Biology and Cellular Tropism of a Unique Astrovirus Strain: Murine Astrovirus 2

Biology and tropism of MuAstV2Murine astrovirus 2 (MuAstV2) is a novel murine astrovirus recently identified in laboratory and wild mice. MuAstV2 readily transmits between immunocompetent mice yet fails to transmit to highly immunocompromised mouse strains—a unique characteristic when contrasted with other murine viruses including other astroviruses. We characterized the viral shedding kinetics and tissue tropism of MuAstV2 in immunocompetent C57BL/6NCrl mice and evaluated the apparent resistance of highly immunocompromised NOD-Prkdc^em26Cd52Il2rg^em26Cd22/NjuCrl mice to MuAstV2 after oral inoculation. Temporal patterns of viral shedding were determined by serially measuring fecal viral RNA. Tissue tropism and viral load were characterized and quantified by using in-situ hybridization (ISH) targeting viral RNA. Cellular tropism was characterized by evaluating fluorescent colocalization of viral ISH with various immunohistochemical markers. We found a rapid increase of fecal viral RNA in B6 mice, which peaked at 5 d after inoculation (dpi) followed by cessation of shedding by 168 dpi. The small intestine had the highest percentage of hybridization (3.09% of tissue area) of all tissues in which hybridization occurred at 5 dpi. The thymus displayed the next highest degree of hybridization (2.3%) at 7 dpi, indicating extraintestinal viral spread. MuAstV2 RNA hybridization was found to colocalize with only 3 of the markers evaluated: CD3 (T cells), Iba1 (macrophages), and cytokeratin (enterocytes). A higher percentage of CD3 cells and Iba1 cells hybridized with MuAstV2 as compared with cytokeratin at 2 dpi (CD3, 59%; Iba1, 46%; cytokeratin, 6%) and 35 dpi (CD3, 14%; Iba1, 55%; cytokeratin, 3%). Neither fecal viral RNA nor viral hybridization was noted in NCG mice at the time points examined. In addition, mice of mixed genetic background were inoculated, and only those with a functioning Il2rg gene shed MuAstV2. Results from this study suggest that infection of, or interaction with, the immune system is required for infection by or replication of MuAstV2.

Astroviruses are nonenveloped, positive-sense, single-stranded RNA viruses with a star-like appearance—from which the name derives—when examined by transmission electron microscopy. First identified in 1975, astroviruses are commonly associated with gastrointestinal illness in children.^1,23 They demonstrate considerable diversity, and unique strains have been identified in numerous species through advances in molecular diagnostics.^{2,4-6,11-13,18,19,21,25,27,29,30,32,35-40} This broad distribution likely resulted from cross-species transmission and subsequent adaptation to the novel host.¹¹ Clinical presentation varies among species, although most infections are asymptomatic or limited to mild gastrointestinal illness.^4,9,11 Extraintestinal disease resulting in fatal encephalitis has been described in several species (including cows, mink, and immunocompromised people).^{3,19,22,26,35}Astroviral infection of mice was first described in 1985, when an unknown astrovirus was identified by electron microscopy in the feces of nude mice.¹⁷ Since then, astroviruses have been detected in many wild and laboratory mouse populations.^12,29,30,34 Despite their prevalence, studies have been limited and their effects on host biology remains largely unknown. Murine astrovirus (MuAstV) was identified through molecular sequencing in 2012 and has since been discovered to be enzootic in numerous research and production mouse colonies.^12,29,34 Whether the strain described in 1985 was MuAstV is unknown. Immunocompetent and immunodeficient mouse strains are both susceptible to MuAstV infection, although no clinical disease and only minimal pathology are observed.^7,47 Similar to astroviruses infecting other species, MuAstV infection is frequently localized to the gastrointestinal tract.⁴⁷ A recent study demonstrated MuAstV replication in goblet cells and altered mucus production within the gastrointestinal tract, highlighting the potential effect of the virus on select research studies despite the lack of clinical disease and pathology.⁸Our group previously reported the detection of a novel murine astrovirus, murine astrovirus 2 (MuAstV2), in a laboratory mouse colony.³¹ MuAstV2 is genetically distinct from MuAstV but is closely related to a strain recently reported in wild mice.^31,43 The MuAstV2 strain identified in the laboratory mouse colony shares 89.2% nucleotide identity to a strain detected in wild mice in New York City but less than 50% nucleotide identity to MuAstV, the strain commonly isolated from laboratory mice. In addition, MuAstV2 was found to share as much as 80.8% nucleotide similarity to an astrovirus strain isolated from urban brown rats (Rattus norvegicus) in Hong Kong.^5,31 Antibodies to MuAstV2 were inadvertently detected in laboratory colony mice when a serologic immunoassay for mouse thymic virus prepared from a murine T-cell line tested positive. Further analysis showed that the mice were negative for mouse thymic virus and that the T-cell line was contaminated with a novel astrovirus strain similar to MuAstV2, resulting in the positive test. The observation that MuAstV2 did not appear to infect highly immunocompromised mice via natural exposure or experimental inoculation was highly unusual.³¹ This finding is distinct from other murine viruses, including MuAstV, given that infection of immunocompromised mice leads to persistent infection and chronic virus shedding.^12,15,16,47We sought to further understand the biology of MuAstV2 by evaluating viral shedding kinetics and tissue tropism in immunocompetent mice and to further characterize the presumptive resistance to infection observed in highly immunocompromised mice. Temporal patterns of viral shedding were determined by serially measuring fecal viral RNA after oral inoculation. Tissue and cell tropism were characterized using in-situ hybridization (ISH) and immunohistochemistry during the course of infection. We hypothesized that MuAstV2 initially infects the gastrointestinal tract, as occurs with other astroviruses, but speculated that components of the immune system were required to support infection or replication or both. Furthermore, we sought to characterize the extraintestinal spread of MuAstV2.