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In 2018, the family Arenaviridae was expanded by inclusion of 1 new genus and 5 novel species. At the same time, the recently established order Bunyavirales was expanded by 3 species. This article presents the updated taxonomy of the family Arenaviridae and the order Bunyavirales as now accepted by the International Committee on Taxonomy of Viruses (ICTV) and summarizes additional taxonomic proposals that may affect the order in the near future.

In October 2018, the order Bunyavirales was amended by inclusion of the family Arenaviridae, abolishment of three families, creation of three new families, 19 new genera, and 14 new species, and renaming of three genera and 22 species. This article presents the updated taxonomy of the order Bunyavirales as now accepted by the International Committee on Taxonomy of Viruses (ICTV).

Upon infection with persistence-prone virus, type I interferon (IFN-I) mediates antiviral activity and also upregulates the expression of programmed death ligand 1 (PD-L1), and this upregulation can lead to CD8 super(+) T-cell exhaustion. How these very diverse functions are regulated remains unknown. This study, using the lymphocytic choriomeningitis virus, showed that a subset of CD169 super(+) macrophages in murine spleen and lymph nodes produced high amounts of IFN-I upon infection. Absence of CD169 super(+) macrophages led to insufficient production of IFN-I, lower antiviral activity and persistence of virus. Lack of CD169 super(+) macrophages also limited the IFN-I-dependent expression of PD-L1. Enhanced viral replication in the absence of PD-L1 led to persistence of virus and prevented CD8 super(+) T-cell exhaustion. As a consequence, mice exhibited severe immunopathology and died quickly after infection. Therefore, CD169 super(+) macrophages are important contributors to the IFN-I response and thereby influence antiviral activity, CD8 super(+) T-cell exhaustion and immunopathology.

Mammarenaviruses (genus Mammarenavirus , family Arenaviridae ) are rodent-borne zoonotic viruses consisting of 52 viral species, including ten that are pathogenic to humans. Currently, only two endemic mammarenavirus species are known in Europe: the human pathogenic Mammarenavirus choriomeningitidis (LCMV) and the recently discovered hedgehog-origin Mammarenavirus mecsekense (MEMV). In this study, 59 faecal specimens from Northern white-breasted hedgehogs ( Erinaceus roumanicus ) from different geographic regions in Hungary were investigated for mammarenavirus presence and complete genome characterization using newly designed screening primers by RT-semi-nested PCR and sequencing methods. Five (8.5%) of the 59 samples tested positive for mammarenavirus RNA (ER8, ER15, ER27, ER33, and ER39, GenBank accession numbers PQ441959-PQ441968). The L- and S-segments of these strains showed 66–93% and 73–92% nt identity to the closest known mammarenavirus, MEMV, respectively. The NP protein exhibited 86–97% aa sequence identity compared to the corresponding protein of MEMV. Notably, the S-segment intergenic region (S-IGR) of strains ER8, ER15, ER27 and ER33 exceeded the average nt length among known mammarenaviruses and contained two, highly similar stem-loop structures with conserved self-complementary nucleotide motifs. Based on the sequence- and phylogenetic analysis these strains (ER8, ER15, ER27 and ER33) potentially represent a novel mammarenavirus species, tentatively named Pannonia mammarenavirus (PANV).

During chronic infection and cancer, a self-renewing CD8 + T cell subset maintains long-term immunity and is critical to the effectiveness of immunotherapy. These stem-like CD8 + T cells diverge from other CD8 + subsets early after chronic viral infection. However, pathways guarding stem-like CD8 + T cells against terminal exhaustion remain unclear. Here, we show that the gene encoding transcriptional repressor BACH2 is transcriptionally and epigenetically active in stem-like CD8 + T cells but not terminally exhausted cells early after infection. BACH2 overexpression enforced stem-like cell fate, whereas BACH2 deficiency impaired stem-like CD8 + T cell differentiation. Single-cell transcriptomic and epigenomic approaches revealed that BACH2 established the transcriptional and epigenetic programs of stem-like CD8 + T cells. In addition, BACH2 suppressed the molecular program driving terminal exhaustion through transcriptional repression and epigenetic silencing. Thus, our study reveals a new pathway that enforces commitment to stem-like CD8 + lineage and prevents an alternative terminally exhausted cell fate. Tuoqi Wu and colleagues show that the transcriptional repressor BACH2 is required early after chronic viral infection to enforce a stem-like fate in activated CD8 + T cells. BACH2 acts to suppress genes that lead to the exhausted cell state.

Boid Inclusion Body Disease (BIBD) is a potentially fatal disease reported in captive boid snakes worldwide that is caused by reptarenavirus infection. Although the detection of intracytoplasmic inclusion bodies (IB) in blood cells serves as the gold standard for the ante mortem diagnosis of BIBD, the mechanisms underlying IB formation and the pathogenesis of BIBD are unknown. Knowledge on the reptile immune system is sparse compared to the mammalian counterpart, and in particular the response towards reptarenavirus infection is practically unknown. Herein, we investigated a breeding collection of 70 Boa constrictor snakes for BIBD, reptarenavirus viraemia, anti-reptarenavirus IgM and IgY antibodies, and population parameters. Using NGS and RT-PCR on pooled blood samples of snakes with and without BIBD, we could identify three different reptarenavirus S segments in the collection. The examination of individual samples by RT-PCR indicated that the presence of University of Giessen virus (UGV)-like S segment strongly correlates with IB formation. We could also demonstrate a negative correlation between BIBD and the presence of anti-UGV NP IgY antibodies. Further evidence of an association between antibody response and BIBD is the finding that the level of anti-reptarenavirus antibodies measured by ELISA was lower in snakes with BIBD. Furthermore, female snakes had a significantly lower body weight when they had BIBD. Taken together our findings suggest that the detection of the UGV-/S6-like S segment and the presence of anti-reptarenavirus IgY antibodies might serve as a prognostic tool for predicting the development of BIBD.

T cells dynamically interact with multiple, distinct cellular subsets to determine effector and memory differentiation. Here, we developed a platform to quantify cell location in three dimensions to determine the spatial requirements that direct T cell fate. After viral infection, we demonstrated that CD8 + effector T cell differentiation is associated with positioning at the lymph node periphery. This was instructed by CXCR3 signaling since, in its absence, T cells are confined to the lymph node center and alternatively differentiate into stem-like memory cell precursors. By mapping the cellular sources of CXCR3 ligands, we demonstrated that CXCL9 and CXCL10 are expressed by spatially distinct dendritic and stromal cell subsets. Unlike effector cells, retention of stem-like memory precursors in the paracortex is associated with CCR7 expression. Finally, we demonstrated that T cell location can be tuned, through deficiency in CXCL10 or type I interferon signaling, to promote effector or stem-like memory fates. T cells are highly dynamic and their spatial and cellular interactions can influence their differentiation program. Groom and colleagues use three-dimensional spatial imaging to show that effector and stem-like memory cell fates are imposed within distinct lymph node regions.

Mammarenaviruses are noteworthy zoonotic pathogens, and the main reservoirs are rodent species. We report the detection of a novel mammarenavirus in 6/183 (3.3%) in necropsied European hedgehogs (Erinaceus europaeus) collected in Italy. The whole-genome sequence obtained for 4 strains revealed a marked genetic diversity but a monophyletic origin.

During persistent viral infections, chronic immune activation, negative immune regulator expression, an elevated interferon signature, and lymphoid tissue destruction correlate with disease progression. We demonstrated that blockade of type I interferon (IFN-I) signaling using an IFN-I receptor neutralizing antibody reduced immune system activation, decreased expression of negative immune regulatory molecules, and restored lymphoid architecture in mice persistently infected with lymphocytic choriomeningitis virus. IFN-I blockade before and after establishment of persistent virus infection resulted in enhanced virus clearance and was CD4 T cell-dependent. Hence, we demonstrate a direct causal link between IFN-I signaling, immune activation, negative immune regulator expression, lymphoid tissue disorganization, and virus persistence. Our results suggest that therapies targeting IFN-I may help control persistent virus infections.

While Mammarenavirus Wenzhouense (WENV) is broadly distributed across Asia, the dynamics of WENV infection remain unclear. In this study, a field-derived strain of WENV was used to inoculate Sprague Dawley (SD) rats by intramuscular injection, and the process of viral infection was observed over the course of 28 d. Viral RNA became detectable in the blood at 3 dpi and remained detectable for about 12 d. In most organ tissues, viral RNA peaked at 7 dpi, and then began to decline by 14 d, but remained detectable in intestine and brain tissues at 21 and 28 dpi. Viral shedding was detected from fecal samples for 5 d, from 6 to 11 dpi using qRT-PCR, and was recovered from feces collected at 8 dpi. Horizontal contact infection occurred among cage-mates at 14 and 21 dpi. Antibodies against the nucleocapsid were detected at 5 dpi, and then increased and persisted until the end of the experiment. These results enabled us to determine the kinetics of viremic response, viral shedding in feces, and horizontal transmission dynamics, as well as the potential sites for WENV replication and viral maintenance in nature.