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.     

Comparison of serum and liver hepatitis C virus quasispecies in HCV-related hepatocellular carcinoma

Background/Aims: The hepatitis C virus (HCV) genome consists of quasispecies populations of heterogeneous variants, especially in the hypervariable region. To assess the profiles of viral quasispecies in HCV-related hepatocellular carcinoma, we studied the viral population patterns in serum and liver tissues of 13 HCV-positive patients with hepatocellular carcinoma developed on cirrhotic and non-cirrhotic livers (5 and 8 cases, respectively).Methods: HCV genome heterogeneity was analyzed by polymerase chain reaction-mediated single-strand conformation polymorphism analysis, which showed multiple DNA bands representing different hypervariable region sequences.Results: The HCV populations were different between tumorous and nontumorous tissues in hepatocellular carcinomas with cirrhosis and in without cirrhosis. At least one or more than one common band was detected in both compartments in all but one case. No significant differences in the complexity of HCV quasispecies were found in hepatocellular carcinoma with or without underlying cirrhosis. Comparison of the HCV quasispecies profiles in serum and liver tissues showed a different distribution of HCV variants between these two compartments in patients. In four cases, both common and compartmentalized sequences were detected, whereas in two cases, both without cirrhosis, the HCV population in serum was completely different from that found in the liver.Conclusions: These results suggest that the complexity of HCV populations is influenced by the presence of hepatocellular carcinoma rather than by the severity of the underlying chronic liver disease. The different quasispecies patterns found in serum and liver may reflect different biological properties of circulating and intrahepatic HCV particles or the existence of extrahepatic sites of replication.     

Frequent compartmentalization of hepatitis C virus with leukocyte-related amino acids in the setting of liver transplantation

BACKGROUND: Nonrandom distribution of hepatitis C virus (HCV) quasispecies (compartmentalization between blood plasma and leukocytes) suggests the presence of HCV leukotropic variants. HCV compartmentalization in the setting of liver transplantation (LT) is poorly understood. To study HCV leukotropic variants, we investigated the evolution of HCV compartmentalization after immunosuppression in liver transplant recipients. METHODS: Plasma and peripheral blood mononuclear cell (PBMC) samples were collected from 5 liver transplant recipients before and after LT. We used clone sequencing to analyze the hypervariable region 1 (HVR1)-E2(384-419) region, which plays a key role in HCV entry and the induction of neutralizing responses, and assessed compartmentalization through phylogenetic analyses and Mantel's test. RESULTS: Compartmentalization was frequent in the LT setting. HCV quasispecies were more homogeneous after LT in both the plasma and PBMC compartments, with a significant decrease in quasispecies complexity (P = .003) and genetic distances (P = .004) after transplantation. Our analysis identified 8 PBMC-related amino acid residues in HVR1. CONCLUSIONS: HCV compartmentalization between plasma and PBMCs and the emergence of leukotropic variants could be potentiated by immunosuppression in liver transplant recipients. The identification of defined leukotropic variants may contribute to the understanding of virus-host interactions after transplantation.     

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.     

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.     

Expression of hepatitis C virus hypervariable region 1 and its clinical significance

AIM, To explore the properties of hypervariable region 1(HVR1) in the envelope 2 gene of hepatitis C virus by analyzing the reactivity of HVR1 fusion proteins from different Chinese HCV strains with sera of patients with chronic hepatitis C and by comparing their reactivity between interferon therapy responders and non-responders.METHODS: Gene fragments of HVR1 of four HCV strains(three genotype 1b and one genotype 2a) were amplified from pGEMT-E2 plasmids and sub-cloned into pQE40 vectors respectively to construct recombinant expression plasmids which expressed HVR1 fused downstream to DHFR in Escherichia coli strain TG1. The purified DHFR-HVR1 proteins were then used to detect the anti-HVR1 antibodies in 70 serum samples of patients with chronic hepatitis C.RESULTS: Four DHFR-HVR1 fusion proteins were successfully expressed in E.coli (320-800ug fusion proteinsper 100ml culture). Each fusion protein (SH1b, BJ1b,SD1b and SD2a) reacted with 72.8% (51/70), 60% (42/70), 48.6% (34/70), and 58.6% (41/70) of the anti-HCV positive patients‘ sera respectively by ELISA. 57.1% (4/7) of non responders reacted with all four HVR1 fusion proteins, while only 15.3% (2/13) of responders reacted with all of them. The O.D. values of sera from IFN therapy responders were significantly higher than those of nonresponders (P&lt;0.05).CONCLUSION: The selected HVR1 fusion proteins expressed in E. coil can broadly react with HCV-infected patients‘ sera. The intensity and/or quality of the immune response against HCV may be a critical factor determining the response to interferon treatment. With the evolution of virus strains, anti-HVR1 antibodies can not neutralize all the quasispecies. A polyvalent and high immunogenic vaccine comprising a mixture of several HVR1 sequences that cover the reactivity of most HCV isolates may be useful.     

Post-transplant quasispecies pattern remains stable over time in patients with recurrent cholestatic hepatitis due to hepatitis C virus

BACKGROUND/AIMS: Several studies have shown that cholestatic recurrent hepatitis is associated with very high HCV RNA loads in liver transplant recipients. The aim of this study was to investigate whether a correlation exists between cholestatic hepatitis post-transplant and the population of viral quasispecies. METHODS: One hundred and nine serial sera samples were tested from 15 recurrent HCV patients. Four of these patients showed severe cholestatic recurrent hepatitis, 11 patients demonstrated non-cholestatic recurrent hepatitis post-transplant. Quasispecies were detected by RT-PCR amplification of the HVR1 followed by single-stranded conformational polymorphism analysis. RESULTS: Forty-one samples from four cholestatic patients were tested. All four patients showed very stable quasispecies patterns post-transplant. One cholestatic patient also showed a stable quasispecies band pattern following retransplantation, again associated with severe cholestatic hepatitis. Sixty-eight samples were tested from the 11 non-cholestatic patients. In contrast, these patients showed significantly more quasispecies bands than the cholestatic patients. The noncholestatic patients also displayed fluctuating band patterns post-transplant. Serial samples were tested after retransplantation in one non-cholestatic patient, with a fluctuating pattern again seen. There was a negative correlation between the HCV RNA load in serum and the number of quasispecies bands. CONCLUSIONS: Stable hepatitis C viral quasispecies associated with persistently high viral load in post-transplant cholestatic hepatitis suggest that viral escape from immune pressures may play a role in the pathogenesis of this condition.     

Longitudinal analysis of hepatitis C virus replication and liver fibrosis progression in renal transplant recipients

The pathogenesis of hepatitis C virus (HCV) infection was investigated by analysis of changes in viral and histologic parameters in 36 renal transplant recipients who were infected with HCV before transplantation. Each patient was classified according to development of liver fibrosis as assessed by 2 liver biopsies done 45 and 81 months after transplantation: 13 had progressing liver fibrosis (fibrosers) and 23 did not (nonfibrosers). All developed high-titer posttransplant viremia with a significant increase of 1.2 log RNA copies/mL. There were no significant differences in the increases in serum HCV RNA or genotype distributions in fibrosers and nonfibrosers. The hypervariable region (HVR)-1 of the HCV genome was analyzed by cloning and sequencing 20 clones per sample from 5 fibrosers and 5 nonfibrosers. Comparison of samples revealed that liver fibrosis progression was significantly associated with slower HVR-1 quasispecies diversification, suggesting the selection of more aggressive variants in fibrosers.     

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.     

The minimum number of clones necessary to sequence in order to obtain the maximum information about hepatitis C virus quasispecies: a comparison of subjects with and without liver cancer

Most studies of hepatitis C virus (HCV) quasispecies have reported the results of sequencing only three to five clones per sample. The possibility that sequencing so few clones might not provide a representative picture of the quasispecies present in a sample has never been evaluated. The present study was conducted to evaluate whether sequencing greater numbers of clones results in better information about the HCV quasispecies number and distribution, and to compare the HCV quasispecies in liver cancer cases and controls. RNA was extracted from serial serum samples from six subjects with HCV-associated liver cancer and 11 age- and sex-matched HCV-infected controls without liver cancer. The hypervariable region 1 (HVR1) of the HCV genome was amplified, cloned, and sequenced. For further studies of 12 serum samples from two liver cancer cases and two matched controls, successive groups of 10 additional clones were sequenced up to a total of 50 clones per serum sample. When only 10 clones were sequenced from each specimen, no consistent differences were seen between the number of HCV quasispecies in the six liver cancer cases and the 11 controls. However, sequencing 40 clones from each of 12 samples from two liver cancer cases and two controls revealed a greater number of quasispecies in liver cancer cases than in controls. Testing an additional 10 clones (50 clones per sample) did not significantly increase the number of quasispecies detected.     

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.     

Hepatitis cRNA quasispecies complexity in patients with alcoholic liver disease.

Alcohol abuse is described as a major cofactor in the development of hepatitis C (HCV) associated liver disease and may play a role in the outcome of interferon-based treatment interventions. The association between HCV viral heterogeneity and alcohol has not been previously described. This study was designed to evaluate the quasispecies nature of the HCV population in patients with compensated and decompensated alcoholic liver disease, to test the hypothesis that alcoholics have greater complexity than matched nonalcoholic controls. A nonisotopic heteroduplex complexity assay (HCA) was first validated by comparison with results of quasispecies complexity determined by subcloning and sequencing of amplicon products from the E2/NS1 hypervariable coding region (HVR). Subsequently, this methodology was applied to comparison of 20 compensated (Child's-Pugh A) and decompensated (Child's-Pugh B/C) alcoholic and 20 nonalcoholic controls. The complexity of the HVR, as well as the 5' Untranslated (5'UT) and the NS5b coding domains were evaluated. The HCA methodology provided a reasonable semiquantitative measure of HCV RNA quasispecies variability compared with subclone sequence homology comparison. Overall, alcoholic patients had greater quasispecies complexity (2.65 bands) than nonalcoholic controls (1.6 bands; P =.01). Subset analysis revealed that compensated alcoholic patients had a mean of 3.1 homo/heteroduplex bands per sample whereas Child's-Pugh B/C alcoholics showed intermediate complexity. A similar quasispecies complexity difference was seen in the 5'UTR, but not in the NS5b coding domain. Quasispecies complexity was not associated with viral titer, complementary DNA concentration, or genotype. The differences in quasispecies complexity may help explain reports of poor interferon responsiveness in alcoholic patients.     

Effect of ribavirin and amantadine on early hepatitis C virus RNA rebound and clearance in serum during daily high-dose interferon

The early rebound in serum HCV RNA during HCV dynamic studies with high-dose interferon may be due to de novo infection with interferon escape quasispecies. We simultaneously measured serum alanine aminotransferase (ALT) and HCV RNA at rapid intervals in chronic HCV liver disease patients during interferon therapy alone or in combination with ribavirin and amantadine. HCV RNA declined rapidly between 0 and 48 hr in all patients (phase 1). Ribavirin and amantadine significantly increased this phase 1 decline. In all four monotherapy patients with viral rebound, the increasing levels of HCV RNA were associated with a parallel increase in serum ALT, consistent with a hepatitis flare or de novo infection. By contrast, in the four monotherapy patients without viral rebound, and all eight patients receiving combination therapy, the slow progressive phase two decay was associated with declining serum ALT levels. Ribavirin or ribavirin and amantadine significantly and incrementally increased the phase two HCV RNA clearance. Dynamic sequencing in the HVR1 region in one rebound patient confirmed the potential for rapid evolutionary changes during interferon therapy. These preliminary data suggest that early viral rebound might be associated with de novo infection with interferon escape HCV variants, which in turn are attenuated by ribavirin and amantadine.     

Evolution of hepatitis C viral quasispecies and hepatic injury in perinatally infected children followed prospectively

Perinatal infection with hepatitis C virus (HCV) is characterized by a wide range of alanine aminotransferase (ALT) levels. The mechanisms responsible for this variability are unknown. We examined whether the evolution of the HCV quasispecies was associated with different ALT profiles in perinatally infected children. Sequences within HCV envelope 1 and 2 genes, inclusive of the hypervariable region 1, the viral load, and the nascent humoral immunity were analyzed in serial serum samples from 12 perinatally infected children prospectively followed for a median of 53 months. These patients were selected to represent two different ALT patterns during the first year of life: 6 had high levels (maximum values ranging from 4.2 to 30 times the normal upper limit), and 6 had normal or slightly elevated levels (< 2 times the normal upper limit). Two patterns of viral evolution were identified according to the ALT profiles. Biochemical evidence of hepatic injury was invariably associated with a mono- or oligoclonal viral population, whereas mild or no liver damage correlated with the early emergence of a heterogeneous viral quasispecies. Consistent with selective immune pressure, amino acid changes occurred almost exclusively within the hypervariable region 1 and were temporally associated with antibody seroconversion; at this time, the difference in genetic diversity between the two groups was highly significant (P = 0.002). The two patterns of viral evolution persisted over time and did not correlate with viral load or genotype. Our study demonstrates that, in perinatally infected children, the evolution of HCV quasispecies correlates with hepatic injury. The sequences reported in this paper have been deposited in the GenBank database (accession nos. DQ 504441-DQ 507112).     

单链构相多态性分析丙型肝炎病毒1b型准种及变异研究

目的 研究丙型肝炎病毒准种及其变异情况；同时探索准种变异规律，是否干扰素对准种具有选择作用。方法 选取５例慢性丙型肝炎患者阳性血清，ＰＣＲ法分别扩增５′Ｃ非编码区（５′ＮＣＲ）、高变区（ＨＶＲ１）、非结构蛋白５Ａ（ＮＳ５Ａ）部分片断，单链构相多态性（ＳＳＣＰ）法测定其准种数量，同时动态观察２３例丙型肝炎患者１ｂ型ＮＳ５Ａ准种变化情况，探讨是否具有对干扰素敏感性不同的准种及干扰素对准种是否具有选择作     

Antibody-selected mimics of hepatitis C virus hypervariable region 1 activate both primary and memory Th lymphocytes

An ideal strategy that leads to a vaccine aimed at controlling viral escape may be that of preventing the replication of escape mutants by eliciting a T- and B-cell repertoire directed against many viral variants. The hypervariable region 1 (HVR1) of the putative envelope 2 protein that presents B and T epitopes shown to induce protective immunity against hepatitis C virus (HCV), might be suitable for this purpose if its immunogenicity can be improved by generating mimics that induce broad, highly cross-reactive, anti-HVR1 responses. Recently we described a successful approach to select HVR1 mimics (mimotopes) incorporating the variability found in a great number of viral variants. In this report we explore whether these mimotopes, designed to mimic B-cell epitopes, also mimic helper T-cell epitopes. The first interesting observation is that mimotopes selected for their reactivity to HVR1-specific antibodies of infected patients also do express HVR1 T-cell epitopes, suggesting that similar constraints govern HVR1-specific humoral and cellular immune responses. Moreover, some HVR1 mimotopes stimulate a multispecific CD4(+) T-cell repertoire that effectively cross-reacts with HVR1 native sequences. This may significantly limit effects as a T-cell receptor (TCR) antagonist frequently exerted by natural HVR1-variants on HVR1-specific T-cell responses. In conclusion, these data lend strong support to using HVR1 mimotopes in vaccines designed to prevent replication of escape mutants.     

HCV quasispecies evolution: association with progression to end-stage liver disease in hemophiliacs infected with HCV or HCV/HIV

Patients with inherited bleeding disorders who received clotting factor concentrates before 1987 have high rates of hepatitis C virus (HCV) or HCV/HIV infection. We evaluated HCV quasispecies evolution in longitudinally collected specimens comparing those from patients with progression to end-stage liver disease (ESLD; cases) to those with compensated chronic hepatitis (controls). Plasma samples were obtained from the National Cancer Institute Multicenter Hemophilia Cohort Study. Controls were matched for age, sex, infection duration, and presence/absence of HIV. Samples from early infection were compared to those obtained after onset of ESLD in the cases. The first hypervariable (HVR1) and core proteincoding regions were amplified, subcloned, and sequenced. Complexity and diversity were determined. More than 700 sub-clones from 10 pairs of patients (8 with HIV) followed over approximately 9.3 years were evaluated. HVR1 complexity narrowed over time in the cases, whereas it increased in controls (P = .01). Similar trends were observed for diversity within HVR1 and the core region (P = .04). HCV-infected patients with inherited bleeding disorders undergo quasispecies evolution over time. Evolution patterns differ for progressors and nonprogressors. Further understanding of these mechanisms may help identify factors related to progression rate and treatment response.     

Nucleotide sequence diversity of hypervariable region 1 of hepatitis C virus in Japanese hemophiliacs with chronic hepatitis C and patients with chronic posttransfusion hepatitis C

Hemophiliac patients with chronic hepatitis C might be exposed to and become infected with multiple hepatitis C virus (HCV) strains by means of frequent use of blood products, even if they are infected with a single subtype of HCV. To test this hypothesis, we analyzed the genetic diversity of hypervariable region 1 (HVR1) of HCV in chronically infected hemophiliacs and in patients with chronic posttransfusion hepatitis with a single HCV inoculation. The diversity of nucleotide sequences in HVR1 of serum HCV RNA was compared between 21 hemophiliacs infected with a single HCV subtype and 16 patients with posttransfusion HCV infection. The number of HCV quasispecies was determined by fluorescence single-strand conformation polymorphism (SSCP) analysis. Direct sequencing was performed to determine the diversity in HVR1. The number of HCV quasispecies in the blood was 5.2 +/- 2.0 clones in hemophiliacs and 4.0 +/- 2.3 clones in posttransfusion patients, a nonsignificant difference (P = .0943). The number of sites at which the nucleotide was not homogenous in all quasispecies was significantly higher in hemophiliacs (13.0% +/- 7.4%) than in posttransfusion hepatitis patients (2.7% +/- 2.8%; P < .0001). In conclusion, there was a high degree of genetic variation in HVR1 of HCV specimens isolated from hemophiliacs compared with posttransfusion patients. These findings indicate the possibility that multiple infections of a single HCV subtype may occur among patients frequently exposed to blood products; single HCV subtypes may therefore derive from multiple origins.