Lee S B, Melkova Z, Yan W, Williams B R, Hovanessian A G, Esteban M
Department of Biochemistry, SUNY Health Science Center, Brooklyn 11203.
Virology. 1993 Jan;192(1):380-5. doi: 10.1006/viro.1993.1048.
The role of the interferon-induced double-stranded RNA (dsRNA)-activated human p68 protein kinase as an inhibitor of protein synthesis has been inferred from work with cell-free systems, but direct proof in animal cells is lacking. To document the action of p68 protein kinase in vivo, we have used an infection-transfection system where expression of p68 is driven by a vaccinia virus promoter regulated by the lacl repressor/operator controlling elements. In cultured cells infected with vaccinia virus and transfected with a plasmid containing the p68 gene, there is synthesis of p68 when lacl repressor is inhibited with isopropyl-beta-D-thiogalactoside. When infection-transfections are carried out with the p68 gene together with the luciferase (LUC) reporter gene, a strong inhibition of LUC expression developed with time postinfection. This inhibition was not observed with a mutant form of the kinase (Lys-->Arg at position 296) and it was reversed by antisense expression of the p68 gene. During inhibition of LUC expression the protein kinase was phosphorylated, possibly as a result of autophosphorylation activated by the dsRNA forms which are known to accumulate in vaccinia virus-infected cells. Inhibition of LUC expression was at the level of translation. Our findings demonstrate that expression and activation of the human p68 protein kinase in vivo potently inhibits protein synthesis.
干扰素诱导的双链RNA(dsRNA)激活的人p68蛋白激酶作为蛋白质合成抑制剂的作用已从无细胞系统的研究中推断出来,但在动物细胞中缺乏直接证据。为了证明p68蛋白激酶在体内的作用,我们使用了一种感染-转染系统,其中p68的表达由受lacl阻遏物/操纵子控制元件调控的痘苗病毒启动子驱动。在用痘苗病毒感染并转染含有p68基因的质粒的培养细胞中,当用异丙基-β-D-硫代半乳糖苷抑制lacl阻遏物时,会合成p68。当用p68基因与荧光素酶(LUC)报告基因一起进行感染-转染时,随着感染后时间的推移,LUC表达受到强烈抑制。用激酶的突变形式(第296位赖氨酸→精氨酸)未观察到这种抑制作用,并且通过p68基因的反义表达可逆转这种抑制作用。在抑制LUC表达期间,蛋白激酶被磷酸化,这可能是由于已知在痘苗病毒感染细胞中积累的dsRNA形式激活的自磷酸化所致。LUC表达的抑制发生在翻译水平。我们的研究结果表明,人p68蛋白激酶在体内的表达和激活有力地抑制了蛋白质合成。
