West Nile virus (WNV), a mosquito-borne flavivirus, has recently emerged in North America, and the elderly are particularly susceptible to severe neurological disease and death from infection with this virus. We have investigated the innate immune response of primary human macrophages to WNV in vitro and have found significant differences between the responsiveness of macrophages derived from younger donors and that from older donors. Binding of the glycosylated WNV envelope protein to the C-type lectin dendritic cell-specific intercellular adhesion molecule 3 (ICAM3) grabbing nonintegrin (DC-SIGN) leads to a reduction in the expression of Toll-like receptor 3 (TLR3) in macrophages from young donors via the signal transducer and activator of transcription 1 (STAT1)-mediated pathway. This signaling is impaired in the elderly, and the elevated levels of TLR3 result in an elevation of cytokine levels. This alteration of the innate immune response with aging may contribute to the permeability of the blood-brain barrier and suggests a possible mechanism for the increased severity of WNV infection in older individuals.
Culex pipiens pipiens L. (Diptera: Culicidae), infected per os from a membrane feeder, transmitted West Nile virus (family Flaviviridae, genus Flavivirus, WNV) at 26 degrees C horizontally during feeding to hamsters and suckling mice and vertically to F1 progeny during egg deposition. Horizontal transmission rates increased with extrinsic incubation, with 75-100% of the females transmitting on days 16 through 25 postinfection (pi). No females deposited eggs infected with WNV after the first bloodmeal on 3-8 d pi. Females vertically transmitted WNV during egg laying after their second, third, and fourth bloodmeals on days 13-33 pi. The vertical transmission rate was 4.7%. The vertical minimal infection rate was 0.52 infected F1 specimens/1,000 specimens tested from females feeding during their second and later bloodmeals on hamsters or suckling mice. The sequence of horizontal and vertical transmission is reported. A female may transmit WNV 1) horizontally to a host during feeding and subsequently vertically to her offspring during egg laying, 2) vertically to her offspring during oviposition without prior horizontal transmission to a host, and 3) horizontally to a host without vertically transmitting the virus. These two means of transmission by Cx. p. pipiens contribute to the relatively high minimum infection rates that are reached in late summer and to the survival of virus during winter and initiation of amplification in the spring in the northeastern United States.
Ixodid ticks manipulate mammalian host pathways by secreting molecules from salivary glands. Novel cDNAs containing functional secretion signals were isolated from ixodid tick salivary glands using a signal sequence trap. Only 15/61 Rhipicephalus appendiculatus and 1/7 Amblyomma variegatum cDNAs had significant identity (< 1e-15) to previously identified sequences. Polypeptides that may interact with host pathways included a kinase inhibitor. Two proteins encoded homologues of the yolk protein vitellogenin and seventeen contained glycine-rich motifs. Four proteins without sequence matches had conserved structural folds, identified using a Threading algorithm. Predicted secretion signals were between fifteen and fifty-seven amino acids long. Four homologous polymorphic proteins contained conserved (26/27 residues) signal peptides. Ten functional tick secretion signals could not be unambiguously identified using predictive algorithms.
Summary The 35‐kDa movement protein (MP) gene of red clover necrotic mosaic virus (RCNMV) and 3′ flanking sequence were inserted in a cucumber necrosis virus (CNV) deletion mutant lacking a large portion of the coding region for the MP. Nicotiana benthamiana plants inoculated with chimeric synthetic transcripts of the resulting hybrid cDNA clone (M5/RM2) developed both local and systemic symptoms and accumulated high levels of chimeric viral RNA. Reverse transcriptase polymerase chain reaction (RT‐PCR) and sequence analysis of viral RNA extracted from systemically infected leaves of four different plants revealed that in each plant a large portion (305, 308, 315 or 127 nts) of the 3′ terminus of the inserted sequence spontaneously deleted during infection. In three of the deletion derivatives, the truncated RCNMV MP open reading frame (ORF) was fused in‐frame with the remaining portion of the 3′ terminal region of CNV MP ORF. The movement efficiencies of M5/RM2, a cloned copy of one of the deletion derivatives (ClM5/RM2dd1), and a stop codon mutant of ClM5/RM2dd1 (ClM5/RM2dd1stop), which prevents translational fusion to the CNV MP, were compared and it was determined that deletion of RCNMV MP sequences in conjunction with fusion to CNV MP sequences increases the movement efficiency of the chimeric virus genome. Absence of the C‐terminal region of the RCNMV MP in RCNMV RNA‐2 abolished RCNMV movement. However, movement could be complemented in trans if cells were coinoculated with ClM5/RM2dd1. Complementation of RCNMV movement did not occur using ClM5/RM2dd1stop, suggesting a role for appended CNV MP sequences in movement of the RCNMV genome. The ability of the CNV replicase to delete unnecessary or deleterious RCNMV sequences and to append the required CNV MP sequences reinforces the role of RNA recombination in the adaptation and evolution of viral genomes.
Culex pipiens pipiens L. (Diptera: Culicidae), infected per os from a membrane feeder, transmitted West Nile virus (family Flaviviridae, genus Flavivirus, WNV) at 26 degrees C horizontally during feeding to hamsters and suckling mice and vertically to F1 progeny during egg deposition. Horizontal transmission rates increased with extrinsic incubation, with 75-100% of the females transmitting on days 16 through 25 postinfection (pi). No females deposited eggs infected with WNV after the first bloodmeal on 3-8 d pi. Females vertically transmitted WNV during egg laying after their second, third, and fourth bloodmeals on days 13-33 pi. The vertical transmission rate was 4.7%. The vertical minimal infection rate was 0.52 infected F1 specimens/1,000 specimens tested from females feeding during their second and later bloodmeals on hamsters or suckling mice. The sequence of horizontal and vertical transmission is reported. A female may transmit WNV 1) horizontally to a host during feeding and subsequently vertically to her offspring during egg laying, 2) vertically to her offspring during oviposition without prior horizontal transmission to a host, and 3) horizontally to a host without vertically transmitting the virus. These two means of transmission by Cx. p. pipiens contribute to the relatively high minimum infection rates that are reached in late summer and to the survival of virus during winter and initiation of amplification in the spring in the northeastern United States.
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