Expression of protein kinase HIPK2 is subject to a quality control mechanism that acts during translation and requires its kinase activity to prevent degradation of nascent HIPK2.

Abstract HIPK2 is a highly conserved, constitutively active Ser/Thr protein kinase that is involved in a broad spectrum of biological processes. We have previously reported that the expression of HIPK2 is auto-regulated by a mechanism that depends on the activity of its kinase domain, leading to decreased expression of kinase-dead versus wild-type HIPK2. We have now explored this mechanism in more detail. Differential expression of wild-type and kinase-dead HIPK2 is dependent on sequences located in the C-terminal part of HIPK2, but is only observed when this part of HIPK2 is translated together with the defective kinase domain. On their own, both the defective kinase domain and the C-terminal amino acid sequences are expressed at normal levels and independently of kinase activity. Insertion of a 2A-ribosomal skipping sequence into the HIPK2 coding sequence revealed that the differential expression of wild-type and kinase-dead HIPK2 is caused by degradation of nascent kinase-dead HIPK2. Because HIPK2 is constitutively active and auto-activates its kinase domain already during its translation we speculate that the regulatory mechanism discovered here serves as a quality control mechanism that leads to degradation of nascent kinase molecules with defective kinase domains. Overall our work provides insight into a novel auto-regulatory mechanism of HIPK2 expression, thereby adding a new layer of control to the regulation of HIPK2.