Absolute Quantification of mRNA Isoforms in Adult Stem Cells Using Microfluidic Digital PCR.

Shubhangi Das Barman, Zofija Frimand, Antoine De Morree
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Abstract

Adult stem cells play key roles in homeostasis and tissue repair. These cells are regulated by a tight control of transcriptional programs. For example, muscle stem cells (MuSCs), located beneath the basal lamina, exist in the quiescent state but can transition to an activated, proliferative state upon injury. The control of MuSC state depends on the expression levels of myogenic transcription factors. Recent studies revealed the presence of different mRNA isoforms, with distinct biological regulation. Quantifying the exact expression levels of the mRNA isoforms encoding these myogenic transcription factors is therefore key to understanding how MuSCs switch between cell states. Previously, quantitative real-time polymerase chain reaction (qRT-PCR) has been used to quantify RNA expression levels. However, qRT-PCR depends on large amounts of RNA input and only measures relative abundance. Here, we present a protocol for the absolute quantification of mRNA isoforms using microfluidic digital PCR (mdPCR). Primary MuSCs isolated from individual skeletal muscles (gastrocnemius and masseter) are lysed, and their RNA is reverse-transcribed into cDNA and copied into double-stranded DNA. Following exonuclease I digestion to remove remaining single-stranded DNA, the samples are loaded onto a mdPCR chip with TaqMan probes targeting the mRNA isoforms of interest, whereupon target molecules are amplified in nanoliter chambers. We demonstrate that mdPCR can give exact molecule counts per cell for mRNA isoforms encoding the myogenic transcription factor Pax3. This protocol enables the absolute quantification of low abundant mRNA isoforms in a fast, precise, and reliable way.

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利用微流控数字PCR技术对成体干细胞mRNA亚型进行绝对定量分析。
成体干细胞在体内平衡和组织修复中起着关键作用。这些细胞受到转录程序的严格控制。例如,位于基底层的肌肉干细胞(MuSCs)处于静止状态,但在损伤后可以转变为激活的增殖状态。MuSC状态的调控依赖于成肌转录因子的表达水平。最近的研究表明,存在不同的mRNA亚型,具有不同的生物学调控。因此,量化编码这些肌源性转录因子的mRNA同种异构体的确切表达水平是理解musc如何在细胞状态之间切换的关键。以前,定量实时聚合酶链反应(qRT-PCR)已被用于定量RNA表达水平。然而,qRT-PCR依赖于大量的RNA输入,只能测量相对丰度。在这里,我们提出了一种使用微流控数字PCR (mdPCR)绝对定量mRNA亚型的方案。从单个骨骼肌(腓肠肌和咬肌)分离的原代MuSCs被裂解,其RNA被反转录成cDNA并复制成双链DNA。在核酸外切酶I消化去除剩余的单链DNA后,将样品装载到mdPCR芯片上,用TaqMan探针靶向感兴趣的mRNA同工型,然后在纳升腔中扩增目标分子。我们证明,mdPCR可以给出编码肌源性转录因子Pax3的mRNA亚型每个细胞的精确分子计数。该方案能够以快速、精确和可靠的方式对低丰度mRNA亚型进行绝对定量。
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