A Novel Mouse Model of Radiation-Induced Cardiac Injury Reveals Biological and Radiological Biomarkers of Cardiac Dysfunction with Potential Clinical Relevance

A Novel Mouse Model of Radiation-Induced Cardiac Injury Reveals Biological and Radiological Biomarkers of Cardiac Dysfunction with Potential Clinical Relevance

Radiation-induced cardiotoxicity is a significant concern in thoracic oncology patients. However, the basis for this disease pathology is not well characterized. We developed a novel mouse model of radiation-induced cardiotoxicity to investigate pathophysiologic mechanisms and identify clinically ta...

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Bibliographic Details
Published in:Clinical cancer research Vol. 27; no. 8; pp. 2266 - 2276
Main Authors: Dreyfuss, Alexandra D, Goia, Denisa, Shoniyozov, Khayrullo, Shewale, Swapnil V, Velalopoulou, Anastasia, Mazzoni, Susan, Avgousti, Harris, Metzler, Scott D, Bravo, Paco E, Feigenberg, Steven J, Ky, Bonnie, Verginadis, Ioannis I, Koumenis, Constantinos
Format: Journal Article
Language:English
Published: United States 15-04-2021
Subjects:
Animals
Biomarkers - analysis
Cardiotoxicity - diagnosis
Cardiotoxicity - etiology
Cardiotoxicity - pathology
Dose-Response Relationship, Radiation
Echocardiography
Female
Fibrosis
Heart - diagnostic imaging
Heart - radiation effects
Humans
Lung Neoplasms - radiotherapy
Mice
Myocardium - pathology
Radiation Injuries, Experimental - diagnosis
Radiation Injuries, Experimental - etiology
Radiation Injuries, Experimental - pathology
Tomography, Emission-Computed, Single-Photon
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Summary:Radiation-induced cardiotoxicity is a significant concern in thoracic oncology patients. However, the basis for this disease pathology is not well characterized. We developed a novel mouse model of radiation-induced cardiotoxicity to investigate pathophysiologic mechanisms and identify clinically targetable biomarkers of cardiac injury. Single radiation doses of 20, 40, or 60 Gy were delivered to the cardiac apex of female C57BL/6 mice ages 9-11 weeks, with or without adjacent lung tissue, using conformal radiotherapy. Cardiac tissue was harvested up to 24 weeks post-radiotherapy for histologic analysis. Echocardiography and Technetium-99m sestamibi single photon emission computed tomography (SPECT) at 8 and 16 weeks post-radiotherapy were implemented to evaluate myocardial function and perfusion. Mouse cardiac tissue and mouse and human plasma were harvested for biochemical studies. Histopathologically, radiotherapy resulted in perivascular fibrosis 8 and 24 ( < 0.05) weeks post-radiotherapy. Apical perfusion deficits on SPECT and systolic and diastolic dysfunction on echocardiography 8 and 16 weeks post-radiotherapy were also observed ( < 0.05). Irradiated cardiac tissue and plasma showed significant increases in placental growth factor (PlGF), IL6, and TNFα compared with nonradiated matched controls, with greater increases in cardiac cytokine levels when radiotherapy involved lung. Human plasma showed increased PlGF ( = 0.021) and TNFα ( = 0.036) levels after thoracic radiotherapy. PlGF levels demonstrated a strong correlation ( = 0.89, = 0.0001) with mean heart dose. We developed and characterized a pathophysiologically relevant mouse model of radiation-induced cardiotoxicity involving irradiation of the cardiac apex. The model can be used to integrate radiomic and biochemical markers of cardiotoxicity to inform early therapeutic intervention and human translational studies.
Bibliography:Co-senior authors
ISSN:1078-0432
1557-3265
DOI:10.1158/1078-0432.CCR-20-3882