Thrombopoietin mimetic reduces mouse lung inflammation and fibrosis after radiation by attenuating activated endothelial phenotypes
Jeb English, Sriya Dhanikonda, Kathryn E. Tanaka, Wade Koba, Gary Eichenbaum, Weng-Lang Yang, Chandan Guha
Jeb English, Sriya Dhanikonda, Kathryn E. Tanaka, Wade Koba, Gary Eichenbaum, Weng-Lang Yang, Chandan Guha
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Research Article Pulmonology Therapeutics

Thrombopoietin mimetic reduces mouse lung inflammation and fibrosis after radiation by attenuating activated endothelial phenotypes

Abstract

Radiation-induced lung injury (RILI) initiates radiation pneumonitis and progresses to fibrosis as the main side effect experienced by patients with lung cancer treated with radiotherapy. There is no effective drug for RILI. Sustained vascular activation is a major contributor to the establishment of chronic disease. Here, using a whole thoracic irradiation (WTI) mouse model, we investigated the mechanisms and effectiveness of thrombopoietin mimetic (TPOm) for preventing RILI. We demonstrated that administering TPOm 24 hours before irradiation decreased histologic lung injury score, apoptosis, vascular permeability, expression of proinflammatory cytokines, and neutrophil infiltration in the lungs of mice 2 weeks after WTI. We described the expression of c-MPL, a TPO receptor, in mouse primary pulmonary microvascular endothelial cells, showing that TPOm reduced endothelial cell–neutrophil adhesion by inhibiting ICAM-1 expression. Seven months after WTI, TPOm-treated lung exhibited less collagen deposition and expression of MMP-9, TIMP-1, IL-6, TGF-β, and p21. Moreover, TPOm improved lung vascular structure, lung density, and respiration rate, leading to a prolonged survival time after WTI. Single-cell RNA sequencing analysis of lungs 2 weeks after WTI revealed that TPOm shifted populations of capillary endothelial cells toward a less activated and more homeostatic phenotype. Taken together, TPOm is protective for RILI by inhibiting endothelial cell activation.

Authors

Jeb English, Sriya Dhanikonda, Kathryn E. Tanaka, Wade Koba, Gary Eichenbaum, Weng-Lang Yang, Chandan Guha

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Figure 7

Effect of TPOm on lung-cardiac function of the mice 7 months after WTI and their survival after WTI.

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Effect of TPOm on lung-cardiac function of the mice 7 months after WTI a...
(AD) C57BL/6J mice were treated with PBS (Vehicle) or TPOm 24 hours before 16 Gy WTI. The naive and WTI mice were scanned 7 months after WTI. (A) Representative μCT thoracic cross sections. (B) Quantification of radiodensity of 3D contoured μCT lung images. (C) Respiration rate of each mouse reported as breaths per minute (BPM). (D) Heart rate of each mouse reported as beats per minute (BPM). Data are shown as mean ± SEM (n = 3–5/group). *P < 0.05 vs. naive and #P < 0.05 vs. vehicle. (E and F) C57BL/6J mice were treated with PBS or TPOm 24 hours before 18 Gy WTI. The survival time of (E) male and (F) female mice after WTI with Kaplan-Meier plot. The reported P value is from log rank comparing survival curves between vehicle and TPOm. μCT, breath rate, and heart rate data were analyzed using nonparametric methods, using a 1-way ANOVA with Tukey’s test as post hoc comparison. Survival data were analyzed using Kaplan-Meier analysis.