Activation of the impaired NAMPT/SIRT7/SOD2 axis restores alveolar progenitor cell renewal in idiopathic pulmonary fibrosis
Xuexi Zhang, Xue Liu, Yujie Qiao, Anas Rabata, Ningshan Liu, Changfu Yao, Tanyalak Parimon, Danica Chen, Cory Hogaboam, Peter Chen, Barry Stripp, Stephen J. Gardell, Dianhua Jiang, Paul W. Noble, Jiurong Liang
Xuexi Zhang, Xue Liu, Yujie Qiao, Anas Rabata, Ningshan Liu, Changfu Yao, Tanyalak Parimon, Danica Chen, Cory Hogaboam, Peter Chen, Barry Stripp, Stephen J. Gardell, Dianhua Jiang, Paul W. Noble, Jiurong Liang
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Research Article Cell biology Metabolism Pulmonology

Activation of the impaired NAMPT/SIRT7/SOD2 axis restores alveolar progenitor cell renewal in idiopathic pulmonary fibrosis

Abstract

Alveolar type 2 (AT2) progenitor cell exhaustion and impaired regenerative capacity are key pathogenic hallmarks in idiopathic pulmonary fibrosis (IPF). Nicotinamide adenine dinucleotide (NAD+) functions as a central regulator of cellular energy metabolism. We have previously reported that downregulation of NAD+-dependent sirtuin signaling contributes to the impaired progenitor cell function of IPF AT2 cells. In this study, we found that a key NAD+ biosynthesis enzyme, nicotinamide phosphoribosyltransferase (NAMPT), was significantly downregulated in IPF AT2 cells. NAMPT deficiency impaired AT2 renewal and enhanced lung fibrosis through downregulation of SIRT7 and SOD2, which resulted in increased oxidative stress, mitochondrial dysfunction, accumulated aberrant transitional cells, and impaired differentiation from AT2 to alveolar type 1 (AT1) cells. A mouse model with AT2-specific deletion of Nampt showed severely impaired AT2 renewal capacity and increased susceptibility to bleomycin lung injury. Activation of NAMPT by small-molecule activators promoted IPF AT2 renewal and reversed lung fibrosis in WT mice. NAMPT activation is a potentially promising therapeutic strategy for restoring AT2 progenitor cell function and halting or reversing progressive pulmonary fibrosis.

Authors

Xuexi Zhang, Xue Liu, Yujie Qiao, Anas Rabata, Ningshan Liu, Changfu Yao, Tanyalak Parimon, Danica Chen, Cory Hogaboam, Peter Chen, Barry Stripp, Stephen J. Gardell, Dianhua Jiang, Paul W. Noble, Jiurong Liang

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Figure 2

NAMPT regulates AT2 progenitor cell regeneration.

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NAMPT regulates AT2 progenitor cell regeneration. (A) Representative ima...
(A) Representative images of human AT2 colonies cultured with NAT or DMSO control (Ctrl). Scale bar: 300 μm. (BD) CFE in 3D organoid cultures of AT2 cells from healthy and IPF lungs treated with the NAMPT activators (B) NAT, (C) SBI797812, or (D) NAT-5r (n = 3/group; **P < 0.01, ***P < 0.001, ****P < 0.0001, by 2-way ANOVA). (E) CFE in 3D organoid cultures of AT2 cells from IPF lungs treated with the NAMPT precursors NR, NMN, or NAM, as well as the NAMPT activator NAT (n = 3/group; **P < 0.01, ****P < 0.0001, by 1-way ANOVA). (F) CFE in 3D organoid cultures of AT2 cells from healthy lungs treated with the NAMPT inhibitor FK866 at different concentrations or with vehicle control (n = 3/group; ***P < 0.001, ****P < 0.0001, by 1-way ANOVA). Data are shown as the mean ± SEM. All experiments were repeated at least 3 times.