Deer tick virus

Deer tick virus
Black and white Feulgen stained microphotograph depicting intact tick salivary glands infected by deer tick virus. Hypotrophied salivary acinus filled with amorphous masses of pinkstaining (=Feulgen positive) material (arrows). Scale bar = 10 µm.
Black and white Feulgen stained microphotograph depicting intact tick salivary glands infected by deer tick virus. Hypotrophied salivary acinus filled with amorphous masses of pinkstaining (=Feulgen positive) material (arrows). Scale bar = 10 µm.
Virus classification Edit this classification
(unranked): Virus
Realm: Riboviria
Kingdom: Orthornavirae
Phylum: Kitrinoviricota
Class: Flasuviricetes
Order: Amarillovirales
Family: Flaviviridae
Genus: Flavivirus
Species:
Virus:
Deer tick virus
Deer tick virus
PreventionAvoid possible tick-infested areas, such as the woodlands
Deaths2[1][2]

Deer tick virus (DTV) is a virus in the genus Flavivirus spread via ticks that causes encephalitis.[1]

Taxonomy

[edit]

DTV closely resembles Powassan virus (to which it has 84% nucleotide sequence identity and 94% amino acid sequence identity).[3] Due to their close similarities, DTV is also called Powassan virus lineage II.[4] The DTV lineage is presumed to be maintained between Ixodes scapularis, or deer ticks, and the white-footed mouse (Peromyscus leucopus).[5]

Phylogram indicating the relationship of deer tick virus to other tick-borne encephalitis group viruses. TBE, tick-borne encephalitis; TSE, Turkish sheep encephalitis; GGE, Greek goat encephalitis; LI, louping ill virus; SSE, Spanish sheep encephalitis; KFD, Kyasanur Forest disease virus; TYU, Tyuleniy virus; SRE, Saumarez Reef virus.
Values above branches indicate bootstrapped confidence values. Branch lengths are proportional to percent similarity in sequence.

Epidemiology

[edit]

DTV has a strong prevalence in the northeastern and north central part of the United States, although little to no human infections have been reported. Only about 1 to 3% of I. scapularis ticks in the northern United States are possibly infected with DTV.[2] This infers that the virus is not seriously pathogenic or it does not easily infect humans. Human incidence might be severely underestimated.[1]

History

[edit]

In 1997, it was isolated from I. scapularis ticks collected in Massachusetts and Connecticut.[6]

A fatal case of DTV encephalitis occurred at a New York hospital when a 62-year-old man with a meningoencephalitis syndrome, fever, weaknesses in the right arm and leg, and maculopapular rash died from the virus. After an autopsy, his tissues were found to have DTV on a PCR assay. The patient had no history of travel in the days before his admission to the hospital, which implies that the virus might be active in the New York area. He spent times outdoors in woodland areas and had frequent contacts with horses. Lyme disease was commonly reported in the patient's area of residence, showing that tick activity was prevalent in the patient's area (at the time of admission).[1]

In 2017, another fatal case of DTV was documented when a 72-year-old woman was admitted to a hospital in Maine with a fever, low blood pressure, and urination problems. A month before her admission, an I. scapularis tick was removed from her left breast. Another embedded I. scapularis tick was removed from her left scapula only three weeks after the first tick had been removed. She later developed muscle aches, chills, and a rash that is often seen in the early stages of Lyme disease in the same area the tick was removed from. She developed several other concerning symptoms towards the end of her admission at the hospital, which ranged from joint pains to thrombocytopenia. She was given doses of doxycycline and antibiotics (vancomycin and meropenem), which provided no relief to her illness. She later died and a limited autopsy was performed. A severe loss of anterior horn cells within the spinal cord and meningoencephalitis of the brain were discovered. A considerable loss of Purkinje cells was evident in the patient.[2]

See also

[edit]

Footnotes

[edit]
  1. ^ a b c d Tavakoli NP, Wang H, Dupuis M, Hull R, Ebel GD, Gilmore EJ, Faust PL (2009). "Fatal case of deer tick virus encephalitis". N. Engl. J. Med. 360 (20): 2099–2107. doi:10.1056/NEJMoa0806326. PMC 2847876. PMID 19439744.
  2. ^ a b c Cavanaugh, Catherine; Muscat, Paul; Telford, Sam; Goethert, Heidi; Pendlebury, William; Elias, Susan; Robich, Rebecca; Welch, Margret; Lubelczyk, Charles; Smith, Robert (15 September 2017). "Fatal Deer Tick Virus Infection in Maine". Clinical Infectious Diseases. 65 (6): 1043–1046. doi:10.1093/cid/cix435. PMID 28903511.
  3. ^ Kuno G, Artsob H, Karabatsos N, Tsuchiya KR, Chang GJ (November 2001). "Genomic sequencing of deer tick virus and phylogeny of powassan-related viruses of North America". Am. J. Trop. Med. Hyg. 65 (5): 671–6. doi:10.4269/ajtmh.2001.65.671. PMID 11716135.
  4. ^ Dupuis II, Alan P; Peters, Ryan J; Prusinski, Melissa A; Falco, Richard C; Ostfeld, Richard S; Kramer, Laura D (2013-07-15). "Isolation of deer tick virus (Powassan virus, lineage II) from Ixodes scapularis and detection of antibody in vertebrate hosts sampled in the Hudson Valley, New York State". Parasites & Vectors. 6: 185. doi:10.1186/1756-3305-6-185. ISSN 1756-3305. PMC 3711734. PMID 24016533.
  5. ^ El Khoury, Marc; Camargo, Jose; White, Jennifer; Backenson, Bryon; Dupuis, Alan; Escuyer, Kayer; Kramer, Laura; George, Kirsten; Chatterjee, Debarati; Prusinski, Melissa; Wormser, Gary; Wong, Susan (19 December 2013). "Potential Role of Deer Tick Virus in Powassan Encephalitis Cases in Lyme Disease–endemic Areas of New York, USA". Emerg Infect Dis. 19 (12): 1926–33. doi:10.3201/eid1912.130903. PMC 3840892. PMID 24274334.
  6. ^ Telford SR, Armstrong PM, Katavolos P, et al. (1997). "A new tick-borne encephalitis-like virus infecting New England deer ticks, Ixodes dammini". Emerging Infect. Dis. 3 (2): 165–70. doi:10.3201/eid0302.970209. PMC 2627606. PMID 9204297.