Establishment of conventional and fluorescence resonance energy transfer-based real-time PCR assays for detection of pathogenic New World arenaviruses

Abstract

Background: Five of the known arenaviruses cause viral hemorrhagic fever in humans and are classified as biosafety level 4 pathogens. Four of the viruses, namely Junin, Guanarito, Machupo, and Sabia, belong to clade B of New World arenaviruses that also comprises the nonpathogenic viruses Tacaribe, Cupixi, and Amapari.

Objectives: To establish real-time reverse transcription (RT)-PCR assays for Junin and Guanarito virus based on fluorescence resonance energy transfer (FRET) probes, and a universal RT-PCR assay for all known clade B viruses with conventional read-out.

Results: Conserved sequences in the nucleoprotein gene were chosen as target sites for primers and FRET probes. A common set of primers was designed for all three assays. The assays were based on one-step RT-PCR reagents and were optimised with respect to analytical sensitivity using synthetic RNA templates. The real-time PCR assays detected about 0.5 and 5TCID(50) of cell culture-derived Junin and Guanarito virus, respectively. The universal clade B PCR amplified cell culture-derived RNA of Junin, Guanarito, Machupo, and Sabia virus (5-500TCID(50) per reaction), as well as RNA of Tacaribe, Cupixi, and Amapari virus.

Conclusions: The PCR assays may be used as complementary diagnostic tests for pathogenic New World arenaviruses. The universal PCR assay could also be suitable for the detection of novel clade B arenaviruses in patients as well as in animal reservoirs.