Real-time RT-PCR assay to detect Granada virus and the related Massilia and Arrabida phleboviruses

Laura Davó,Maria Paz Sánchez-Seco,Ana Vázquez,Nuria Labiod,Laura Herrero,David Roiz,Jordi Figuerola,Elena Gómez-Díaz,Lourdes Hernandez

doi:10.1186/s13071-020-04110-5

Abstract

BackgroundGranada virus belongs to the genus Phlebovirus within the Naples serocomplex and was detected for the first time in sand flies from Spain in 2003. Seroprevalence studies have revealed that Granada virus may infect humans with most cases being asymptomatic. Moreover, recent studies in vector samples revealed that the related Massilia and Arrabida phleboviruses could be also circulating in Spain. The objective of this study was to develop and assess a new sensitive real-time RT-PCR assay for Granada virus diagnosis able to detect the related phleboviruses Massilia and Arrabida.MethodsTwo specific primers and one unique probe to detect Granada, Massilia and Arrabida viruses, without differentiating between them, were designed targeting the conserved L-segment of their genome. Sensitivity was assessed using 10-fold serial dilutions of quantified in vitro DNA samples. Specificity was evaluated by testing different genomic RNA extracted from other representative phleboviruses. The new assay was used for virus detection in sand flies collected in 2012 from the Balearic Archipelago, a touristic hotspot in the Mediterranean.ResultsThe real-time RT-PCR assay exhibited a sensitivity per reaction of 19 copies for Granada and Arrabida, and 16 copies for Massilia. No other related phleboviruses were detected. From the 37 pools of sand fly samples studied from four different Balearic Islands, we detected one positive in the island of Cabrera.ConclusionsTo our knowledge, the method described here is the first real-time RT-PCR designed to detect Granada virus and the related Massilia and Arrabida phleboviruses. The study demonstrated that this is a rapid, robust and reliable assay for the accurate diagnosis of human infections as well as for virus surveillance in vectors.

Highlights

Granada virus belongs to the genus Phlebovirus within the Naples serocomplex and was detected for the first time in sand flies from Spain in 2003
Whereas the sequences on the L and S segments of Arrabida virus (ARRV) were closely related to Massilia virus (MASV) and Granada virus (GRV), the glycoproteins (M segment) were most closely related to Punique virus (PUNV), detected in sand flies from Tunisia in 2008, opening the question whether ARRV can be considered as a reassortant between MASV/GRV and PUNV [9]
The amount of the internal control (IC) included in the assay was fixed at 10 copies per reaction without affecting the real-time RT-PCR (qRT-PCR) sensitivity

Summary

Introduction

Granada virus belongs to the genus Phlebovirus within the Naples serocomplex and was detected for the first time in sand flies from Spain in 2003. Recent studies in vector samples revealed that the related Massilia and Arrabida phleboviruses could be circulating in Spain. Recent reports suggest that other sand fly-transmitted phleboviruses may be involved in human disease [1, 4, 5] This is the case for Granada virus (GRV), a phlebovirus detected for the first time in sand flies captured in 2003 and 2004 in the province of Granada (southeast Spain). Phylogenetic analysis of the complete genome revealed that GRV belongs to the Sand fly fever Naples Complex (SFNC) and it is probably a natural reassortant of the Massilia virus (MASV), donor of the L and S GRV genome segments, with a yet unidentified phlebovirus as donor of the M segment [6]. The closely related MASV, GRV and ARRV shared the L and S segments but differed for the M segment due to a reassortment process with different phleboviruses

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