Low temperature isothermal amplification of microsatellites drastically reduces stutter artifact formation and improves microsatellite instability detection in cancer

Daunay, Antoine; Duval, Alex; Baudrin, Laura G.; Buhard, Olivier; Renault, Victor; Deleuze, Jean; How‐Kit, Alexandre

doi:10.1093/nar/gkz811

Cited by 15 publications

(11 citation statements)

References 59 publications

(83 reference statements)

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“…Some of the limitations of bulk-PCR may be overcome by using recombinase polymerase amplification, an isothermal replacement to PCR that has been shown to produce fewer HTT CAG slippage pr-oducts [ 56 ], or SP-PCR-sequencing which has the potential of allowing the detection of rare large somatic expansions [ 51 ]. However, these approaches are still limited to some extent by PCR slippage, confounding the quantification of somatic contractions ( Table 2 ).…”

Section: Discussionmentioning

confidence: 99%

“…More accurately quantifying the full range of somatic repeat length changes could also prove useful in identifying genetic modifiers of somatic instability (it is likely that some variants may act to modify the size and direction of repeat length changes, and not just their absolute frequency), and for the development of outcome measures in clinical trials that aim to suppress somatic repeat expansions and/or induce contractions [55]. Some of the limitations of bulk-PCR may be overcome by using recombinase polymerase amplification, an isothermal replacement to PCR that has been shown to produce fewer HTT CAG slippage products [56], or SP-PCR-sequencing which has the potential of allowing the detection of rare large somatic expansions [51]. However, these approaches are still limited to some extent by PCR slippage, confounding the quantification of somatic contractions (Table 2).…”

Section: Future Directions In the Field For The Use Of Parallel And Smentioning

confidence: 99%

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Approaches to Sequence the HTT CAG Repeat Expansion and Quantify Repeat Length Variation

Ciosi

Cumming

Chatzi

et al. 2021

JHD

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Background: Huntington’s disease (HD) is an autosomal dominant neurodegenerative disorder caused by the expansion of the HTT CAG repeat. Affected individuals inherit ≥36 repeats and longer alleles cause earlier onset, greater disease severity and faster disease progression. The HTT CAG repeat is genetically unstable in the soma in a process that preferentially generates somatic expansions, the proportion of which is associated with disease onset, severity and progression. Somatic mosaicism of the HTT CAG repeat has traditionally been assessed by semi-quantitative PCR-electrophoresis approaches that have limitations (e.g., no information about sequence variants). Genotyping-by-sequencing could allow for some of these limitations to be overcome. Objective: To investigate the utility of PCR sequencing to genotype large (>50 CAGs) HD alleles and to quantify the associated somatic mosaicism. Methods: We have applied MiSeq and PacBio sequencing to PCR products of the HTT CAG repeat in transgenic R6/2 mice carrying ∼55, ∼110, ∼255 and ∼470 CAGs. For each of these alleles, we compared the repeat length distributions generated for different tissues at two ages. Results: We were able to sequence the CAG repeat full length in all samples. However, the repeat length distributions for samples with ∼470 CAGs were biased towards shorter repeat lengths. Conclusion: PCR sequencing can be used to sequence all the HD alleles considered, but this approach cannot be used to estimate modal allele size or quantify somatic expansions for alleles ⪢250 CAGs. We review the limitations of PCR sequencing and alternative approaches that may allow the quantification of somatic contractions and very large somatic expansions.

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Section: Discussionmentioning

confidence: 99%

Section: Future Directions In the Field For The Use Of Parallel And Smentioning

confidence: 99%

Approaches to Sequence the HTT CAG Repeat Expansion and Quantify Repeat Length Variation

Ciosi

Cumming

Chatzi

et al. 2021

JHD

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“…Similar to other MSI-calling algorithms ( 24 ), for MSI-tracer a minimum sequence coverage of at least 20 for interrogated poly-A target was found necessary to provide reproducible statistics for reliable analysis. Application of experimental approaches to reduce PCR stutter ( 39 , 40 ) could be anticipated to further enhance the reported LODs for MSI detection using MSI-tracer.…”

Section: Discussionmentioning

confidence: 99%

NGS-based identification and tracing of microsatellite instability from minute amounts DNA using inter-Alu-PCR

Leong

Makrigiorgos

et al. 2020

Nucleic Acids Research

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Sensitive detection of microsatellite instability (MSI) in tissue or liquid biopsies using next generation sequencing (NGS) has growing prognostic and predictive applications in cancer. However, the complexities of NGS make it cumbersome as compared to established multiplex-PCR detection of MSI. We present a new approach to detect MSI using inter-Alu-PCR followed by targeted NGS, that combines the practical advantages of multiplexed-PCR with the breadth of information provided by NGS. Inter-Alu-PCR employs poly-adenine repeats of variable length present in every Alu element and provides a massively-parallel, rapid approach to capture poly-A-rich genomic fractions within short 80–150bp amplicons generated from adjacent Alu-sequences. A custom-made software analysis tool, MSI-tracer, enables Alu-associated MSI detection from tissue biopsies or MSI-tracing at low-levels in circulating-DNA. MSI-associated indels at somatic-indel frequencies of 0.05–1.5% can be detected depending on the availability of matching normal tissue and the extent of instability. Due to the high Alu copy-number in human genomes, a single inter-Alu-PCR retrieves enough information for identification of MSI-associated-indels from ∼100 pg circulating-DNA, reducing current limits by ∼2-orders of magnitude and equivalent to circulating-DNA obtained from finger-sticks. The combined practical and informational advantages of inter-Alu-PCR make it a powerful tool for identifying tissue-MSI-status or tracing MSI-associated-indels in liquid biopsies.

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“…To reflect this, a generalization of string edit distance was used to capture similarity between sequences in MPS output. The goal was to include the addition or deletion of a motif as an edit type with a cost that can vary independently from single-nucleotide edits, to reflect the fact that these motif losses and expansions (called backward and forward stutter, respectively) occur consistently across various in vitro applications [18]. The algorithm is also applicable to in vivo methods such as rare disease diagnosis and cancer progression tracking that use STR markers including their stutter [19].…”

Section: Actcc Atg Atg Atg Atg Ggttctgamentioning

confidence: 99%

A New String Edit Distance and Applications

Petty¹,

Hannig²,

Huszar³

et al. 2022

Preprint

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String edit distances have been used for decades in applications ranging from spelling correction and web search suggestions to DNA analysis. In short tandem repeat (STR) regions of the genome, motifs of nucleotides 2-6 base pairs long repeat consecutively, and these motifs most often expand and contract as a whole unit. This phenomenon of slippage of the polymerase on the template is referred to as stutter in forensic DNA analysis. String edit distances that only consider single-character edits fail to capture true DNA sequence similarity in STR regions. In forensic applications, stutter appears in vitro as an artifact of the PCR amplification. Forensic DNA analysis now also utilizes data from massively parallel sequencing (MPS) beyond just length-based analysis by capillary electrophoresis data. The algorithm presented here measures distance between sequences, using dynamic programming, that allows the addition or deletion of motifs as a separate edit type from single-nucleotide insertion, deletion, and substitution. Forensic examples are shown, but the applications extend to sequence alignment and string similarity in other biological applications.

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Low temperature isothermal amplification of microsatellites drastically reduces stutter artifact formation and improves microsatellite instability detection in cancer

Cited by 15 publications

References 59 publications

Approaches to Sequence the HTT CAG Repeat Expansion and Quantify Repeat Length Variation

Approaches to Sequence the HTT CAG Repeat Expansion and Quantify Repeat Length Variation

NGS-based identification and tracing of microsatellite instability from minute amounts DNA using inter-Alu-PCR

A New String Edit Distance and Applications

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