Nuclear import of BCL11B is mediated by a classical nuclear localization signal and not the Krüppel-like zinc fingers

Abstract

ABSTRACT The Krüppel-like transcription factor (KLF) BCL11B is characterized by a wide tissue distribution and crucial functions in key developmental and cellular processes, as well as in various pathologies including cancer and HIV infection. Although the basics of BCL11B activity and relevant interactions with other proteins have been uncovered, how this exclusively nuclear protein localizes to its compartment remained unclear. Here, we demonstrate that unlike other KLFs, BCL11B does not require the C-terminal DNA-binding domain to pass through the nuclear envelope but has an independent, previously unidentified, nuclear localization signal (NLS), which is located distantly from the zinc finger domains and fulfills the essential criteria of being an autonomous NLS. First, it can redirect a heterologous cytoplasmic protein to the nucleus. Second, its mutation causes aberrant localization of the protein of origin. Finally, we provide experimental and in silico evidences of the direct interaction with importin-α. The relative conservation of this motif allows formulating a consensus sequence (K/R)K-X13–14-KR+K++ (‘+’ indicates amino acids with similar chemical properties), which can be found in all BCL11B orthologs among vertebrates and in the closely related protein BCL11A.