treatment

Summary. Interferon- α (IFN) has been shown to accelerate the evolution of hepatitis C virus (HCV) variants (quasispecies) in nonresponder patients. Different sensitivities of HCV variants to IFN are discussed as a possible mechanism. In the present study, quasispecies were investigated in detail by a newly established and validated direct solid-phase sequencing of the hypervariable region 1 (HVR1), during the initial 3 months of IFN therapy. According to single strand conformation polymorphism (SSCP) analysis, 14 of 26 (54%) virologic nonresponders with quasispecies evolution were identified. Six representative patients with SSCP changes were selected for frequent HVR1 sequencing. Pre-existing variants were identified by cloning and sequencing of the pretreatment serum HCV sample. In one patient the major type was substituted by a minor variant within 3 days of treatment while in the majority of patients the pretreatment major type did not decline before days 26–57 of treatment. Total serum HCV RNA levels remained constant in all patients. In conclusion, although quasispecies evolution during IFN therapy is common, it occurs after a wide range of time intervals after initiation of therapy. Thus, nonresponse to IFN cannot exclusively be explained by changes in the quasispecies.     

Evaluation of cross-reactive antibody response to HVR1 in chronic hepatitis C

AIM:To evaluate the presence and cross-reactive anti-bodies against hypervariable region 1(HVR1) in hepatitis C virus(HCV) infected patients and its relationship with the progression of the disease.METHODS:Sixteen representative HVR1 proteins selected from a unique set of 1600 natural sequences were used to semiquantitate the cross-reactivity of HVR1 antibodies in the sera of HCV patients.Fifty-five chronic HCV patients including 23 with asymptomatic mild hepatitis,18 with chronic hepatitis and 16 with live...     

Relationship between interferon therapy and variability in nonstructural gene 5b of hepatitis C virus

The hepatitis C virus (HCV) quasispecies nature in the hypervariable region (HVR) has been reported and found to relate to the effectiveness of interferon (IFN) treatment. However, the quasispecies nature in the nonstructural (NS) 5b region remains to be addressed. To examine this characterization and relationship with IFN therapy, we sequenced six independent HCV clones from each of eight patients. The eight patients were classified as responders or nonresponders to IFN. In the four responders, we found one to three isolates in each of the six clones. In the nonresponders, the six clones consisted of four, five, six, and six isolates, respectively. Compared the (NS) 5b genes of the isolates obtained from the patients with that of the reported hepatitis C virus HC-C2 or HC-J6 isolate the ratio of nonsynonymous to total substitutions ranged from 17.61% to 30.95% in the responders and from 33.11% to 76.47% in the nonresponders. We also compared posttreatment with pretreatment sequences. The average number of varying amino acids ranged from 5.5 to 9.0 in isolates remaining after IFN treatment and from 4.3 to 5.5 in the isolates that disappeared with IFN treatment. Two changed amino acids (glycine to arginine and valine to isoleucine) (compared with the pretreatment clones) were found in the posttreatment clones of one of the responders and one amino acid change (valine to alanine) was found in another responder. These results suggest that the NS5b quasispecies correlates with IFN treatment effectiveness. These results also implied that the heterogeneity in different hierarchical strata has a common impact on IFN treatment, making infected patients resistant to IFN. Our study also provides evidence that HCV elimination and mutation may occur simultaneously during IFN therapy. Received Sept. 19, 1997; accepted Feb. 27, 1998