Proteolytically cleaved MLL subunits are susceptible to distinct degradation pathways

A Yokoyama, F Ficara, MJ Murphy… - Journal of cell …, 2011 - journals.biologists.com
A Yokoyama, F Ficara, MJ Murphy, C Meisel, A Naresh, I Kitabayashi, ML Cleary
Journal of cell science, 2011journals.biologists.com
The mixed lineage leukemia (MLL) proto-oncogenic protein is a histone-lysine N-
methyltransferase that is produced by proteolytic cleavage and self-association of the
respective functionally distinct subunits (MLLN and MLLC) to form a holocomplex involved in
epigenetic transcriptional regulation. On the basis of studies in Drosophila it has been
suggested that the separated subunits might also have distinct functions. In this study, we
used a genetically engineered mouse line that lacked MLLC to show that the MLLN–MLLC …
The mixed lineage leukemia (MLL) proto-oncogenic protein is a histone-lysine N-methyltransferase that is produced by proteolytic cleavage and self-association of the respective functionally distinct subunits (MLLN and MLLC) to form a holocomplex involved in epigenetic transcriptional regulation. On the basis of studies in Drosophila it has been suggested that the separated subunits might also have distinct functions. In this study, we used a genetically engineered mouse line that lacked MLLC to show that the MLLN–MLLC holocomplex is responsible for MLL functions in various developmental processes. The stability of MLLN is dependent on its intramolecular interaction with MLLC, which is mediated through the first and fourth plant homeodomain (PHD) fingers (PHD1 and PHD4) and the phenylalanine/tyrosine-rich (FYRN) domain of MLLN. Free MLLN is destroyed by a mechanism that targets the FYRN domain, whereas free MLLC is exported to the cytoplasm and degraded by the proteasome. PHD1 is encoded by an alternatively spliced exon that is occasionally deleted in T-cell leukemia, and its absence produces an MLL mutant protein that is deficient for holocomplex formation. Therefore, this should be a loss-of-function mutant allele, suggesting that the known tumor suppression role of MLL may also apply to the T-cell lineage. Our data demonstrate that the dissociated MLL subunits are subjected to distinct degradation pathways and thus not likely to have separate functions unless the degradation mechanisms are inhibited.
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