Phylogenetic analysis of human pegivirus from anti-hepatitis C virus IgG- positive patients.

Human pegivirus type 1 (HPgV-1) is a non-pathogenic RNA virus in the Flaviviridae family that usually occurs as a co-infection with hepatitis B virus (HBV) or hepatitis C virus (HCV), though some evidence suggests it may play a role in certain cancers. The present study aimed to determine the prevalence of HPgV-1 infection in Iraqi anti-HCV IgG-positive patients, the risk factors associated with this infection, and the genotype of local isolates of this virus. A total of 88 anti-HCV IgG-positive patients participated in this cross-sectional study. Viral RAN was extracted from whole blood samples, and cDNA was produced using reverse transcriptase-polymerase chain reaction (RT-PCR). Two pairs of primers were used in nested PCR to amplify the virus genome's 5'-untranslated region (5'UTR). For direct sequencing, fourteen PCR products from the second round of PCR were chosen at random. A homology search was performed using the basic local alignment search tool (BLAST) program to identify the resultant sequencing. The phylogenetic tree of the local isolates and 31 reference isolates was constructed using MEGA X software to estimate the virus's genetic diversity and relatedness. Out of 88 patients included in this study, 27(30.68%) of patients were found to be positive for HPgV-1 RNA. The nucleotide homology between the 14 local isolates and the reference isolates. was found to be 87-97%. Phylogenetic analysis results in a tree with four main parts, which are distributed as follows: 10 local isolates are genotype 2; 2 are genotype 1; 1 is genotype 5, and 1 is genotype 6. We conclude that when compared to other countries, the infection rate of Iraqi anti-HCV IgG-positive patients with HPgV-1 is relatively high (30.68%). The most common HPgV-1 genotype in Iraq is genotype 2.

The First Nonmammalian Pegivirus Demonstrates Efficient In Vitro Replication and High Lymphotropism.

Members of the Pegivirus genus, family Flaviviridae, widely infect humans and other mammals, including nonhuman primates, bats, horses, pigs, and rodents, but are not associated with disease. Here, we report a new, genetically distinct pegivirus in goose (Anser cygnoides), the first identified in a nonmammalian host species. Goose pegivirus (GPgV) can be propagated in goslings, embryonated goose eggs, and primary goose embryo fibroblasts, and is thus the first pegivirus that can be efficiently cultured in vitro Experimental infection of GPgV in goslings via intravenous injection revealed robust replication and high lymphotropism. Analysis of the tissue tropism of GPgV revealed that the spleen and thymus were the organs bearing the highest viral loads. Importantly, GPgV could promote clinical manifestations of goose parvovirus infection, including reduced weight gain and 7% mortality. This finding contrasts with the lack of pathogenicity that is characteristic of previously reported pegiviruses.IMPORTANCE Members of the Pegivirus genus, family Flaviviridae, widely infect humans and other mammals, but are described as causing persistent infection and lacking pathogenicity. The efficiency of in vitro replication systems for pegivirus is poor, thus limiting investigation into viral replication steps. Because of that, the pathogenesis, cellular tropism, route of transmission, biology, and epidemiology of pegiviruses remain largely uncovered. Here, we report a phylogenetically distinct goose pegivirus (GPgV) that should be classified as a new species. GPgV proliferated in cell culture in a species- and cell-type-specific manner. Animal experiments show GPgV lymphotropism and promote goose parvovirus clinical manifestations. This study provides the first cell culture model for pegivirus, opening new possibilities for studies of pegivirus molecular biology. More importantly, our findings stand in contrast to the lack of identified pathogenicity of previously reported pegiviruses, which sheds lights on the pathobiology of pegivirus.