Abstract

The IPF lung contains mesenchymal progenitor cells (MPCs) that display durable activation of oncogenic signaling and cell-autonomous fibrogenicity in vivo. Prior work identified a CD44/Brg1/PRMT5 nuclear regulatory module in IPF MPCs that increased expression of genes positively regulating pluripotency and self-renewal. Left unanswered is how IPF MPCs evade negative regulation of self-renewal. Here we sought to identify mechanisms disabling negative regulation of self-renewal in IPF MPCs. We demonstrate that expression of the tumor suppressor genes rbl1 and pten is decreased in IPF MPCs. The mechanism involves CD44-facilitated association of the chromatin remodeler Brg1 with the histone modifying methyltransferase PRMT5. Brg1 enhances chromatin accessibility leading to PRMT5-mediated methylation of H3R8 and H4R3 on the rbl1 and pten genes, repressing their expression. Genetic knock-down or pharmacological inhibition of either Brg1 or PRMT5 restored RBL1 and PTEN expression, reduced IPF MPC self-renewal in vitro and inhibited IPF MPC-mediated pulmonary fibrosis in vivo. Our studies indicate that the CD44/Brg1/PRMT5 regulatory module not only functions to activate positive regulators of pluripotency and self-renewal, but also functions to repress tumor suppressor genes rbl1 and pten. This confers IPF MPCs with the cancer-like property of cell-autonomous self-renewal providing a molecular mechanism for relentless fibrosis progression in IPF.

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