Wild-Type Measles Virus with the Hemagglutinin Protein of the Edmonston Vaccine Strain Retains Wild-Type Tropism in Macaques

Self Cite

126

134

In that outbreak, 46 monkeys died from severe pneumonia during a quarantine period. A CDV strain (CYN07-dV) was isolated in Vero cells expressing dog signaling lymphocyte activation molecule (SLAM). Phylogenic analysis showed that CYN07-dV was closely related to the recent CDV outbreaks in China, suggesting continuing chains of CDV infection in monkeys. In vitro, CYN07-dV uses macaca SLAM and macaca nectin4 as receptors as efficiently as dog SLAM and dog nectin4, respectively. CYN07-dV showed high virulence in experimentally infected cynomolgus monkeys and excreted progeny viruses in oral fluid and feces. These data revealed that some of the CDV strains, like CYN07-dV, have the potential to cause acute systemic infection in monkeys.

Section: Discussionmentioning

confidence: 93%

Lethal Canine Distemper Virus Outbreak in Cynomolgus Monkeys in Japan in 2008

Sakai

Nagata

Ami

et al. 2013

Self Cite

126

134

“…Indeed, vaccine MV infects nectin-4-expressing cell lines with an efficiency similar to that of wild-type strains (14). Remarkably, a wild-type virus expressing the vaccine H protein still replicates preferentially if not exclusively in lymphoid (SLAM-expressing) and respiratory (nectin-4-expressing) tissues in vivo (47), implying dominance of entry through the natural receptors for MV spread.…”

Section: Discussionmentioning

confidence: 98%

The Measles Virus Hemagglutinin β-Propeller Head β4-β5 Hydrophobic Groove Governs Functional Interactions with Nectin-4 and CD46 but Not Those with the Signaling Lymphocytic Activation Molecule

Mateo

Navaratnarajah

Syed

et al. 2013

Measles virus (MV), which belongs to the family Paramyxoviridae within the order Mononegavirales (1), may be the most contagious aerosol-transmitted virus circulating in human populations (2). In 2010, about 139,000 people died from secondary infections due to MV-induced immune suppression (3, 4). While a worldwide vaccination campaign aiming at eradication is ongoing (5), diminishing vaccine coverage in the United States and Europe has caused a rebound of measles cases in 2011, threatening the feasibility of eradication by 2020 (6).MV infection starts in alveolar macrophages and dendritic cells of the airways, which transport the virus to the lymphoid organs (7,8). MV then replicates rapidly and extensively in local lymph nodes and primary lymphatic organs. Infected immune cells circulate through the body and can transmit the infection to the respiratory epithelium, from where the virus is shed through coughing and sneezing (9-12).Wild-type MV sequentially infects immune cells through the signaling lymphocytic activation molecule (SLAM; CD150) (13) and epithelial cells through the adherens junction protein nectin-4, also known as poliovirus receptor-like 4 (PVRL4) (12,14,15). In addition, the MV vaccine strain uses the ubiquitous regulator of complement activation membrane cofactor protein (MCP; CD46) as a receptor (16,17). MV attachment to its three receptors occurs through hemagglutinin (H), a type II transmembrane glycoprotein (18). The H ectodomain is composed of a tetrameric membrane-proximal stalk topped by four six-bladed ␤-propeller globular heads (19). Receptor attachment to the H globular head can trigger refolding of the trimeric fusion (F) protein and cell entry.While H-to-F signal transmission is only beginning to be understood (20-24), the molecular basis of the interactions of the receptors with H is better characterized. Initial functional analyses identified different H residues important for the interactions with the three receptors (11,(25)(26)(27)(28)(29)(30)(31). These studies were recently complemented by crystal structures of H in complex with CD46, SLAM, and nectin-4 (32-34). The SLAM (32) and CD46 (33) costructures are based on slightly different vaccine lineage H proteins, while the nectin-4 costructure (34) is based on a wild-type H protein differing by more than 17 residues from the other two proteins. Comparative analyses of the three costructures (34) concluded that a hydrophobic pocket centered in the ␤4-␤5 groove is involved in binding of all receptors. On the other hand, previous functional analyses revealed differences between the interactions of H and individual receptors (11,(25)(26)(27)(28)(29)(30)(31). Based on the recent identification of nectin-4 as an epithelial receptor, based on the availability of new cell lines and specific reagents for all three receptors, and focusing on the overlap of the structural footprints of the receptors, we reexamined here the functional interactions of H with its three cellular partners. We used a vaccine lineage H protein, allowing direct...

“…routes (7), where the attenuated virus targeted the same CD150-expressing cells as the wild type, and infection of CD46-expressing cells was observed at a very low level. Another study where the H glycoprotein of a wild-type strain of MV was replaced with that from an attenuated strain, which could use CD46 as an entry receptor in vitro, found that replacement of the H gene did not change the tropism of the virus in macaques, where mainly CD150 ϩ infected cells were detected after infection (41). It is also in accordance with our previous studies in macaques infected with the wild-type KhartoumSudan (KS) strain of MV (6), where we identified alveolar macrophages and DCs as the early target cells of wild-type MV when administered via the aerosol route.…”

Section: Fig 3 Target Cells Of Rmv Ez Egfp(3) Egfp Distribution In Mmentioning

confidence: 99%

Live-Attenuated Measles Virus Vaccine Targets Dendritic Cells and Macrophages in Muscle of Nonhuman Primates

Rennick

Vries

Carsillo

et al. 2015

Although live-attenuated measles virus (MV) vaccines have been used successfully for over 50 years, the target cells that sustain virus replication in vivo are still unknown. We generated a reverse genetics system for the live-attenuated MV vaccine strain Edmonston-Zagreb ( IMPORTANCE Even though MV strain Edmonston-Zagreb has long been used as a live-attenuated vaccine (LAV) to protect against measles, nothing is known about the primary cells in which the virus replicates in vivo.This is vital information given the push to move toward needle-free routes of vaccination, since vaccine virus replication is essential for vaccination efficacy. We have generated a number of recombinant MV strains expressing enhanced green fluorescent protein. The virus that best mimicked the nonrecombinant vaccine virus was formulated according to protocols for production of commercial vaccine virus batches, and was subsequently used to assess viral tropism in nonhuman primates. The virus primarily replicated in professional antigen-presenting cells, which may explain why this LAV is so immunogenic and efficacious.