Salinomycin decreases feline sarcoma and carcinoma cell viability when combined with doxorubicin

Lucia Borlle; Abdo Dergham; Zacharie Wund; Brittany Zumbo; Teresa Southard; Kelly R. Hume

doi:10.1186/s12917-019-1780-5

BMC Veterinary Research (Jan 2019)

Salinomycin decreases feline sarcoma and carcinoma cell viability when combined with doxorubicin

Lucia Borlle,
Abdo Dergham,
Zacharie Wund,
Brittany Zumbo,
Teresa Southard,
Kelly R. Hume

Affiliations

Lucia Borlle: Department of Clinical Sciences, Cornell University College of Veterinary Medicine
Abdo Dergham: Department of Clinical Sciences, Cornell University College of Veterinary Medicine
Zacharie Wund: Department of Clinical Sciences, Cornell University College of Veterinary Medicine
Brittany Zumbo: Department of Clinical Sciences, Cornell University College of Veterinary Medicine
Teresa Southard: Department of Biomedical Sciences, Cornell University College of Veterinary Medicine
Kelly R. Hume: Department of Clinical Sciences, Cornell University College of Veterinary Medicine

DOI: https://doi.org/10.1186/s12917-019-1780-5
Journal volume & issue: Vol. 15, no. 1
pp. 1 – 12

Abstract

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Abstract Background Cancer is a significant health threat in cats. Chemoresistance is prevalent in solid tumors. The ionophore salinomycin has anti-cancer properties and may work synergistically with chemotherapeutics. The purpose of our study was to determine if salinomycin could decrease cancer cell viability when combined with doxorubicin in feline sarcoma and carcinoma cells. Results We established two new feline injection-site sarcoma cell lines, B4 and C10, and confirmed their tumorigenic potential in athymic nude mice. B4 was more resistant to doxorubicin than C10. Dose-dependent effects were not observed until 92 μM in B4 cells (p = 0.0006) vs. 9.2 μM (p = 0.0004) in C10 cells. Dose-dependent effects of salinomycin were observed at 15 μM in B4 cells (p = 0.025) and at 10 μM in C10 cells (p = 0.020). Doxorubicin plus 5 μM salinomycin decreased viability of B4 cells compared to either agent alone, but only at supra-pharmacological doxorubicin concentrations. However, doxorubicin plus 5 μM salinomycin decreased viability of C10 cells compared to either agent alone at doxorubicin concentrations that can be achieved in vivo (1.84 and 4.6 μM, p < 0.004). In SCCF1 cells, dose-dependent effects of doxorubicin and salinomycin were observed at 9.2 (p = 0.036) and 2.5 (p = 0.0049) μM, respectively. When doxorubicin was combined with either 1, 2.5, or 5 μM of salinomycin in SCCF1 cells, dose-dependent effects of doxorubicin were observed at 9.2 (p = 0.0021), 4.6 (p = 0.0042), and 1.84 (p = 0.0021) μM, respectively. Combination index calculations for doxorubicin plus 2.5 and 5 μM salinomycin in SCCF1 cells were 0.4 and 0.6, respectively. Conclusions We have developed two new feline sarcoma cell lines that can be used to study chemoresistance. We observed that salinomycin may potentiate (C10 cells) or work synergistically (SCCF1 cells) with doxorubicin in certain feline cancer cells. Further research is indicated to understand the mechanism of action of salinomycin in feline cancer cells as well as potential tolerability and toxicity in normal feline tissues.

Published in BMC Veterinary Research

ISSN: 1746-6148 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Agriculture: Animal culture: Veterinary medicine
Website: http://bmcvetres.biomedcentral.com

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