Instability and expansion of the DMPK CTG repeat cause myotonic dystrophy type 1 (DM1), the most common adult-onset neuromuscular disorder. Overlapping clinical features between DM1 and other myotonic disorders necessitate molecular confirmation for definitive diagnosis. Preconception screening could improve reproductive planning especially in DM1-affected women, who show diminished ovarian reserve and unfavorable in vitro fertilization-preimplantation genetic diagnosis outcome. We optimized triplet-primed PCR and melting curve analysis on 17 DNAs from DM1-affected/unaffected cell lines. A blinded test was performed on 60 genotype-known clinical samples. Plasmid constructs pDMPK(CTG)35 and pDMPK(CTG)48 were used to establish threshold temperatures separating DM1-affected from unaffected samples. Postscreen triplet-primed PCR amplicon sizing was achieved by short-cycle labeled-primer extension followed by capillary electrophoresis. Triplet-primed PCR melting curve analysis melt peak temperatures of unaffected and DM1-affected samples were lower and higher than the control plasmids' melt peak temperatures, respectively. Capillary electrophoresis of post-melting curve analysis amplicons was completely concordant with the screening results. Triplet-primed PCR melting curve analysis is a simple and cost-effective screening tool for rapid identification of DM1. The companion confirmation protocol allows quick determination of CTG repeat size when required. This strategy avoids the need to perform capillary electrophoresis sizing on all test samples, limiting capillary electrophoresis analysis to only a subset of cases that are screen-positive.
Myotonic dystrophy type 1 is a multisystem disorder caused by the expansion of a trinucleotide repeat in the
DMPK
gene. In this study we evaluated the performance of the FastDM1
TM
DMPK
sizing kit in myotonic dystrophy type 1 testing. This commercially available triplet repeat-primed PCR based kit was validated using reference and clinical samples. Based on testing with 19 reference samples, the assay yielded repeat sizes within three repeats from the consensus reference length, demonstrating an accuracy of 100%. Additionally, the assay generated consistent repeat size information with a concentration range of template-DNA, and upon repetition and reproduction (CV 0.36% to 0.41%). Clinical performance was established with 235 archived prenatal and postnatal clinical samples, yielding results of 100% sensitivity (95% CI, 97.29% to 100%) and 100% specificity (95% CI, 96.19% to 100%) in classifying the samples into the respective genotype groups of 5–35 (normal), 36–50 (non-pathogenic pre-expansion), 51–150 (unstable intermediate-sized pathogenic) or >150 (unstable pathogenic) CTG repeats, respectively. Furthermore, the assay identified interrupted repeat expansions in all samples known to have interruptions, and also identified interruptions in a subset of the clinical samples.
The DM1 multiplex PCR panel is suitable for use in DM1 PGD either as a standalone linkage-based assay or as a complement to CTG repeat expansion-mutation detection.
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