Culex Tarsalis Mosquitoes as Vectors of Highlands J Virus

Vector Borne Zoonotic Dis. 2016 Aug;16(8):558-65. doi: 10.1089/vbz.2015.1907. Epub 2016 Jun 1.

Abstract

Highlands J virus (HJV) is an alphavirus closely related to western equine encephalitis virus (WEEV) and eastern equine encephalitis virus (EEEV). HJV is an avian pathogen with the potential for disruption of poultry operations, but is not known to cause human or equine disease. HJV has only been identified in the eastern United States and is thought to have a transmission cycle similar to that of EEEV involving Culiseta melanura mosquitoes and birds. However, HJV is more genetically similar to WEEV and it remains unclear if it may be transmitted by Culex species mosquitoes like WEEV. Seven strains of HJV were characterized to assess this potential. Phylogenetic analysis of whole genome sequences revealed four distinct HJV lineages (lineages 1-4), and vector competence studies in Cx. tarsalis with four of the HJV strains from different lineages yielded two distinct infection patterns. Lineage 1 strains had low infection rates, while lineages 2 and 4 had significantly higher infection rates similar to those previously published for WEEV. The average mosquito body viral titer was highest at 8 dpi (6.60-7.26 log10 pfu equivalents/body), and head titers at all time points ranged between 6.01 and 6.80 log10 pfu equivalents/head. Nearly 45% of mosquitoes infected with strain AB-80-9 were able to transmit virus in saliva with an average titer of 5.02 log10 pfu equivalents/saliva. A single amino acid difference between high and low infectivity phenotypes was identified at genome position 8605, in the E2 gene. A nonpolar glycine was present in the low infectivity lineage 1 strains, while an acidic glutamic acid was present in the higher infectivity lineage 2 and 4 strains. This study demonstrates HJV transmission by Cx. tarsalis mosquitoes and clearly identifies the potential for transmission in the western United States. Two infection phenotypes were exhibited, indicating the need for further studies to understand Culex species transmission patterns.

Keywords: Alphaviruses; Culex; Mosquito(es); Transmission; Vector.

MeSH terms

  • Alphavirus / genetics
  • Alphavirus / isolation & purification*
  • Animals
  • Culex / virology*
  • Genome, Viral
  • Mosquito Vectors / virology*
  • Phylogeny
  • Saliva / virology