An in vivo screening platform identifies senolytic compounds that target p16INK4a+ fibroblasts in lung fibrosis
Jin Young Lee, Nabora S. Reyes, Supriya Ravishankar, Minqi Zhou, Maria Krasilnikov, Christian Ringler, Grace Pohan, Chris Wilson, Kenny Kean-Hooi Ang, Paul J. Wolters, Tatsuya Tsukui, Dean Sheppard, Michelle R. Arkin, Tien Peng
Jin Young Lee, Nabora S. Reyes, Supriya Ravishankar, Minqi Zhou, Maria Krasilnikov, Christian Ringler, Grace Pohan, Chris Wilson, Kenny Kean-Hooi Ang, Paul J. Wolters, Tatsuya Tsukui, Dean Sheppard, Michelle R. Arkin, Tien Peng
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Research Article Aging Pulmonology

An in vivo screening platform identifies senolytic compounds that target p16INK4a+ fibroblasts in lung fibrosis

Abstract

The appearance of senescent cells in age-related diseases has spurred the search for compounds that can target senescent cells in tissues, termed senolytics. However, a major caveat with current senolytic screens is the use of cell lines as targets where senescence is induced in vitro, which does not necessarily reflect the identity and function of pathogenic senescent cells in vivo. Here, we developed a new pipeline leveraging a fluorescent murine reporter that allows for isolation and quantification of p16Ink4a+ cells in diseased tissues. By high-throughput screening in vitro, precision-cut lung slice (PCLS) screening ex vivo, and phenotypic screening in vivo, we identified a HSP90 inhibitor, XL888, as a potent senolytic in tissue fibrosis. XL888 treatment eliminated pathogenic p16Ink4a+ fibroblasts in a murine model of lung fibrosis and reduced fibrotic burden. Finally, XL888 preferentially targeted p16INK4a-hi human lung fibroblasts isolated from patients with idiopathic pulmonary fibrosis (IPF), and reduced p16INK4a+ fibroblasts from IPF PCLS ex vivo. This study provides proof of concept for a platform where p16INK4a+ cells are directly isolated from diseased tissues to identify compounds with in vivo and ex vivo efficacy in mice and humans, respectively, and provides a senolytic screening platform for other age-related diseases.

Authors

Jin Young Lee, Nabora S. Reyes, Supriya Ravishankar, Minqi Zhou, Maria Krasilnikov, Christian Ringler, Grace Pohan, Chris Wilson, Kenny Kean-Hooi Ang, Paul J. Wolters, Tatsuya Tsukui, Dean Sheppard, Michelle R. Arkin, Tien Peng

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Figure 2

p16INK4a expression primes lung fibroblasts to augment the fibrotic response.

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p16INK4a expression primes lung fibroblasts to augment the fibrotic res...
(A) Transcript analysis of cultured primary human lung fibroblasts isolated from control cadaveric donors transduced with 2 lentiviral vectors to overexpress (OE) human p16INK4a with doxycycline induction followed by addition of TGF-β1. (n = 3 technical replicates, experiment repeated twice). (B) Representative H&E sections of Dermo1Cre/+;p16fl/fl and control (p16fl/fl) animals injured with bleomycin to induce lung fibrosis. (C) Hydroxyproline assay to quantify collagen in the left lung of Dermo1Cre/+;p16fl/fl and control animals 14 days following bleomycin injury (n = 5 control, 9 mutant biological replicates). (D) Representative IHC showing ACTA2 and COL1 immunostaining in lung sections of bleomycin-injured Dermo1Cre/+;p16fl/fl and control (p16fl/fl) animals (14 dpi). (E) IHC quantification of ACTA2+ and COL1+ fibroblasts from D (n = 5 control, 9 mutant biological replicates. Scale bars: 200 μm. Data are represented as mean ± SD. *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001; 2-tailed Student’s t test (A, C, and E).