Conditional BCL-2 Expression in Fibroblasts Promotes Persistent Pulmonary Fibrosis which is Reversible by Therapeutic BCL-2 Inhibition.

Abstract

Idiopathic pulmonary fibrosis (IPF) is a progressive, fatal lung disease that develops in response to chronic epithelial injury. Unlike injury-induced homeostatic lung repair during which fibroblasts undergo apoptosis and clearance, the lungs of IPF patients continue to accumulate apoptosis-resistant, pro-fibrotic, extracellular matrix-producing fibroblasts. Here, we show that prevention of PDGFRαfibroblast apoptosis by conditional BCL-2 expression leads to the emergence and persistence of senescent, pro-fibrotic fibroblasts along with enduring, pathologic fibrotic lung remodeling. Additionally, spatial transcriptomic studies of human IPF lungs confirmed the presence of senescent, BCL-2 expressing α-smooth muscle actinmyofibroblasts in fibrotic regions. Of translational significance, selective BCL-2 inhibition with ABT-199 in fibrotic mice re-engaged the apoptotic pathway in fibroblasts, reduced senescence, and promoted fibrosis resolution and lung regeneration. Our findings suggest that sustained BCL-2 expression in fibroblasts prevents homeostatic lung repair, drives persistent fibrosis and is a therapeutically relevant target to reverse persistent pulmonary fibrosis.