Functional expression and RNA binding analysis of the interferon-induced, double-stranded RNA-activated, 68,000-Mr protein kinase in a cell-free system.

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Mol Cell Biol. 1991 November; 11(11): 5497-5505

Functional expression and RNA binding analysis of the interferon-induced, double-stranded RNA-activated, 68,000-Mr protein kinase in a cell-free system.

M G Katze, M Wambach, M L Wong, M Garfinkel, E Meurs, K Chong, B R Williams, A G Hovanessian and G N Barber

Department of Microbiology, School of Medicine, University of Washington, Seattle 98195.

ABSTRACT

Eukaryotic viruses have devised numerous strategies to downregulateactivity of the interferon-induced, double-stranded (dsRNA)-activatedprotein kinase (referred to as p68 on the basis of its Mr of68,000 in human cells). Viruses must exert this control to avoidextensive phosphorylation of the alpha subunit of eukaryoticinitiation factor 2 (eIF-2) by p68 and the resultant negativeeffects on protein synthesis initiation. To begin to definethe molecular mechanisms underlying this regulation, we optimizedexpression of p68 in an in vitro transcription-translation systemutilizing the full-length cDNA clone. The in vitro-expressedkinase was autophosphorylated in response to dsRNAs and heparinin a manner similar to that for the native p68 provided thatthe kinase inhibitor, 2-aminopurine, was present during thein vitro translation reaction. Further, the activated kinaseefficiently phosphorylated its natural substrate, the alphasubunit of eIF-2. Binding experiments revealed that the expressedkinase complexed with the dsRNA activator, reovirus dsRNA, aswell as the adenovirus-encoded inhibitor, VAI RNA. Interestingly,both the reovirus RNAs and VAI RNA also complexed with proteinkinase molecules that lacked the carboxyl terminus and all catalyticdomains. Deletion analysis confirmed that the p68 amino terminuscontained critical determinants for reovirus dsRNA and VAI RNAbinding. Further, reovirus dsRNA efficiently bound to, but failedto activate, p68 kinase molecules containing a single aminoacid substitution in the invariant lysine 295 present in catalyticdomain II. Taken together, these data demonstrate that thisexpression system permits a detailed mutagenic analysis of theregions of p68 required for interaction with virus-encoded activatorsand repressors.

Mol Cell Biol. 1991 November; 11(11): 5497-5505

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