Influenza B virus has been aetiologically linked to Reye Syndrome (RS), but the mechanism(s) by which this pathogen could disrupt liver metabolism and produce the hepatic mitochondrial injury characteristic of the syndrome are unknown. In this study, two mechanisms by which infection of hepatocytes with influenza B virus could disrupt cellular metabolism were investigated. (1) virus-induced increase in pro-oxidant iron with subsequent iron-induced lipid peroxidation (LP) and (2) increased membrane permeability. Hep G2 cells, a well-differentiated continuous human liver cell line derived from a hepatoblastoma, were infected with allantoic-fluid derived influenza B Lee/40 virus (AFDV) at a multiplicity of infection of 10 for 24 h; productive infection was confirmed by both haemagglutination of chick erythrocytes and by plaque assay. Infection of Hep G2 cells preloaded with 59Fe-transferrin resulted in increased release of 59Fe (153 ± 17% of controls, P <0·03). However, the iron released did not result in increased LP (assessed by thiobarituric acid reactive substances; TBARS). To confirm that this lack of increase in TBARS was not due to insensitivity of the cell line to pro-oxidant iron, cells were exposed to 15 μM iron ascorbate for 60 min. Production of TBARS was increased (122 ± 4%) of controls, P <0·0003). Release of 51Cr from infected cells was also increased (128 ± 12% of controls, P<0·05); thus the infected cells exhibited a generalized increase in membrane permeability. However, infection did not depress mitochondrial respiration (as assessed by the formation of MTT-f3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl-tetrazolium bromide-formazan. To determine if the combination of viral infection and soluble products of activated macrophages would affect mitochondrial respiration, infected hepatocytes were expose to the supernatant fluid from THP-1 cells which had previously been incubated with lipopolysaccharide at 100 ng ml-1 for 18 h. This supernate did depress the formation of MTT-f (81 ± 5% of controls, P<0·03). We conclude that influenza B virus does productively infect Hep G2 cells, and does increase hepatocyte membrane permeability. This effect does not impair mitochondrial respiration directly. However, infection does act in concert with soluble products of activated macrophages to depress hepatic mitochondrial respiration. Whether this interaction can be explained by virus-induced permeability changes and/or other effects of infection deserves further investigation. © 1994 Academic Press.
CITATION STYLE
Schwarz, K. B., Zieber, T. M., Sharma, S., Clemens, M. G., & Seligman, P. (1994). Activated THP-1 cells depress mitochondrial respiration in HEP G2 cells infected with influenza B virus. Molecular and Cellular Probes, 8(5), 345–351. https://doi.org/10.1006/mcpr.1994.1050
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