A duplex qPCR assay for human erythropoietin (EPO) transgene to control gene doping in horses.

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The misuse of genetic manipulation technology to enhance athletic performance is termed gene doping which is prohibited in human sports, horseracing, and equestrian sports. Although many qPCR assays have been developed, most assays employ genomic DNA (gDNA) from humans, non-human primates, and mice as a background and they may not be applicable for testing horse samples. This study aimed to develop a qPCR assay for the detection of human erythropoietin (hEPO) transgene in horse blood cells where the viral vectors used in gene therapy can reside for months. For the detection of hEPO transgene, the performance of three sets of primers and a hydrolysis probe for hEPO were compared. One set showed adequate specificity, sensitivity, amplification efficiency, and a dynamic range of detection in the presence of horse gDNA. The assay was duplexed with the detection of horse tubulin α 4A (TUBA4A) gene as an endogenous internal control in order to prevent false-negative results due to poor recovery and storage of extracted DNA and/or qPCR experimental variation. For the extraction of hEPO-plasmid, the QIAGEN Gentra Puregene blood kit was shown to recover the majority (62%) of hEPO-plasmid from spiked horse blood cells. The specificity and limit of detection (LOD) of the duplex qPCR assay were determined in accordance with MIQE guidelines. These findings supported the application of this duplex qPCR assay to the detection of hEPO transgene in horse blood cells.