Kristin Modalsli scite author profile

To analyze the effect of coxsackie B1 virus infection on bacterial in vasiveness, phagocytosis and cytoplasma membrane permeability, we have studied invasiveness of Shigella flexneri, unspecific phagocytosis of latex particles and release of the non‐metabolizible amino acid, α‐aminoisobutyric acid (AIB). Virus infection enhanced invasiveness of S. flexneri and phagocytosis of latex beads and increased plasma membrane permeability as measured by release of AIB. The effect on all three functions increased with virus concentration, but the kinetics were different. During the early phase of virus infection there was no difference between the effect on invasiveness, phagocytosis and permeability in cell cultures pretreated with viable or with UV‐inactivated virus. However, after 6 h, 5 h and 2 h respectively, there was an increased response in cell cultures pretreated with viable virus compared to cells inoculated with UV‐inactivated virus. The results indicate that the virus effect on bacterial invasiveness is a function of several parameters, including phagocytosis and membrane function changes.

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Effect of measles-virus infection and interferon treatment on invasiveness of Shigella flexneri in HEp2-cell cultures

Bukholm

Modalsli²,

Degré³

1986

Journal of Medical Microbiology

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Summary. The influence of measles-virus infection on the invasiveness of ShigellaJexneri in HEp2-cell cultures was studied. Bacterial invasiveness was significantly enhanced in cell cultures incubated with virus before bacterial inoculation. This effect was a function of time after introduction of virus to the cell cultures and of the concentration of virus. The increase in bacterial invasiveness was observed before production of infectious virus particles and before a cytopathic effect was evident. A similar enhancement of invasiveness was demonstrated when cell cultures were pretreated with UV-inactivated measles virus. Pretreatment of cells with interferon did not influence invasiveness, although it reduced the effect of measles-virus infection.

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Correlation between coxsackie B1 virus replication and enhanced invasiveness of Shigella flexneri

Modalsli

Bukholm

Mikalsen

et al. 1992

APMIS

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Modalsli K., Bukholm G., Mikalsen S. 0. & Degrh M. Correlation between coxsackie B1 virus replication and enhanced invasiveness of Shigellu flexneri, APMIS 100: 237-245, 1992. Coxsackie B1 virus infection enhances the susceptibility of cultured HEp-2 cells to Shigellu flexneri invasiveness. This can be reproduced partially with UV-inactivated virus, particularly the effect observed shortly after viral inoculation. The following phases of viral multiplication were correlated with the enhancing effect: uncoating of viral particles, synthesis of viral RNA and proteins, and assembly of newly produced virus particles. Uncoating of virus particles was completed within 60 min. This process was not correlated with the development of the early effect on invasiveness. Intact virus capsids seem to be necessary to enhance bacterial invasiveness in the early phase of virus infection. Separated capsid proteins had no effect either when applied to the cell surface or when microinjected into the cells. Virus protein synthesis was not required for the virus effect on bacterial invasiveness in the early infection phase, but it seems to be necessary in the late phase.

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Coxsackie B 1 virus-induced changes in cell membrane-associated functions are not responsible for altered sensitivity to bacterial invasiveness

Modalsli

Bukholm

Mikalsen

et al. 1992

Archives of Virology

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To analyze the possible mechanisms by which coxsackie B1 virus infection affects the invasiveness of Shigella flexneri, we have studied the influence of intracellular levels of Na+ and K+, ATPase activity, cytoplasmic membrane potential, cAMP level and cell communication through gap junctions. 3h after adsorption of viable or UV-inactivated coxsackie B1 virus the Na(+)-K+ gradient of the cell collapsed, ATPase activity decreased, the cytoplasmic membranic potential-dependent tetraphosphonium ion uptake were reduced. No changes in cAMP or intercellular cell communication were observed. S. flexneri invasiveness in HEp-2 cell pretreated with viable or UV-inactivated coxsackie B 1 virus was enhanced, but bacterial invasiveness was unchanged in K(+)-depleted HEp-2 cells, cell cultures with high intracellular Na+ content or ouabain pre-treated cells compared to control cells. We found no correlation between the enhanced bacterial invasiveness in the early phase of coxsackie B 1 virus infection in HEp-2 cell cultures and intracellular K+ depletion, high intracellular Na+ content, inhibited Na(+)-K+ ATPase activity or membranic depolarization.

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