Agonistic induction of PPARγ reverses cigarette smoke–induced emphysema
Ming Shan, … , David B. Corry, Farrah Kheradmand
Ming Shan, … , David B. Corry, Farrah Kheradmand
Published February 24, 2014
Citation Information: J Clin Invest. 2014;124(3):1371-1381. https://doi.org/10.1172/JCI70587.
View: Text | PDF
Research Article Article has an altmetric score of 15

Agonistic induction of PPARγ reverses cigarette smoke–induced emphysema

Abstract

The development of emphysema in humans and mice exposed to cigarette smoke is promoted by activation of an adaptive immune response. Lung myeloid dendritic cells (mDCs) derived from cigarette smokers activate autoreactive Th1 and Th17 cells. mDC-dependent activation of T cell subsets requires expression of the SPP1 gene, which encodes osteopontin (OPN), a pleiotropic cytokine implicated in autoimmune responses. The upstream molecular events that promote SPP1 expression and activate mDCs in response to smoke remain unknown. Here, we show that peroxisome proliferator–activated receptor γ (PPARG/Pparg) expression was downregulated in mDCs of smokers with emphysema and mice exposed to chronic smoke. Conditional knockout of PPARγ in APCs using Cd11c-Cre Ppargflox/flox mice led to spontaneous lung inflammation and emphysema that resembled the phenotype of smoke-exposed mice. The inflammatory phenotype of Cd11c-Cre Ppargflox/flox mice required OPN, suggesting an antiinflammatory mechanism in which PPARγ negatively regulates Spp1 expression in the lung. A 2-month treatment with a PPARγ agonist reversed emphysema in WT mice despite continual smoke exposure. Furthermore, endogenous PPARγ agonists were reduced in the plasma of smokers with emphysema. These findings reveal a proinflammatory pathway, in which reduced PPARγ activity promotes emphysema, and suggest that targeting this pathway in smokers could prevent and reverse emphysema.

Authors

Ming Shan, Ran You, Xiaoyi Yuan, Michael V. Frazier, Paul Porter, Alexander Seryshev, Jeong-Soo Hong, Li-zhen Song, Yiqun Zhang, Susan Hilsenbeck, Lawrence Whitehead, Nazanin Zarinkamar, Sarah Perusich, David B. Corry, Farrah Kheradmand

×

Figure 6

Reduced activation of PPARγ in plasma from emphysema patients.

Options: View larger image (or click on image) Download as PowerPoint
Reduced activation of PPARγ in plasma from emphysema patients. Human mon...
Human monocytes were isolated from PBMCs and cultured for 3 days with human GM-CSF and human IL-4 in complete medium containing 10% FBS to induce DC differentiation. (A) Histogram showing the expression of CD1a on MDDCs, as detected by flow cytometry. Cells were treated with vehicle (0.1% DMSO), 10 μM ciglitazone, or 10% control (smokers with no emphysema) plasma, with or without 10 μM GW9662. Numbers in the right upper corner represent the percentage of relative expression of CD1a. CP, control plasma. (B) Cell culture was supplemented with 10% human plasma from control or from smokers with emphysema. Data are representative of at least three different experiments with more than eight samples in each group. (C) Cumulative data of CD1a expression inhibition induced by human plasma obtained from ever-smokers participating in the LES-COPD study conducted at Baylor College of Medicine, in which emphysema was quantified using the %LAA in a high-resolution chest CT, as previously described in detail (17, 29) (control plasma, n = 29; emphysema plasma, n = 31). Percentage of CD1a inhibition was calculated using the formula: Inhibition (%) = (V – P) / V, where V represents the percentage of CD1a in the vehicle-treated group, and P represents the percentage of CD1a in the plasma-treated group. P determined using the Mann-Whitney U test. (D) Correlation between CD1a inhibition induced by human plasma and disease severity (percentage of emphysema) in smokers (control plasma, n = 29; emphysema plasma, n = 31). Statistics were derived by linear regression.