A Human Lung Carcinoma Cell Line Supports Efficient Measles Virus Growth and Syncytium Formation via a SLAM- and CD46-Independent Mechanism

Takeda, Makoto; Tahara, Maino; Hanabusa, Takao; Satô, Takeshi; Jinnouchi, Fumiaki; Ueki, Shoko; Ohno, Shinji; Yanagi, Yusuke

doi:10.1128/jvi.01264-07

Cited by 76 publications

(74 citation statements)

References 49 publications

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“…A number of recent studies investigating MV infection of epithelial cells have focused on in vitro model systems (Tahara et al, 2008;Takeda et al, 2007) or have utilized the macaque model of measles in the absence of histological or pathological analysis of MV-infected tissues (Leonard et al, 2008). These studies have identified specific amino acids of the MV haemagglutinin (H) glycoprotein that are involved in the binding of H to a putative receptor (EpR) on the basolateral surface of epithelial cells and suggest a critical role for epithelial cells in mediating MV transmission.…”

Section: Introductionmentioning

confidence: 99%

Wild-type measles virus infection of primary epithelial cells occurs via the basolateral surface without syncytium formation or release of infectious virus

Ludlow

Rennick

Sarlang

et al. 2009

Journal of General Virology

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The lymphotropic and myelotropic nature of wild-type measles virus (wt-MV) is well recognized, with dendritic cells and lymphocytes expressing the MV receptor CD150 mediating systemic spread of the virus. Infection of respiratory epithelial cells has long been considered crucial for entry of MV into the body. However, the lack of detectable CD150 on these cells raises the issue of their importance in the pathogenesis of measles. This study utilized a combination of in vitro, ex vivo and in vivo model systems to characterize the susceptibility of epithelial cells to wt-MV of proven pathogenicity. Low numbers of MV-infected epithelial cells in close proximity to underlying infected lymphocytes or myeloid cells suggested infection via the basolateral side of the epithelium in the macaque model. In primary cultures of human bronchial epithelial cells, foci of MV-infected cells were only observed following infection via the basolateral cell surface. The extent of infection in primary cells was enhanced both in vitro and in ex vivo cornea rim tissue by disrupting the integrity of the cells prior to the application of virus. This demonstrated that, whilst epithelial cells may not be the primary target cells for wt-MV, areas of epithelium in which tight junctions are disrupted can become infected using high m.o.i. The low numbers of MV-infected epithelial cells observed in vivo in conjunction with the absence of infectious virus release from infected primary cell cultures suggest that epithelial cells have a peripheral role in MV transmission. INTRODUCTIONMeasles is a severe disease contributing to significant morbidity and mortality rates in many parts of the developing world (Grais et al., 2007). It is also of growing concern in some areas of the developed world where the vaccination rate has fallen below the level required to prevent periodic outbreaks of measles (Choi et al., 2008). The disease is characterized by fever and a maculopapular rash, often in conjunction with cough, coryza and/or conjunctivitis, and a generalized immunosuppression. The causative agent, wild-type measles virus (wt-MV) is spread by aerosolized droplets or direct contact (Griffin, 2007). The highly infectious nature of MV not only suggests a very efficient route of entry into the body but also an effective means of dissemination to susceptible individuals following systemic spread of the virus within the body.The tropism of MV in vivo is determined mainly by the distribution of CD150, also known as signalling lymphocyte activation molecule (SLAM), which is the primary cellular receptor for wild-type strains of the virus. The molecule is widely expressed in lymphoid tissues on subsets of B and T lymphocytes, thymocytes, macrophages and dendritic cells (DCs) (Kruse et al., 2001;McQuaid & Cosby, 2002). This is reflected by analysis of MV-infected cell types present at different stages of the disease, which shows that, in all tissues involved, the majority of infected cells are of a lymphoid origin (Hall et al., 1971; Moench et al., 1988). Ano...

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Section: Introductionmentioning

confidence: 99%

Wild-type measles virus infection of primary epithelial cells occurs via the basolateral surface without syncytium formation or release of infectious virus

Ludlow

Rennick

Sarlang

et al. 2009

Journal of General Virology

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“…10 An unidentified receptor (EpR) is used by MV in late stages of infection, when MV infects airway epithelial cells and sheds from the respiratory system. 7,11,12 We hypothesized that lentiviral vectors pseudotyped with the envelope proteins of WT MV will exhibit the tropism of clinical MV isolates, that is use SLAM and EpR for cell entry. The data show that MV WT -HIV vectors exhibit a restricted tropism for activated lymphocytes and epithelial cells and can be generated at substantially higher titers than MV Vac -HIV vectors.…”

Section: Introductionmentioning

confidence: 99%

Pseudotyping lentiviral vectors with the wild-type measles virus glycoproteins improves titer and selectivity

et al. 2009

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“…It is generally accepted that vaccine strains are able to use CD46 and CD150/SLAM for cell entry, whereas wild-type strains can use only CD150/SLAM; this is in agreement with the well-known lymphotropism of MV wild-type infections in vivo (for a review see Yanagi et al, 2006). In addition to CD46 and CD150/SLAM, there is evidence for an additional receptor on epithelial cells (Tahara et al, 2008;Takeda et al, 2007).…”

Section: Introductionmentioning

confidence: 64%

Sorting signals in the measles virus wild-type glycoproteins differently influence virus spread in polarized epithelia and lymphocytes

Runkler

Dietzel

Carsillo

et al. 2009

Journal of General Virology

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The spread of virus infection within an organism is partially dictated by the receptor usage of the virus and can be influenced by sorting signals present in the viral glycoproteins expressed in infected cells. In previous studies, we have shown that the haemagglutinin (H) and fusion protein (F) of the measles virus (MV) vaccine strain MV Edm harbour tyrosine-dependent sorting signals which influence virus spread in both lymphocytes and epithelial cells to a similar degree. In contrast with the vaccine strain, MV wild-type virus does not use CD46 but CD150/SLAM and a not clearly identified molecule on epithelial cells as receptors. To determine differences in viral spread between vaccine and wild-type virus, we generated recombinant MV expressing glycoproteins of both the wild-type strain WTFb and the corresponding tyrosine mutants. In contrast with observations based on vaccine virus glycoproteins, mutations in wild-type virus H and F differently influenced cell-to-cell fusion and replication in polarized epithelia and lymphocytes. For wild-type H, our data suggest a key role of the cytoplasmic tyrosine signal for virus dissemination in vivo. It seems to be important for efficient virus spread between lymphocytes, while the tyrosine signal in the F protein gains importance in epithelial cells as both signals have to be intact to allow efficient spread of infection within epithelia.

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A Human Lung Carcinoma Cell Line Supports Efficient Measles Virus Growth and Syncytium Formation via a SLAM- and CD46-Independent Mechanism

Cited by 76 publications

References 49 publications

Wild-type measles virus infection of primary epithelial cells occurs via the basolateral surface without syncytium formation or release of infectious virus

Wild-type measles virus infection of primary epithelial cells occurs via the basolateral surface without syncytium formation or release of infectious virus

Pseudotyping lentiviral vectors with the wild-type measles virus glycoproteins improves titer and selectivity

Sorting signals in the measles virus wild-type glycoproteins differently influence virus spread in polarized epithelia and lymphocytes

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