Mervi Eskelinen scite author profile

Mervi Eskelinen

3Publications

40Citation Statements Received

64Citation Statements Given

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Finnish Institute for Health and Welfare, Institute for Molecular Medicine Finland

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An enterovirus strain isolated from diabetic child belongs to a genetic subcluster of echovirus 11, but is also neutralised with monotypic antisera to coxsackievirus A9

Al-Hello

Paananen

Eskelinen

et al. 2008

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An enterovirus strain (designated D207) isolated from a Slovakian diabetic child and originally serotyped as coxsackievirus A9 (CAV-9) was found to cause rapid cytolysis coinciding with severe functional damage of the surviving cells in primary cultures of human pancreatic islets. This finding prompted us to clone the isolate for full-length genome sequencing and molecular characterization as the prototype strain of CAV-9 is known to cause only minimal damage to insulin-producing β-cells. Based on capsid-coding sequence comparisons, the isolate turned out to be echovirus 11 (E-11). Phylogenetic analyses demonstrated that E-11/D207 was closely related to a specific subgroup B of E-11 strains known to cause uveitis. To study further antigenic properties of isolate E-11/D207 and uveitis-causing E-11 strains, neutralization experiments were carried out with CAV-9- and E-11-specific antisera. Unlike the prototype strains, the isolate E-11/D207 and uveitis-causing E-11 strains were well neutralized with both CAV-9- and E-11-specific antisera. Attempts to identify recombination of the capsid coding sequences as a reason for double-reactivity using the Simplot analysis failed to reveal major transferred motifs. However, peptide scanning technique was able to identify antigenic regions of capsid proteins of E-11/D207 as well as regions cross-reacting with an antiserum raised to CAV-9. Thus, double specificity of E-11/D207 seems to be a real characteristic shared by the phylogenetically closely related virus strains in the genetic subgroup B of E-11.

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Vitronectin receptors, v integrins, are recognized by several non-RGD-containing echoviruses in a continuous laboratory cell line and also in primary human Langerhans' islets and endothelial cells

Ylipaasto

Eskelinen

Salmela

et al. 2009

Journal of General Virology

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Previously published data suggest that the RGD-recognizing integrin, avb3, known as the vitronectin receptor, acts as a cellular receptor for RGD-containing enteroviruses, coxsackievirus A9 (CAV-9) and echovirus 9 (E-9), in several continuous cell lines as well as in primary human Langerhans' islets. As this receptor is also capable of binding the ligands by a non-RGDdependent mechanism, we investigated whether vitronectin receptors, av integrins, might act as receptors for other echoviruses that do not have the RGD motif. Blocking experiments with polyclonal anti-avb3 antibody showed that both primary human islets and a continuous laboratory cell line of green monkey kidney origin (GMK) are protected similarly from the adverse effects of several non-RGD-containing echovirus (E-7, -11, -25, -30, -32) infections. In contrast, corresponding studies on primary human endothelial cells showed that the receptor works only for E-25, E-30, E-32 and CAV-9. The inhibitory effect of the antibody was not restricted to prototype strains of echoviruses, as GMK cells infected with several field isolates of the corresponding serotypes were also protected from virus-induced cytopathic effects. Co-localization of virus particles with the receptor molecules in both GMK and primary human endothelial cells was demonstrated by live-cell stainings and confocal microscopy. Remarkably, in spite of similar virus-receptor co-localization and a comparable protective effect of the avb3 antibody, the entry pathways of the studied virus strains seemed to be divergent.

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A whole cell immunization-derived monoclonal antibody that protects cells from coxsackievirus A9 infection binds to both cell surface and virions

Roivainen¹,

Alakulppi²,

Ylipaasto³

et al. 2005

Journal of Virological Methods

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Mervi Eskelinen

An enterovirus strain isolated from diabetic child belongs to a genetic subcluster of echovirus 11, but is also neutralised with monotypic antisera to coxsackievirus A9

Vitronectin receptors, v integrins, are recognized by several non-RGD-containing echoviruses in a continuous laboratory cell line and also in primary human Langerhans' islets and endothelial cells

A whole cell immunization-derived monoclonal antibody that protects cells from coxsackievirus A9 infection binds to both cell surface and virions

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