Bcl-2 Blocks Accretion or Depletion of Stored Calcium but Has No Effect on the Redistribution of IP3 Receptor I Mediated by Glycoprotein E of Herpes Simplex Virus 1

Abstract

We examined the status of stable, resting intracellular Ca2+ ([Ca2+]i) and the calcium that can be released from intracellular stores in HEp-2 or VAX-3 cells overexpressing Bcl-2 after infection with wild-type or mutant herpes simplex viruses. The mutants included viruses lacking ICP4 or ICP27 and known to induce apoptosis. We report the following. Stable Ca2+ levels decrease after infection with wild-type or mutant viruses in both HEp-2 and VAX-3 cells. The histamine-sensitive calcium stores became depleted in wild-type and mutant virus-infected cells late in infection but increased significantly in DeltaICP4- or DeltaICP27-infected cells prior to depletion. In VAX-3 cells, the depletion in calcium stores did not take place as late as 24 h after infection, concomitant with lack of visually detectable cytopathic effects. Concurrent analyses showed that the amounts of IP3 Ca2+-receptor type I (IP3R-I) remained stable throughout infection, but the intensity of the signal increased and intracellular distribution changed dramatically in both HEp-2 and VAX-3 cells infected with the wild-type and all mutant viruses, except for the mutant lacking glycoprotein E (DeltagE). In transfected HEp-2 cells, gE and gI were more effective at augmenting the signal intensity and redistribution of IP3R-I than gE or gI alone. We conclude the following. (i) Depleted histamine-sensitive calcium stores correlate with appearance of cytopathic effects. (ii) Apoptosis, the calcium stores, and cytopathic effects are regulated by Bcl-2. (iii) The changes in the distribution of IP3R-I are mediated by the viral Fc receptor complex, but the redistribution is not related to changes in stored calcium.