Ultrasensitive Amplification Refractory Mutation System Real-Time PCR (ARMS RT-PCR) Assay for Detection of Minority Hepatitis B Virus-Resistant Strains in the Era of Personalized Medicine

Ntziora, Fotinie; Paraskevis, Dimitrios; Haida, C.; Manesis, Emanuel K.; Papatheodoridis, George V.; Manolakopoulos, Spilios; Elefsiniotis, Ioannis; Karamitros, Timokratis; Vassilakis, Alexis; Hatzakis, Angelos

doi:10.1128/jcm.00936-13

Cited by 15 publications

(11 citation statements)

References 28 publications

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“…Beyond providing information on overall risk for HCC, these findings suggest that the mutation score would help to predict short‐term risk, particularly in those who have preclinical HCC or are at high risk and will be diagnosed with HCC in the next 5 years. So far, different real‐time PCR platforms and methods for rapid quantification of HBV mutants associated with antiviral resistance have been published . Such assay systems are capable of detecting mutations at low amount of DNA (e.g., HBV‐DNA <100 copies/mL) and as few as <5% of mutant among WT virus.…”

Section: Discussionmentioning

confidence: 99%

Progressive accumulation of mutations in the hepatitis B virus genome and its impact on time to diagnosis of hepatocellular carcinoma

et al. 2016

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To evaluate how hepatitis B virus (HBV) genetic variation affected progression from chronic carrier state to hepatocellular carcinoma (HCC), we analyzed HBV full-length sequences in blood obtained <1-20 years before diagnosis from 117 HCC cases and 118 controls nested in a cohort of 4,841 HBV carriers, for whom HBV genotypes B and C are predominant. The relationship between each viral single-nucleotide polymorphism (SNP) and HCC development was assessed using ordinal logistic models according to five periods of time to diagnosis (TTD). Thirty-one HBV-SNPs showed significant association with TTD after adjustment for HBV genotype, 24 of which could also be analyzed with an extended analysis on the full-length data in conjunction with 512 partial sequences (nucleotides 2,436-1,623) from the cohort. The obtained 10 robust candidate HBV-SNPs (P £ 0.0304), which showed odds ratios ranging from 1.89 to 8.68, were further confirmed in 163 GenBank HBV-HCC sequences from nine Asia regions, assayed after HCC diagnosis, representing the end stage of progressive hepatic diseases. The prevalence of these HBV-SNPs and their cumulative number, presented in terms of mutation score, increased with time approaching HCC diagnosis, with an odds ratio of 2.17, 4.21, 8.15, and 19.15, respectively, for the mutation score of 1, 2, 3, and 4 versus 0. The mutation score for predicting short-term HCC risk outperformed other factors, including HBV-DNA levels, viral genotype, and various combinations of risk factors, and revealed increasing accuracy with shorter TTD (<4.5 years before diagnosis: area under the curve 5 0.83-0.89; sensitivity 5 72.7%-94.1%; specificity 5 58.3%-70.5%; conditioned on optimized cutoff for genotype B and C, respectively). Conclusions: Identifying and tracking viral mutations is important for monitoring hepatitis B progression and early detection of HCC. (HEPATOLOGY 2016;64:720-731) T he pathogenesis of hepatitis B virus (HBV)-related hepatocellular carcinoma (HCC) is still unclear, but believed to involve complicated viralhost interactions.(1-4) Several host and viral factors have been associated with progression from chronic HBV carrier state to HCC.(3-8) HBV-related factors include viral load and viral genotypes and mutations. (3,4,(6)(7)(8) HBV replicates by reverse transcription with a viral polymerase lacking proofreading ability, allowing mutations to occur during chronic infection. Detection of naturally occurring HBV mutations has important implications for antiviral therapy and hepatic disease progression. (9,10) The size of the HBV genome is approximately 3.2 kilobases, with four overlapping open-reading

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Section: Discussionmentioning

confidence: 99%

Progressive accumulation of mutations in the hepatitis B virus genome and its impact on time to diagnosis of hepatocellular carcinoma

et al. 2016

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“…Therefore, immunological pressure to induce amino acid/nucleotide mutations seems not to occur. Although previous studies have analysed viral sequences using Sanger sequencing, this method cannot detect minor populations that are less than 20% of the total population [52, 53]. Further studies are needed to confirm the association between HBeAg-positive status and the G145R mutant by sensitive detection systems or deep sequencing.…”

Section: Discussionmentioning

confidence: 99%

Evaluation of the G145R Mutant of the Hepatitis B Virus as a Minor Strain in Mother-to-Child Transmission

et al. 2016

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The role of the hepatitis B virus (HBV) mutant G145R, with a single change in amino acid 145 of the surface protein, as a minor population remains unknown in mother-to-child transmission. The minor strain as well as the major strain of the G145R mutant were evaluated in three cohorts using a locked nucleic acid probe-based real-time PCR. The breakthrough cohort consisted of children who were born to HBV carrier mothers and became HBV carriers despite immnoprophylaxis (n = 25). The control cohort consisted of HBV carriers who had no history of receiving the hepatitis B vaccine, hepatitis B immunoglobulin or antiviral treatment (n = 126). The pregnant cohort comprised pregnant women with chronic HBV infection (n = 31). In the breakthrough cohort, 6 showed positive PCR results (major, 2; minor, 4). In the control cohort, 13 showed positive PCR results (major, 0; minor, 13). HBeAg-positive patients were prone to have the G145R mutant as a minor population. Deep sequencing was performed in a total of 32 children (PCR positive, n = 13; negative, n = 19). In the breakthrough cohort, the frequency of the G145R mutant ranged from 0.54% to 6.58%. In the control cohort, the frequency of the G145R mutant ranged from 0.42% to 4.1%. Of the 31 pregnant women, 4 showed positive PCR results (major, n = 0; minor, n = 4). All of the pregnant women were positive for HBeAg and showed a high viral load. Three babies born to 3 pregnant women with the G145R mutant were evaluated. After the completion of immunoprophylaxis, 2 infants became negative for HBsAg. The remaining infant became negative for HBsAg after the first dose of HB vaccine. G145R was detected in one-fourth of the children with immunoprophylaxis failure. However, the pre-existence of the G145R mutant as a minor population in pregnant women does not always cause breakthrough infection in infants.

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“…In contrast to other methods used to detect resistance-associated substitutions, which require separate specific primers for G1a and G1b[14-16] our technique can identify a single point mutation using one set of primers for all G1 samples. Simple hybridization is then carried out, in this case with the specific probe that differentiated Q from K at a position 80.…”

Section: Discussionmentioning

confidence: 99%

New real-time-PCR method to identify single point mutations in hepatitis C virus

Chen

Belmonte

Buti

et al. 2016

WJG

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AIMTo develop a fast, low-cost diagnostic strategy to identify single point mutations in highly variable genomes such as hepatitis C virus (HCV).METHODSIn patients with HCV infection, resistance-associated amino acid substitutions within the viral quasispecies prior to therapy can confer decreased susceptibility to direct-acting antiviral agents and lead to treatment failure and virological relapse. One such naturally occurring mutation is the Q80K substitution in the HCV-NS3 protease gene, which confers resistance to PI inhibitors, particularly simeprevir. Low-cost, highly sensitive techniques enabling routine detection of these single point mutations would be useful to identify patients at a risk of treatment failure. LightCycler methods, based on real-time PCR with sequence-specific probe hybridization, have been implemented in most diagnostic laboratories. However, this technique cannot identify single point mutations in highly variable genetic environments, such as the HCV genome. To circumvent this problem, we developed a new method to homogenize all nucleotides present in a region except the point mutation of interest.RESULTSUsing nucleotide-specific probes Q, K, and R substitutions at position 80 were clearly identified at a sensitivity of 10% (mutations present at a frequency of at least 10% were detected). The technique was successfully applied to identify the Q80K substitution in 240 HCV G1 serum samples, with performance comparable to that of direct Sanger sequencing, the current standard procedure for this purpose. The new method was then validated in a Catalonian population of 202 HCV G1-infected individuals. Q80K was detected in 14.6% of G1a patients and 0% of G1b in our setting.CONCLUSIONA fast, low-cost diagnostic strategy based on real-time PCR and fluorescence resonance energy transfer probe melting curve analysis has been successfully developed to identify single point mutations in highly variable genomes such as hepatitis C virus. This technique can be adapted to detect any single point mutation in highly variable genomes.

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Ultrasensitive Amplification Refractory Mutation System Real-Time PCR (ARMS RT-PCR) Assay for Detection of Minority Hepatitis B Virus-Resistant Strains in the Era of Personalized Medicine

Cited by 15 publications

References 28 publications

Progressive accumulation of mutations in the hepatitis B virus genome and its impact on time to diagnosis of hepatocellular carcinoma

Progressive accumulation of mutations in the hepatitis B virus genome and its impact on time to diagnosis of hepatocellular carcinoma

Evaluation of the G145R Mutant of the Hepatitis B Virus as a Minor Strain in Mother-to-Child Transmission

New real-time-PCR method to identify single point mutations in hepatitis C virus

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