Distinguishing characteristics of interferon induction with poly(I)·poly(C) and Newcastle disease virus in human cells

Abstract

Exposure of a human diploid foreskin cell strain (FS-4) to polyinosinate-polycytidylate [poly(I)·poly(C)] resulted in an early rise of interferon production that peaked at about 4 hr after induction and decreased rapidly thereafter. Irradiation of cells with low to moderate doses of ultraviolet (uv) light immediately before induction with poly(I)·poly(C) increased the amount of interferon produced up to about tenfold. This enhancement was apparently due to interference with the shut-off process which in unirradiated cells leads to early termination of interferon production; in irradiated cells interferon production continued for much longer. Inoculation of FS-4 cells with Newcastle disease virus (NDV) resulted in interferon production that showed a slower rise and peaked only at about 10–15 hr after inoculation. Irradiation of cells at the time of induction with NDV resulted in a dose-dependent decrease of interferon production. However, a small fraction of the total amount of interferon produced in response to NDV, which appeared by about 5 hr after virus inoculation, was resistant to uv. This uv-resistant early peak of NDV-induced interferon was greatly enhanced in cells which 6 hr before virus inoculation had either been induced with poly(I)·poly(C) or incubated with interferon, while the appearance of the major, uv-sensitive peak of NDV-induced interferon was inhibited or delayed after the same treatments. In its characteristics the early peak of NDV-induced interferon resembled the poly(I)·poly(C)-induced interferon response. Poly(I)·poly(C)-induced, as well as the early and late NDV-induced interferons were all neutralized by an antiserum raised against poly(I)·poly(C)-induced interferon, suggesting that they represent products of the same structural gene(s). It is concluded that there may be more than one mechanism of interferon induction by a single virus.