Astrovirus

Astroviruses are a type of virus that was first discovered in 1975 using electron microscopes following an outbreak of diarrhea in humans. In addition to humans, astroviruses have now been isolated from numerous mammalian animal species and from avian species such as ducks, chickens, and turkey poults. Astroviruses are 28–35 nm diameter, icosahedral viruses that have a characteristic five- or six-pointed star-like surface structure when viewed by electron microscopy. Along with the Picornaviridae and the Caliciviridae, the Astroviridae comprise a third family of nonenveloped viruses whose genome is composed of plus-sense, single-stranded RNA. Astrovirus has a non-segmented, single stranded, positive sense RNA genome within a non-enveloped icosahedral capsid. Human astroviruses have been shown in numerous studies to be an important cause of gastroenteritis in young children worldwide. In animals, Astroviruses also cause infection of the gastrointestinal tract but may also result in encephalitis, hepatitis and nephritis.

Microbiology

Taxonomy

This family of viruses consists of two genera, Avastrovirus and Mamastrovirus.
The International Committee on Taxonomy of Viruses established Astroviridae as a viral family in 1995. There have been over 50 astroviruses reported, although the ICTV officially recognizes 22 species. The genus Avastrovirus comprises three species; Chicken astrovirus, Duck astrovirus, and Turkey astrovirus. The genus Mamastrovirus includes Bovine astroviruses 1 and 2, Human astrovirus, Feline astrovirus 1, Porcine astrovirus 1, Mink astrovirus 1 and Ovine astrovirus 1.

Structure

Astroviruses have a star-like appearance with five or six points. Their name is derived from the Greek word "astron" meaning star. They are non-enveloped RNA viruses with cubic capsids, approximately 28–35 nm in diameter with T=3 symmetry. Human astroviruses are part of the Mammastrovirus genus and contains 8 serotypes. The human astrovirus capsid spikes have a distinct structure. The spike domain in particular has a 3-layered beta-sandwiches fold and a core, 6-stranded beta-barrel structure. The beta-barrel has a hydrophobic core. The triple-layered beta-sandwich is packed outside the beta-barrel. The spike also forms a dimer. This unique structure was found to be similar to the protein projections found on the capsid of the hepatitis E virus. The projection domain of the human astrovirus contains a receptor binding site for polysaccharides. The amino acid sequence of the astrovirus capsid protein does not have similar homology to other known viral proteins, but the closest would be hepatitis E virus.

Life cycle

Astroviruses infect birds and mammals through the fecal-oral route. They have a tissue tropism for enterocytes. Entry into the host cell is achieved by attachment to host receptors, which mediates endocytosis. Replication follows the positive-strand RNA virus replication model. Astrovirus RNA is infectious and functions as a messenger RNA for ORF1a and ORF1b. A frame-shifting mechanism between these two nonstructural polypeptides translates RNA-dependent RNA polymerase. In replication complexes near intracellular membranes, ORF1a and ORF1b are cleaved to generate individual nonstructural proteins that are involved in replication. The resulting subgenomic RNA contains ORF2 and encodes precursor capsid protein. VP90 is proteolytically cleaved during packaging and produces immature capsids made of VP70. Following encapsidation, immature capsids are released from the cell without lysis. Extracellular virions are cleaved by Trypsin and form mature infectious virions.

Morphology

Astroviruses are 28-30 nm non-enveloped viruses with T-3 icosahedral symmetry. They have spherical shapes and consist of a capsid protein shell. Astroviruses have distinctive five or six pointed star-like projections on 10% of the virions. The virion capsid is expressed from a subgenomic mRNA and its precursor undergoes multiple cleavages to make the VP70 protein. Capsids that are made of the VP70 protein are cleaved by trypsin to make particles that are very infectious. The spikes that create the star-like appearance on the virion surface are made by two structural proteins while the capsid shell is made from VP34.

Genome

Astroviruses have a genome composed of a single strand of positive sense RNA. The strand has a poly A tail at the 3' end, but no 5' cap but instead is linked to a VPg protein. With the exclusion of polyadenylation at the 3' end, the genome is between 6.8 and 7.9 kb long. The genome is arranged into three open reading frames, with an overlap of approximately 70 nucleotides between ORF1a and ORF1b. The remaining ORF is known as ORF2. ORF2 encode the structural proteins, which are -at least- VP26, VP29 and VP32, the most antigenic and immunogenic of these being VP26. This protein is probably involved in the first steps of viral infection, being a key factor in the biological cycle of astroviruses. The human astrovirus genome mutation rate has been estimated to be 3.7×10⁻³ nucleotide substitutions per site per year with the synonymous changes rate of 2.8×10⁻³ nucleotide substitutions per site per year. The capability for genetic recombination appears to be present in type-3 and type-4 human astroviruses, and in porcine astrovirus strains.

Replication

Replication of astroviruses occur in the cytoplasm. Astrovirus RNA is infectious and functions as a messenger RNA for ORF1a and ORF1b, with translation initiation thought to be mediated by VPg similar to Caliciviridae. A frame-shifting mechanism between these two nonstructural polypeptides translates RNA-dependent RNA polymerase. In replication complexes near intracellular membranes, ORF1a and ORF1b are cleaved to generate individual nonstructural proteins that are involved in replication. RdRp transcribes subgenomic RNA from the subgenomic promoter, which enables higher production of structural proteins. Subgenomic RNA contains ORF2 which encodes precursor capsid protein. VP90 is proteolytically cleaved during packaging and produces immature capsids made of VP70. Following encapsidation, immature capsids are released from the cell without lysis. Extracellular virions are cleaved by Trypsin and form mature infectious virions.

Evolution

The Astroviridae capsid is related to those of the Tymoviridae. The non-structural region is related to the Potyviridae. It appears that this group of viruses may have arise at some point in the past as a result of recombination event between two distinct viruses and that this even occurred at the junction of the structural and non-structural coding regions.

Species infected

Avastrovirus

Avastrovirus 1–3 are associated with enteric infections in turkeys, ducks, chicken and guinea fowl. In turkey poults 1–3 weeks of age, some symptoms of enteritis include diarrhea, listlessness, liver eating and nervousness. These symptoms are usually mild but in cases of poult enteritis and mortality syndrome, which has dehydration, immune dysfunction and anorexia as symptoms, mortality is high. Post mortem examination of the intestines of infected birds show fluid filled intestines. Hyperplasia of enterocytes is also observed in histopathology studies. However, in contrast to other enteric viruses, there isn't villous supply.
Avastrovirus species often infect extraintestinal sites such as the kidney or liver resulting in hepatitis and nephritis. Birds infected by avian nephritis virus typically die within 3 weeks of infection. The viral particles can be detected in fecal matter within 2 days and peak virus shedding occurs 4–5 days after infection. The virus can be found in the kidney, jejunum, spleen, liver and bursa of infected birds. Symptoms of this disease include diarrhea and weight loss. Necropsies show swollen and discolored kidneys and there is evidence of death of the epithelial cells and lymphocytic interstitial nephritis. Another extraintestinal avastrovirus is avian hepatitis virus which infects ducks. Hepatitis in ducks caused by this duck astrovirus is often fatal.
In birds, Avastroviruses are detected by antigen-capture ELISA. In the absence of vaccines, sanitation is the prevalent way to prevent Avastrovirus infections.

Mamastrovirus

Mamastroviruses often cause gastroenteritis in infected mammals. In animals, gastroenteritis is usually undiagnosed because most astrovirus infections are asymptomatic. However, in mink and humans, astroviruses can cause diarrhea and can be fatal. The incubation period for Mamastrovirus is 1–4 days. When symptoms occur, the incubation period is followed by diarrhea for several days. In mink, symptoms include increased secretion from apocrine glands. Human astroviruses are associated with gastroenteritis in children and immunocompromised adults. 2–8% of acute non-bacterial gastroenteritis in children is associated with human astrovirus. These viral particles are usually detected in epithelial cells of the duodenum. In sheep, ovine astroviruses were found in the villi of the small intestine.
Mamastroviruses also cause diseases of the nervous system. These diseases most commonly occur in cattle, mink and humans. In cattle, this occurs sporadically and infects individual animals. Symptoms of this infection include seizure, lateral recumbency and impaired coordination. Histological examinations showed neuronal necrosis and gliosis of the cerebral cortex, cerebellum, spinal cord and brainstem.

Signs and symptoms in humans

Members of a relatively new virus family, the astroviridae, astroviruses are now recognised as a cause of gastroenteritis in children, whose immune systems are underdeveloped, and elderly adults, whose immune systems are generally somewhat compromised. Presence of viral particles in fecal matter and in epithelial intestinal cells indicate that the virus replicates in the gastrointestinal tract of humans. The main symptoms are diarrhoea, followed by nausea, vomiting, fever, malaise and abdominal pain. Some research studies have shown that the incubation period of the disease is approximately three to four days. Astrovirus infection is not usually a severe situation and only in some rare cases leads to dehydration. The severity and variation in symptoms correlates with the region the case develops in. This could be due to climatic factors influencing the life cycle or transmission method for that particular strain of Astrovirus. Malnutrition and immunodeficiency tend to exacerbate the condition, leading to more severe cases or secondary conditions that could require hospital care. Otherwise, infected people do not need hospitalization because symptoms will reduce by themselves, after 2 to 4 days.
Human infections are usually self-limiting but may also spread systematically and infect immunocompromised individuals.
Astroviruses most frequently cause infection of the gastrointestinal tract but in some animals they may result in encephalitis, hepatitis and nephritis.