''Hytrosaviridae'' is a family of double-stranded DNA viruses that infect insects.
[Abd-Alla A, Vlak J, Bergoin M, Maruniak J, Parker A, Burand J, Jehle J, Boucias D and Hytrosavirus Study Group of the ICTV (2009) ''Hytrosaviridae'': a proposal for classification and nomenclature of a new insect virus family. Arch Virol 154:909–918] The name is derived from ''Hytrosa'', sigla from the Greek ''Hypertrophia'' for 'hypertrophy' and 'sialoadenitis' for 'salivary gland inflammation.'
Description
The viruses in this family are non occluded, enveloped, rod-shaped virions measuring 500–1,000
nanometers (nm) in length and 50–80 nm in diameter. The virions contain a thin, dense central nucleocapsid that encases the DNA-protein core. The nucleocapsid core is surrounded by an amorphous proteinaceous tegument layer. The outer surface of the virions is studded with helical polymeric structure composed of virally-encoded and host-derived protein dimers. The virions contain at least 35 polypeptides which range in size from 10 to 200 kilo
Dalton
Dalton may refer to:
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* Dalton (crater), a lunar crater
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* Dalton (unit) (Da), the atomic mass unit
* John Dalton, chemist, physicist and meteorologist
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* Dalton (Buffyverse), minor ch ...
s.
The genome is a supercoiled, circular double stranded DNA (dsDNA) molecule ranging in size from 120 to 190 kilobases with 108-174 putative non-overlapping genes that are equally distributed over the genome in unidirectional clusters. The G+C ratio varies between 28% and 44%.
Species in this family cause overt salivary gland hypertrophy symptoms in dipteran adults. Infection and replication in non-salivary gland cells induce partial in tsetse flies and complete shutdown of vitellogenesis in the houseflies,.
Replication occurs in the
nucleus
Nucleus ( : nuclei) is a Latin word for the seed inside a fruit. It most often refers to:
*Atomic nucleus, the very dense central region of an atom
* Cell nucleus, a central organelle of a eukaryotic cell, containing most of the cell's DNA
Nucl ...
of secretory
epithelial cells of the
salivary gland
The salivary glands in mammals are exocrine glands that produce saliva through a system of ducts. Humans have three paired major salivary glands ( parotid, submandibular, and sublingual), as well as hundreds of minor salivary glands. Salivary ...
. The viral DNA synthesis and transcription occurs within the nuclear replication complexes. Replication involved temporal expression of immediate early, early and late genes. The nucleocapsids exit the nucleus into the cytoplasm through the nuclear pore complex, after which they associate with the Golgi apparatus that culminates in cytoplasmic envelopment and virion assembly.
Transmission is either horizontally (''per os'') through feeding or vertically (transovarially) from mother to offspring,. Mechanical transmission (trans-cuticular though wounds) has been suggested in the houseflies.
Taxonomy
Two genera, each containing one species, are assigned to this family:
* ''
Glossinavirus''
** ''Glossina hytrosavirus'', also called Glossina pallidipes salivary gland hypertrophy virus (GpSGHV)
* ''
Muscavirus''
** ''Musca hytrosavirus'', also called Musca domestica salivary gland hypertrophy virus (MdSGHV)
Host Range
* ''
Glossina pallidipes''. This is the natural host of Glossina pallidipes salivary gland hypertrophy virus (GpSGHV), in which the virus predominantly causes chronic asymptomatic (covert) SGH infections. GpSGHV is highly specific to ''Glossina'' species. There is no available evidence for GpSGHV infections or replication in heterologous host species such as the housefly. The susceptibility of the tsetse fly to GpSGHV infections differ widely in different ''Glossina'' species, of which ''Glossina pallidipes'' is the most susceptible. Up to 15 different GpSGHV haplotypes with varying prevalence rates have been reported in the wild populations of tsetse flies in East, Central and West Africa,.
* ''
Musca domestica
The housefly (''Musca domestica'') is a fly of the suborder Cyclorrhapha. It is believed to have evolved in the Cenozoic Era, possibly in the Middle East, and has spread all over the world as a commensal of humans. It is the most common f ...
''. The common housefly is the natural host of Musca domestica salivary gland hypertrophy virus (MdSGHV), in which the virus causes only acute symptomatic (overt) SGH infections,. Under laboratory setting, MdSGHV can infect other insects, including the obligate hemato phagous stable flies (''Stomoxys calcitrans''), the autumn housefly (''Musca autumnalis''), and the larvae predator of the housefly, the black dump fly (''Hydrotaea aenescens''). However, MdSGHV does not induce overt SGH symptoms in hosts other than the housefly, but it does significantly affect ovarian development and cause mortalities in some of the muscids such as the stable fly and dump fly.
* ''
Merodon equestris
''Merodon equestris'' (Narcissus bulb fly, greater bulb fly, large bulb fly, large Narcissus fly) is a Holarctic species of hoverfly (Family Syrphidae).
Like many other hoverflies it displays a colouration pattern similar to a stinging insect ...
''. The hytrosavirus infecting this phytophagous syrphid fly is yet to be characterized.
Morphologically and symptomologically similar virus to SGHVs has been reported to cause SGH symptoms in the male accessory gland filaments of the solitary braconid wasp, ''
Diachasmimorpha longicuadata'' Ashmed (Hymenoptera. Braconidae), which suggests existence of other ''Hytrosaviridae'' family members.
Virology
Prevalence
In epidemiology, prevalence is the proportion of a particular population found to be affected by a medical condition (typically a disease or a risk factor such as smoking or seatbelt use) at a specific time. It is derived by comparing the number o ...
of this virus is high (80%) in ''Glossina pallidipes''. Within the housefly populations, MdSGHV induces variable rates of overt SGH symptoms (0-40%), which is related to the fly's seasonal densities at various sampling sites.
Pathogenesis and Tissue Tropism
Hytrosaviruses (SGHVs) induce similar gross pathology (SGH symptoms) in the salivary glands of their respective adult insect hosts, but the cytopathogies are distinct for the each of the two known genera (''Glossinavirus'' and ''Muscavirus''). Both pairs of the salivary gland tissue are equally affected (swollen up to four times their normal sizes) with the enlargement extending the entire lengths of the distal regions of the salivary glands. Infections of tissues other than the salivary glands is associated with various pathologies such as reproductive dysfunctions, infertility in females and distorted mating behaviors.
Pathogenesis in the Salivary Glands
GpSGHV causes salivary gland
hyperplasia in the infected tsetse flies, i.e. only the cytoplasmic but not the nuclear compartment of the glands are enlarged. However, the hyperplastic salivary gland cells are capable of dividing. This pathology is thought to be due to the virus-induced reprogramming of the differentiated salivary gland cells. Overall, the induction of overt SGH symptoms is typically the exemption rather than the rule. It is only under some unknown conditions that the asymptomatic infection state is triggered to the symptomatic infection state. When GpSGHV is artificially inoculated (intrahemocoelic) into adult stages of the tsetse fly ''Glossina pallidipes'', overt SGH symptoms develop in the F1 offsprings produced by the injected mothers, but not in the parental generation.
MdSGHV induces salivary gland
hypertrophy
Hypertrophy is the increase in the volume of an organ or tissue due to the enlargement of its component cells. It is distinguished from hyperplasia, in which the cells remain approximately the same size but increase in number.Updated by Linda J. ...
in the housefly, i.e. both the cytoplasmic and nuclear compartments of the salivary gland tissue proliferate, but are incapable of dividing. When MdSGHV suspensions are artificially infected into adult houseflies, the virus induces overt SGH symptoms in 100% of the infected flies within three days post infection. Adult housefly develops increased resistance to MdSGHV infections with age, which is partially attributed to the development of the PM barrier in the fly's midguts.
Pathogenesis in non-Salivary Gland Tissues
Infections of non-salivary gland tissues in the tsetse flies by GpSGHV is associated with
testicular
A testicle or testis (plural testes) is the male reproductive gland or gonad in all bilaterians, including humans. It is homologous to the female ovary. The functions of the testes are to produce both sperm and androgens, primarily testosteron ...
degeneration,
ovarian
The ovary is an organ in the female reproductive system that produces an ovum. When released, this travels down the fallopian tube into the uterus, where it may become fertilized by a sperm. There is an ovary () found on each side of the body ...
abnormalities, severe
necrosis, degeneration of germinaria, and a reduction of the fly's development, survival and fecundity. Infections of the
milk glands cause necrosis and depletion of the milk reservoir organelles.
In the housefly, MdSGHV in non-salivary gland tissues blocks the production of
sesquiterpenoids, which in turn induces complete shutdown of
vitellogenesis
Vitellogenesis is the process of yolk protein formation in the oocytes of non mammalian vertebrates during sexual maturation. The term ''vitellogenesis'' comes from the Latin ''vitellus'' ("egg yolk"). Yolk proteins, such as Lipovitellin and P ...
. The ovaries of viremic housefly females become arrested at the pre-vitellogenic stages. MdSGHV induces behavioral alterations in infected females, which refuse to copulate with either healthy or viremic males.
Viral Latency
The asymptomatic GpSGHV infection state represents either a sub-lethal persistence or latency. Host's RNA interference (RNAi) machineries such as the small interfering RNA (siRNA) and micro RNA (miRNA) pathways have been implicated in keeping GpSGHV infections under control,.
Similarities with other Virus Taxa
Structurally, hytrosaviruses are similar to members of other arthropod-infecting virus families such as ''
Baculoviridae
''Baculoviridae'' is a family of viruses. Arthropods, among the most studied being Lepidoptera, Hymenoptera and Diptera, serve as natural hosts. Currently, 85 species are placed in this family, assigned to four genera.
Baculoviruses are kno ...
'', ''Nudiviridae'' and ''Nimaviridae''. Hytrosaviruses share 12 of the 38 core genes that have been described in baculoviruses, nudiviruses, nimaviruses and some bracoviruses. Some of the structural and genomic features shared between hytrosaviruses and other large, dsDNA viruses include the possession of enveloped, rod-shaped virions, circular dsDNA genomes and replication in the nucleus of infected cells. However, hytrosaviruses differ functionally with baculoviruses by the lack of occlusion bodies and lower lethality.
The viral DNA polymerase encoded is type B, which is present and conserved in all large dsDNA viruses. At the amino acid level, the best match of the DNA polB of hytrosaviruses is to the DNA polB found in the ''
Alcelaphine gammaherpesvirus'',. Based on the DNA polB gene, hytrosaviruses relate more closely with invertebrate viruses with large linear dsDNA compared to viruses with circular dsDNA genomes. Some of the linear dsDNA viruses that cluster together with hytrosaviruses include members of families
Herpesviridae' (120-240 kp),
Iridoviridae' (140-303 bp),
Poxviridae' (130–375 kb),
Phycodnaviridae' (100–560 kb) and
Mimiviridae' (1200 kb).
Hytrosaviruses encode homologs to the core and highly conserved oral infectivity factor (PIF) genes found in other dsDNA viruses (PIFs o/P74, 1,2 and 3), and occlusion-derived virus (ODV) envelope of epidopteran baculoviruses (OVD-E66). Also found in hytrosaviruses are homologs to some of the subunits of the
DNA-dependent RNA polymerase
In molecular biology, RNA polymerase (abbreviated RNAP or RNApol), or more specifically DNA-directed/dependent RNA polymerase (DdRP), is an enzyme that synthesizes RNA from a DNA template.
Using the enzyme helicase, RNAP locally opens the ...
(DdRp) complex found in baculoviruses and nudivuses. The DdRp complex components present in the hytrosaviruses include the late expression factors 4, 5, 8 and 9 (LEF-4, LEF-5, LEF-8 and LEF-9).
Diagnosis and Management of Hytrosavirus Infections
In mass rearing facilities, infections of tsetse flies by hytrosavirus causes reduction in colony productivity, which can cause collapse of the colonies. The virus is introduced into the mass rearing facilities from asymptomatic, field-collected materials, or material derived from already existing colonies, that are used to establish new or replenish existing colonies. The virus is then spread and maintained in the colonies through vertical transmission. Unknown factors (e.g. stress or genetic) can trigger expression of overt SGH symptoms, which culminate in fly mortalities, reduced fecundity and eventual colony collapse.
There are no obvious external clinical signs for hytrosavirus infections. The hytrosavirus infecting the tsetse flies can be diagnosed using a simple, sensitive and reliable non-destructive PCR-based assay, which allows the screening of the virus in individual live flies.
Hytrosavirus infections in mass-reared tsetse flies can be effectively managed by an integrated approach involving a "clean feeding system" (CFS), which is based on strict sanitation, regular and routing monitoring of viral infections and the occurrence of overt SGH symptoms. The CFS can be combined with supplementation of bloodmeals with antiviral drugs such as valacyclovir, which are administered at low doses that are non-detrimental to the fly's DNA synthesis.
When administered, the antiviral drug is converted into active metabolites by the virally-encoded thymidylate synthase. The active metabolites subsequently block viral replication resulting in the reduction of viral titers and shedding.
References
External links
ICTV Report: ''Hytrosaviridae''{{Taxonbar, from=Q5962477
Virus families