N-Terminal Amino Acids Determine KLF4 Protein Stability in 2A Peptide-Linked Polycistronic Reprogramming Constructs.

Anika Reinhardt, Harunobu Kagawa, Knut Woltjen

Stem cell reports 2020 Mar 10

filter terms:

A common strategy for multi-protein expression is to link genes by self-cleaving 2A peptide sequences. Yet, little is known how the 2A peptide-derived N-terminal proline or adjacent non-native residues introduced during cDNA cloning affects protein stoichiometry. Polycistronic reprogramming constructs with altered KLF4 protein stoichiometry can influence induced pluripotent stem cell (iPSC) generation. We studied the impact of N-terminal 2A peptide-adjacent residues on the protein stability of two KLF4 isoforms, and assayed their capacity to generate iPSCs. Here, we show that the N-terminal proline remnant of the 2A peptide, alone or in combination with leucine, introduced during polycistronic cloning, destabilizes KLF4 resulting in increased protein degradation, which hinders reprogramming. Interestingly, the addition of charged and hydrophilic amino acids, such as glutamate or lysine stabilizes KLF4, enhancing reprogramming phenotypes. These findings raise awareness that N-terminal modification with 2A peptide-derived proline or additional cloning conventions may affect protein stability within polycistronic constructs. Copyright © 2020 The Authors. Published by Elsevier Inc. All rights reserved.

Citation

Anika Reinhardt, Harunobu Kagawa, Knut Woltjen. N-Terminal Amino Acids Determine KLF4 Protein Stability in 2A Peptide-Linked Polycistronic Reprogramming Constructs. Stem cell reports. 2020 Mar 10;14(3):520-527