Nucleosome chaperone activity of LEDGF and HDGF2 characterized with single molecule force spectroscopy

The nucleosome, two turns of DNA wrapped around a histone octamer, is the fundamental structure of DNA organization in eukaryotic cells. Lens epithelium-derived growth factor (LEDGF) and hepatoma-derived growth factor 2 (HDGF2) are recently discovered proteins that facilitate transcription without ATP hydrolysis, suggesting roles as nucleosome chaperones during the integration of lentiviral DNA, including HIV-1 DNA, into infected cell genomes. Both proteins have methyl-lysine reading PWWP domains that can recognize H3K36me2/3 marks. To better understand these activities, we used optical tweezers to stretch reconstituted DNA nucleosome arrays containing twelve Widom 601 positioning sequences with unmodified (WT) and methylated histones (mimicking the H3K36me2/3 modifications), in the presence of LEDGF and HDGF2. To test the function of these nucleosome chaperone proteins during HIV-1 DNA integration, we exposed the modified nucleosomes to HIV-1 integrase (IN) together with equal concentrations of LEDGF and HDGF2. Analysis of force-extension data showed that while some destabilization of the inner wrapping of nucleosomes occurs due to histone methylation, exposure to chaperones results in further destabilization. Notably, the outer half turn unwrapping of nucleosomes that typically occurs at lower forces disappears with chaperone binding. Kinetic analysis of histone-DNA interactions in the presence of these chaperones via survival probability and confocal fluorescence measurements indicates that LEDGF not only facilitates nucleosome unwrapping but also moderately promotes nucleosome reassembly. These results offer insight into the functions of LEDGF and HDGF2 as nucleosome chaperone proteins and their effect on IN binding to the nucleosome array.