K562 cell strains differ in their response to poliovirus infection

Abstract

Poliovirus readily establishes a persistent infection in the K562-Mu erythroleukemia cell strain. In this study, three additional K562 cell strains were analyzed for their responses to poliovirus infection and found to be quite variable. K562 cells obtained from the ATCC established a persistent infection, similar to the K562-Mu cell strain, while the majority of cells from two other strains, K562-Kl and K562-We, were killed by 4 or 11 days postinfection (p.i.), respectively. Several characteristics of the uninfected and infected cell strains were examined to determine if differences existed which could explain the dramatically different responses to infection. Since K562 cell strains can differentiate toward several cell lineages, the four strains were analyzed for physical and functional likeness to the original K562 cell line using well-established functional criteria to determine whether gross changes in differentiation state had occurred. Based on the lack of MHC class I antigen expression and a dose-dependent increase in globin synthesis in response to hemin, all three laboratory K562 cell strains were indistinguishable from the ATCC reference strain. Surface poliovirus receptor levels were also similar in all K562 cell strains, although four- to fivefold lower than those in HeLa cells. Most biochemical events in virus replication either were very similar among K562 cells or were slightly variable and did not correlate with the degree of cell killing. These included levels of virus production, levels of viral protein produced, and processing and turnover of viral polypeptides. The key difference between the cell strains which consistently correlated with cell killing was the degree of virus-induced host translation shutoff, which was always greatest in the most virus-sensitive K562-Kl cells. In addition, levels of 2A(pro) produced in K562 cell strains did not appear to correlate with the levels of host protein shutoff. A related and novel finding in these studies which also strongly correlated with the outcome of infection was the ability of levels of intact p220 to recover by 24 hr p.i. in virus-resistant K562-Mu and -ATCC cells. These data suggest that the key determinants of outcome of infection in this cell model are cytoplasmic host factors related to cytopathology and not factors which may modulate levels of viral protein synthesis or RNA synthesis. © 1995 Academic Press, Inc.