Abstract
Background: Doxorubicin (Dox) is a first-line treatment for triple negative breast cancer (TNBC), but its use may be limited by its cardiotoxicity mediated by the production of reactive oxygen species. We evaluated whether vitamin D may prevent Dox-induced cardiotoxicity in a mouse TNBC model. Methods: Female Balb/c mice received rodent chow with vitamin D3 (1500 IU/kg; vehicle) or chow supplemented with additional vitamin D3 (total, 11,500 IU/kg). the mice were inoculated with TNBC tumors and treated with intraperitoneal Dox (6 or 10 mg/kg). Cardiac function was evaluated with transthoracic echocardiography. The cardiac tissue was evaluated with immunohistochemistry and immunoblot for levels of 4-hydroxynonenal, NAD(P)H quinone oxidoreductase (NQO1), C-MYC, and dynamin-related protein 1 (DRP1) phosphorylation. Results: At 15 to 18 days, the mean ejection fraction, stroke volume, and fractional shortening were similar between the mice treated with vitamin D + Dox (10 mg/kg) vs. vehicle but significantly greater in mice treated with vitamin D + Dox (10 mg/kg) vs. Dox (10 mg/kg). Dox (10 mg/kg) increased the cardiac tissue levels of 4-hydroxynonenal, NQO1, C-MYC, and DRP1 phosphorylation at serine 616, but these increases were not observed with vitamin D + Dox (10 mg/kg). A decreased tumor volume was observed with Dox (10 mg/kg) and vitamin D + Dox (10 mg/kg). Conclusions: Vitamin D supplementation decreased Dox-induced cardiotoxicity by decreasing the reactive oxygen species and mitochondrial damage, and did not decrease the anticancer efficacy of Dox against TNBC.
Highlights
Doxorubicin (Dox) is an effective treatment for multiple cancer types, including triple negative breast cancer (TNBC)
The mice were randomly assigned to receive either vehicle or vitamin D-supplemented chow for 14 days before the plasma was collected for the analysis of vitamin D concentration
Vitamin D is hydroxylated in the liver to 25-hydroxyvitamin D (25(OH)Vit D) and further hydroxylated in the kidney to 1α,25-dihydroxyvitamin D [20,21]
Summary
Doxorubicin (Dox) is an effective treatment for multiple cancer types, including triple negative breast cancer (TNBC). The use of Dox is limited because of its cardiotoxic adverse events, predominantly due to an increase in oxidative stress [1,2]. Dox increases the expression of the oncogene MYC [6]. Increased C-MYC promotes ROS production, chromosomal instability, tumor progression, and chemoresistance [1,7]. C-MYC overexpression in tumors correlates with poor prognosis and poor outcome of patients with TNBC [8,9]. The ROS scavenger dexrazoxane may limit cardiotoxicity in children receiving Dox, but its use in adults is limited [10]. New strategies have been sought to decrease oxidative stress in individuals receiving Dox and to improve therapeutic outcomes without having detrimental effects on the antitumor activity
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