Ictavirus ictaluridallo2 explained

Ictavirus ictaluridallo2 (IcHV-2) is a species of virus in the genus Ictalurivirus, family Alloherpesviridae, and order Herpesvirales.^[1]

Also known as the black bullhead virus, it is phylogenetically similar to IcHV-1. Distinction between the two species is reliant on the places of detection and the severity of clinical signs. IcHV-2 has been experimentally observed to result in more severe clinical signs in channel catfish than IcHV1.^[2]

Background

IcHV-2 was first observed in 1994 after two mass mortality events occurred in two different catfish farms in Italy, resulting in severe economic loss.

As observed in experimental trials, there is a higher mortality rate in channel catfish when exposed to IcHV-2 than in trials and previous background studies where channel catfish were exposed to IcHV-1. It is also shown that through syncytial cytopathic effect, both strains of Ictalurid herpesvirus are homologous to the syncytia produced.

Genome

Next-generation sequencing performed on IcHV2 revealed its complete genome to be 142,925 bp, along with 77 (predicted) protein-coding regions with 12 open reading frames (ORFs) where these ORFs are seen to be homologous with every other Alloherpesvirus sequenced.^[3] High synteny between IcHV1 and IcHV2 was also observed.

Diagnosis

Detection of IcHV-2 uses quantitative PCR (qPCR) for any potential carriers or for checking for isolates. While IcHV-2 was detected in all organs, the virus was seen the highest in the kidney and spleen; meanwhile, liver and gill concentrations were much lower.^[4]

Other uses of qPCR can help detect IcHV-2 in latently infected carrier fish. This helps reduce the risk of potentially relocating the virus and introducing it into new aquaculture and whether or not high morbidity rates are from IcHV-2 or another pathogen.

Pathology

Clinical signs of IcHV-2 include disoriented swimming or instances where they dwell at the surface of the pond bank. Other signs include scattered hemorrhages and kidney tissue death.

IcHV2 propagation control is a highly researched topic due to it showing much more intensive mortality rates in channel catfish than IcHV-1. The high mortality rate is due to the fact that IcHV-2 propagation and viral transmission has an optimal temperature of 24°C, which is relatively lower than IcHV-1. Furthermore, overcrowded pens contribute to the transmission of the virus.

Notes and References

1. Web site: ICTV Master Species List 2018b.v2. https://web.archive.org/web/20190330100806/https://talk.ictvonline.org/files/master-species-lists/m/msl/8266. dead. March 30, 2019. International Committee on Taxonomy of Viruses (ICTV). 19 June 2019.
2. Hedrick . R. P. . McDowell . T. S. . Gilad . O. . Adkison . M. . Bovo . G. . 2003 . Systemic herpes-like virus in catfish Ictalurus melas (Italy) differs from Ictalurid herpesvirus 1 (North America) . Diseases of Aquatic Organisms . en . 55 . 2 . 85–92 . 10.3354/dao055085 . 0177-5103.
3. Borzák . R. . Haluk . T. . Bartha . D. . Doszpoly . A. . 2018 . Complete genome sequence and analysis of ctalurid herpesvirus 2 . Archives of Virology . en . 163 . 4 . 1083–1085 . 10.1007/s00705-017-3683-8 . 0304-8608.
4. Goodwin . A. E. . Marecaux . E. . 2010 . Validation of a qPCR assay for the detection of Ictalurid herpesvirus‐2 (IcHV‐2) in fish tissues and cell culture supernatants . Journal of Fish Diseases . en . 33 . 4 . 341–346 . 10.1111/j.1365-2761.2009.01126.x . 0140-7775.