Abstract
Cancer is a heterogeneous disease, and patient-level genetic assessments can guide therapy choice and impact prognosis. However, little is known about the impact of genetic variability within a tumor, intratumoral heterogeneity (ITH), on disease progression or outcome. Current approaches using bulk tumor specimens can suggest the presence of ITH, but only single-cell genetic methods have the resolution to describe the underlying clonal structures themselves. Current techniques tend to be labor and resource intensive and challenging to characterize with respect to sources of biological and technical variability. We have developed a platform using a microfluidic self-digitization chip to partition cells in stationary volumes for cell imaging and allele-specific PCR. Genotyping data from only confirmed single-cell volumes is obtained and subject to a variety of relevant quality control assessments such as allele dropout, false positive, and false negative rates. We demonstrate single-cell genotyping of the NPM1 type A mutation, an important prognostic indicator in acute myeloid leukemia, on single cells of the cell line OCI-AML3, describing a more complex zygosity distribution than would be predicted via bulk analysis.
Highlights
Our assay for single-cell genotyping for the NPM1 mutation consisted of a single set of PCR primers specific for the region in NPM1 where the mutation occurs, a low-concentration intercalating dye to image single nuclei, and three hydrolysis probes
For single-cell experiments in the self-digitization chip (SD chip), we found that PCR buffer with added 0.02% Triton X-100 minimized false positive and false negative rates compared to other buffer conditions tested (S5 and S6 Figs)
We have developed the SD genotyping platform which employs an SD chip and allele-specific PCR “suites” of locked nucleic acid (LNA), multiplexed, hydrolysis-probes to simultaneously and detect locus amplification and both wild-type and mutant alleles
Summary
Plasmids with inserts containing the amplicon with the wild-type or mutant allele as well as wild-type or heterozygous cell line DNA were used to confirm the specificity of the probe designs in bulk PCR. A low concentration of the DNA intercalator EvaGreen (0.5x) was used for SD chip for single-cell genotyping imaging cells prior to PCR; this was found to have no impact on the specificity of allele-specific probes (S2 Fig).
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