Title: Vitamin d receptor-mediated stromal reprogramming suppresses pancreatitis and enhances pancreatic cancer therapy

Accession Number: E-GEOD-43770

Link to Dataset: http://www.ebi.ac.uk/arrayexpress/experiments/E-GEOD-43770/

Repository: ArrayExpress

Data Type(s): Gene Expression

Experiment Type(s): RNA-seq of coding RNA

Organism(s): Homo sapiens, Mus musculus

Summary: The poor clinical outcome in pancreatic ductal adenocarcinoma (PDA) has been attributed to intrinsic resistance to chemotherapy and a growth-permissive tumor microenvironment. Quiescent pancreatic stellate cells (PSCs) are neuroendocrine, nestin-positive, lipid-accumulating cells whose homologues in the liver are the principal repository of Vitamin A esters. Upon activation, lipid droplets are lost and via transdifferentiation they become the key cell type responsible for driving the severe desmoplasia that characterizes PDA. Despite their critical role in PDA progression and chemoresistance, therapeutic strategies targeting PSCs are lacking. Here we identified the vitamin D receptor (VDR) as a master genomic regulator of PSC activation and function. In vitro we demonstrate that VDR activation reduces expression in PSCs of genes implicated in activation, inflammation, and extracellular matrix production, as well as restoring lipid droplet integrity. In vivo, the VDR ligand calcipotriol enhances the anti-tumor effects of gemcitabine by increasing intratumoral concentration 5-fold, reducing tumor volume to near baseline and lowering metastases by more than 65 . These findings implicate VDR as a master regulator of PSC activation and identify a novel therapeutic approach for the treatment of pancreatic cancer. RNA-Seq analyses was used to characterize cancer-associated changes between pre-activated (3-day culture) and activated (7-day culture) primary mouse PSCs, as well as control and PDA human PSCs. RNA-Seq was also used to assess the impact of VDR activation (DMSO vs calcipotriol) in a human PSC line (MiaPaCa-2), the mouse primary PSCs

Publication(s) associated with this dataset:

• Sherman MH, Yu RT, Engle DD, Ding N, Atkins AR, Tiriac H, Collisson EA, Connor F, Van Dyke T, Kozlov S, Martin P, Tseng TW, Dawson DW, Donahue TR, Masamune A, Shimosegawa T, Apte MV, Wilson JS, Ng B, Lau SL, Gunton JE, Wahl GM, Hunter T, Drebin JA, O'Dwyer PJ, Liddle C, Tuveson DA, Downes M, Evans RM. 2014. Vitamin D receptor-mediated stromal reprogramming suppresses pancreatitis and enhances pancreatic cancer therapy. Cell 159(1):80-93. doi:10.1016/j.cell.2014.08.007 PMID:25259922 PMCID:PMC4177038