Detection of Cytomegalovirus Drug Resistance Mutations by Next-Generation Sequencing

Sahoo, Malaya K.; Lefterova, Martina I.; Yamamoto, Fumiko; Waggoner, Jesse J.; Chou, Sunwen; Holmes, Susan; Anderson, Matthew W.; Pinsky, Benjamin A.

doi:10.1128/jcm.01605-13

Cited by 99 publications

(88 citation statements)

References 59 publications

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“…At nucleotide positions where no variant was detected, the noise value was considered to be zero (20). Error rates for the plasmid clones were calculated as the mean percent noise reported for all sequenced positions (21).…”

Section: Methodsmentioning

confidence: 99%

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Limited Variation in BK Virus T-Cell Epitopes Revealed by Next-Generation Sequencing

et al. 2015

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f BK virus (BKV) infection causing end-organ disease remains a formidable challenge to the hematopoietic cell transplant (HCT) and kidney transplant fields. As BKV-specific treatments are limited, immunologic-based therapies may be a promising and novel therapeutic option for transplant recipients with persistent BKV infection. Here, we describe a whole-genome, deep-sequencing methodology and bioinformatics pipeline that identify BKV variants across the genome and at BKV-specific HLA-A2-, HLA-B0702-, and HLA-B08-restricted CD8 T-cell epitopes. BKV whole genomes were amplified using long-range PCR with four inverse primer sets, and fragmentation libraries were sequenced on the Ion Torrent Personal Genome Machine (PGM). An error model and variant-calling algorithm were developed to accurately identify rare variants. A total of 65 samples from 18 pediatric HCT and kidney recipients with quantifiable BKV DNAemia underwent whole-genome sequencing. Limited genetic variation was observed. The median number of amino acid variants identified per sample was 8 (range, 2 to 37; interquartile range, 10), with the majority of variants (77%) detected at a frequency of <5%. When normalized for length, there was no statistical difference in the median number of variants across all genes. Similarly, the predominant virus population within samples harbored T-cell epitopes similar to the reference BKV strain that was matched for the BKV genotype. Despite the conservation of epitopes, low-level variants in T-cell epitopes were detected in 77.7% (14/18) of patients. Understanding epitope variation across the whole genome provides insight into the virus-immune interface and may help guide the development of protocols for novel immunologic-based therapies.

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Section: Methodsmentioning

confidence: 99%

“…The noise data were analyzed in R using packages vcd, ggplot2, and MASS. A generalized linear (Poisson) model was used to estimate the dependence of the number of noise reads on the covariates (20,22). The homopolymer covariate was defined as a repeat of 3 or more of the same nucleotide along with nonidentical flanking nucleotides (23).…”

Section: Methodsmentioning

confidence: 99%

Limited Variation in BK Virus T-Cell Epitopes Revealed by Next-Generation Sequencing

et al. 2015

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“…Sequencing was performed using the Roche 454 GS Jr. pyrosequencing platform as recently published (6). After an initial long-range PCR to amplify ϳ2-kb and ϳ4-kb targets for UL97 and UL54, respectively, the PCR products were used as templates for further amplification using primers specific for overlapping ϳ350-bp segments of the CMV target sequence and incorporating 454 adapter sequences and barcodes specific to individual specimens.…”

Section: Methodsmentioning

confidence: 99%

“…The increasing adoption of massively parallel high-throughput sequencing technologies is enabling the acquisition of sufficient reads of individual DNA molecules to detail the sequence subpopulations that occur throughout the CMV genome in vivo (4,5). When focused on gene regions involved in drug resistance, it provides a cost-effective approach to deep sequencing whereby a targeted codon range is covered hundreds or thousands of times so that small variant subpopulations can be detected, as we recently showed for CMV (6). This may improve the detection of emerging drug resistance.…”

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confidence: 99%

Improved Detection of Emerging Drug-Resistant Mutant Cytomegalovirus Subpopulations by Deep Sequencing

Chou

Ercolani

Sahoo

et al. 2014

Antimicrob Agents Chemother

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In immunosuppressed hosts, the development of multidrug resistance complicates the treatment of cytomegalovirus (CMV) infection. Improved genotypic detection of impending drug resistance may follow from recent technical advances. A severely T-cell-depleted patient with chronic lymphocytic leukemia developed CMV pneumonia and high plasma viral loads that were poorly responsive to antiviral therapy. Serial plasma specimens were analyzed for mutant viral populations by conventional and high-throughput deep-sequencing methods. Uncharacterized mutations were phenotyped for drug resistance using recombinant viruses. Conventional genotyping detected viruses with the UL97 kinase substitution C607Y after ganciclovir treatment, a transient subpopulation of UL54 polymerase L773V mutants first detected 8 weeks after foscarnet was started, and a subpopulation of a mutant with deletion of UL54 codons 981 and 982 2 months after the addition of cidofovir. Deep sequencing of the same serial specimens revealed the same UL54 mutants sooner, along with a more complex evolution of known and newly recognized mutant subpopulations missed by conventional sequencing. The UL54 exonuclease substitutions D413N, K513R, and C539G were newly shown to confer ganciclovir-cidofovir resistance, while L773V was shown to confer foscarnet resistance and add to the ganciclovir resistance conferred by UL97 C607Y. Increased sequencing depth provided a more timely and detailed diagnosis of mutant viral subpopulations that evolved with changing anti-CMV therapy.

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“…UL97 kinase mutations, that alter the phosphorylation process, are the most represented cause of CMV-antiviral resistance, Seven most common UL97 mutations account for over 80% of GCVresistant CMV strains whereas UL54 mutations are generally associated with FOS and CDF-resistance though cross-resistance to GCV may be also observed [47]. Newer technologies such as next-generation sequencing are being explored for the detection of genotypic resistance [48]. CMV multidrug-resistance with mutations in both UL97 and UL54 genes usually results from UL54 cross-resistance [49,50].…”

Section: Antiviral Drug Resistancementioning

confidence: 99%

Treatment of CMV infection after allogeneic hematopoietic stem cell transplantation

Madon

Giaccone

Festuccia

et al. 2016

Expert Review of Hematology

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Detection of Cytomegalovirus Drug Resistance Mutations by Next-Generation Sequencing

Cited by 99 publications

References 59 publications

Limited Variation in BK Virus T-Cell Epitopes Revealed by Next-Generation Sequencing

Limited Variation in BK Virus T-Cell Epitopes Revealed by Next-Generation Sequencing

Improved Detection of Emerging Drug-Resistant Mutant Cytomegalovirus Subpopulations by Deep Sequencing

Treatment of CMV infection after allogeneic hematopoietic stem cell transplantation

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