Oligo(2'-5')adenylate synthetase in human lymphoblastoid cells

The enzyme oligo(2′–5′)adenylate synthetase, when activated by double-stranded RNA, polymerizes ATP into the novel oligonucleotide (2′–5′)ppp(Ap)_nA. We describe conditions for assay of this enzyme in crude extracts of a human lymphoblastoid cell line, Namalwa. The production of (2′–5′)ppp(Ap)_nA by Namalwa extracts was 3–5 times greater than the production by extracts of interferon pretreated mouse L cells, and 700 fold higher than the production by extracts of untreated mouse L cells. The relatively high level of oligo(2′–5′)adenylate synthetase in Namalwa cells was not attributable solely to their constitutive secretion of low levels of interferon. Analysis of the size distribution of the oligomers formed at different times suggested that the enzyme can add ATP to a free pppApA. Infection by Newcastle disease virus or treatment with interferon raised the apparent synthetase levels only marginally. Experiments that employed antibody to interferon suggested that the interferon must be externalized from the NDV-infected cell to induce maximal synthetase levels.