Abstract
Rift Valley fever phlebovirus (RVFV) is a zoonotic arthropod-borne virus, which has led to devastating epidemics in African countries and on the Arabian Peninsula. Results of in-vivo, in-vitro and field studies suggested that amphibians and reptiles may play a role as reservoir hosts of RVFV, promoting its maintenance during inter-epidemic periods. To elucidate this hypothesis, we examined two newly established reptile-derived cell lines (Egyptian cobra and Chinese pond turtle) and five previously generated reptile- and amphibian-derived cell lines for their replicative capacity for three low- and high-pathogenic RVFV strains. At different time points after infection, viral loads (TCID50), genome loads and the presence of intracellular viral antigen (immunofluorescence) were assessed. Additionally, the influence of temperatures on the replication was examined. Except for one cell line (read-eared slider), all seven cell lines were infected by all three RVFV strains. Two different terrapin-derived cell lines (Common box turtle, Chinese pond turtle) were highly susceptible. A temperature-dependent replication of RVFV was detected for both amphibian and reptile cells. In conclusion, the results of this study indicate the general permissiveness of amphibian and reptile cell lines to RVFV and propose a potential involvement of terrapins in the virus ecology.
Highlights
Published: 31 May 2021Rift Valley fever phlebovirus (RVFV) is an arthropod-borne zoonotic virus of the familyPhenuiviridae, genus Phlebovirus
Since temperature-dependent replication of viruses in reptiles has been repeatedly detected in vivo [24,25], this study evaluated this potential influence for RVFV
CDSK was an outgrowth of explants, MaKo arose from trypsinized tissue
Summary
Rift Valley fever phlebovirus (RVFV) is an arthropod-borne zoonotic virus of the family. Evidence of replication of diverse arboviruses has been repeatedly obtained in different reptiles and amphibians [13,14,15,16,17,18]. These species were assumed to be non-susceptible to RVFV in simple challenge studies in 1931 [19], field investigations in Kenya and Uganda found amphibians and reptiles to be a frequent source of blood meal for RVFV-competent mosquitoes [20,21]. Since temperature-dependent replication of viruses in reptiles has been repeatedly detected in vivo [24,25], this study evaluated this potential influence for RVFV
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