Proteolytic cleavage of the p65-RelA subunit of NF-kappa B during poliovirus infection

doi:10.1074/jbc.M502303200

Proteolytic cleavage of the p65-RelA subunit of NF- $kappa$ B during poliovirus infection

Nickolay Neznanov, Konstantin M. Chumakov, Lubov Neznanova, Alexandru Almasan, Amiya K. Banerjee, and Andrei V. Gudkov

Department of Virology, Cleveland Clinic Foundation, Cleveland, OH 44195

Corresponding Author: neznann{at}ccf.org

Activation of NF- $kappa$ B during viral infection is one of the critical elements in innate immune response. Several virus-specific factors, such as double-stranded RNA, can trigger host defense mechanisms by inducing NF- $kappa$ B-mediated expression of cytokines and interferons. Early stages of poliovirus infection are also associated with degradation of I $kappa$ B $alpha$ and translocation of NF- $kappa$ B into the nucleus. However, at later stages of poliovirus replication the p65-RelA component of the NF- $kappa$ B complex is undergoing a specific cleavage that coincides with the onset of intensive poliovirus protein synthesis and the appearance of the activity of poliovirus protease 3C. Indeed, the p65-RelA amino acid sequence contains the recognition site for 3C, and recombinant protein 3C was shown to be capable of proteolytic cleavage of p65-RelA generating truncated product similar to that observed during poliovirus infection. Cleavage of p65-RelA occurs during replication of ECHO-1 and rhinovirus 14, suggesting that inactivation of NF- $kappa$ B function by proteolytic cleavage of p65-RelA is the common mechanism by which picornaviruses suppress the innate immune response.

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Proteolytic cleavage of the p65-RelA subunit of NF-B during poliovirus infection

Proteolytic cleavage of the p65-RelA subunit of NF- $kappa$ B during poliovirus infection