The use of infectious clones to establish virus infections in well-established model plants has allowed us to greatly advance our understanding of virus-host interactions, providing controlled systems to study viruses that naturally infect complex hosts such as fruit trees. Citrus sudden death-associated virus (CSDaV) is a Marafivirus associated with citrus sudden death disease in Brazil, yet its molecular interactions in citrus or model plant hosts remain poorly characterized. In this work, we investigated the interaction between CSDaV and the model plant Nicotiana benthamiana. We show that CSDaV establishes a symptomless systemic infection in N. benthamiana plants, while inducing a hypersensitive response (HR)-like cell death preceded by chloroplast abnormalities in locally inoculated leaves. Immunogold labelling showed that CSDaV virions were localized near or inside altered chloroplasts in locally inoculated leaves. Membranous vesicles at the periphery of chloroplasts were also observed, suggesting chloroplast-associated replication. However, trans-complementation assays in which the viral RNA-dependent RNA polymerase rescued replication of a non-replicative CSDaV did not confirm a clear association between the replication complex and chloroplasts. Expression analyses showed that while HIN1, an HR-associated gene, was upregulated in CSDaV locally infected leaves, reactive oxygen species (ROS) levels and CAT1, a gene encoding a ROS-scavenging enzyme, were significantly reduced in the same CSDaV-infected tissues compared to controls, suggesting an ROS-independent HR-like reaction. Furthermore, the salicylic acid (SA) pathway genes PR1 and ICS1 were not induced, suggesting suppression of SA-mediated systemic resistance. These findings demonstrate N. benthamiana as a systemic host plant for CSDaV and suggest an infection strategy that couples localized HR-like responses with systemic defence suppression.
Iwasaki et al. (Mon,) studied this question.