Project description:Identification of occupancy for H4K5ac, MED1, and JunD in chemo resistance

Project description:Identification of TSS-centric interaction

Project description:This experiment investigates the effects of JunD depletion in Paclitaxel resistant L3.6pl pancreatic cancer cells

Project description:Identification of localization patterns for different histone modifications and transcription activators in parental and resistant cells

Project description:H3K4me3 HiChIP for L3.6pl cells (parental and paclitaxel-resistant)

Project description:ChIP seq for H4K5ac, JunD , and MED1 in Parental and Paclitaxel resistant L3.6pl cell line

Project description:leChRO-seq in L3.6pl (Parental and Paclitaxel-resistant)

Project description:H3K4me3 HiChIP for Paclitaxel resistant L3.6pl pancreatic cancer cells (Non targeting vs siJunD)

Project description:Evaluation of interaction frequency in parental L3.6pl cells, paclitaxel-resistant cells and resistant cells treated with a CDK9 inhibitor

Project description:Cell cycle inhibitors, including paclitaxel, are among the most widely used and effective cancer therapies. However, several challenges limit the success of paclitaxel including drug resistance and toxic side effects. Paclitaxel is thought to act primarily by stabilizing microtubules and locking cells in a mitotic state. However, the resulting cytotoxicity and tumor shrinkage rates observed cannot be fully explained by this mechanism alone. Here we apply quantitative chemical cross-linking with mass spectrometry analysis to paclitaxel treated cells. Our results provide large scale measurements of relative protein levels and, perhaps more importantly, changes to protein conformations and interactions that occur upon paclitaxel treatment. Drug concentration dependent changes are revealed in known drug targets including tubulins, as well as many other proteins and protein complexes involved in apoptotic signaling and cellular homeostasis. As such this study provides insight into systems-level changes to protein structures and interactions which occur with paclitaxel treatment.