Abstract
The H3K4 methyltransferase SETD1A plays an essential role in leukemia through a non-catalytic activity which regulates transcriptional pause release of RNA polymerase II. SETD1A localizes to the transcriptional start site of numerous actively transcribed genes, but primarily regulates the expression of a restricted set of genes within the DNA damage response as well as heme biosynthesis pathway. However, the roles of upstream regulators or essential components of SETD1A chromatin binding remain unclear. Using the DepMap database and a CRISPR-tiling screen method, we found that BOD1L is the most correlated co-dependency with SETD1A in human cancer cell lines and that the Shg1 domain of BOD1L plays an indispensable role in human MOLM-13 leukemia cell line. BOD1L knockout increases apoptosis and reduces cell cycle. The strong BOD1L dependency in AML cells was also confirmed using a mouse MLL-r leukemia model in vitro and in vivo. SETD1A catalytic domain mutant AML cells still responded to the BOD1L sgRNAs that suggests the role of BOD1L is independent from the SETD1A catalytic function. Importantly, BOD1L knockout mimics the transcriptional profiles of SETD1A knockout cells and reduces the expression of genes in DNA damage response and heme biosynthesis. BOD1L loss immediately reduces SETD1A distribution on chromatin and increased the NELFE and RNA polymerase II signals at transcriptional start sites. These results show that BOD1L is an essential component of the non-catalytic SETD1A function in transcriptional pause release. We also performed an immunoprecipitation assay using tagged constructs to examine the interaction between BOD1L and SETD1A. Our data indicate that SETD1A associates with BOD1L through the FLOS domain, especially in the C-terminal region. In addition, we found that the loop structure in the Shg1 domain of BOD1L is associated with the nonenzymatic domain of SETD1A. A split luciferase complementation assay reveals that the BOD1L Shg1 domain and SETD1A FLOS domain interact. To demonstrate the role of BOD1L chromatin interaction, we enforced localization of the Shg1 domain fragment at a silent gene locus and it successfully induced ectopic SETD1A recruitment to chromatin and formation of the COMPASS complex. However, we observed neither induced H3K4me3 modification nor RNA polymerase II recruitment. Taken together, while the BOD1L-SETD1A complex is not sufficient to act as a pioneer complex for active transcription, our study identified that BOD1L facilitates chromatin binding of SETD1A through the Shg1-FLOS domain interaction and then regulates transcriptional pause release, and that this interaction is a potential therapeutic opportunity for SETD1A-targeting therapy.
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