Preferential formation of NUP98-KDM5A condensates at specific H3K4me3-rich loci drives leukemogenic gene expression

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Abstract

Chromosomal translocations involving NUP98 generate fusion proteins that alter gene expression programs, yet the fundamental principles governing their gene targeting and condensate behavior remain poorly understood. Using NUP98-KDM5A as a model, we integrate cellular imaging, in vitro reconstitution, and genomic analyses to dissect how chromatin engagement shapes condensate formation. We find that NUP98-KDM5A forms sub-diffraction-limited, gel-like condensates whose assembly is potentiated by binding to H3K4me3. This interaction creates a quantitative targeting mechanism in which, at the native expression level, condensates preferentially form at genomic loci with high local H3K4me3 density. Such local density-dependent recruitment explains selective enrichment at the leukemogenic HOX gene clusters, despite widespread presence of H3K4me3 across the genome. Analysis of single-cell sequencing data from patients further supports a correlation between local H3K4me3 density and transcriptional activation in NUP98-KDM5A-driven leukemia. Together, our findings reveal how activating chromatin marks and condensate-forming proteins synergize to generate specificity within euchromatin, offering a generalizable framework for understanding how chromatin-associated condensates interpret epigenetic landscapes.

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last seen: 2026-05-20T01:45:00.602351+00:00