Abstract
Targeting dysregulated Ca2+ signaling in cancer cells is an emerging chemotherapy approach. We previously reported that store-operated Ca2+ entry (SOCE) blockers, such as RP4010, are promising antitumor drugs for esophageal cancer. As a tyrosine kinase inhibitor (TKI), afatinib received FDA approval to be used in targeted therapy for patients with EGFR mutation-positive cancers. While preclinical studies and clinical trials have shown that afatinib has benefits for esophageal cancer patients, it is not known whether combination of afatinib and RP4010 could achieve better anticancer effects. Since TKI can alter intracellular Ca2+ dynamics through EGFR/phospholipase C-γ pathway, in this study, we evaluated the inhibitory effect of afatinib and RP4010 on intracellular Ca2+ oscillations in esophageal cancer cells using both experimental and mathematical simulations. Our mathematical simulation of Ca2+ oscillations could fit well with experimental data responding to aftinib or RP4010, separately or in combination. The results showed that combination of afatinib and RP4010 presented synergistic anticancer effect. This intracellular Ca2+ dynamic-based mathematical simulation approach could be useful for a rapid and cost-effective evaluation of combined targeting therapy drugs.
Competing Interest Statement
The authors have declared no competing interest.
Abbreviations
- SOCE
- store-operated Ca2+ entry
- TKI
- tyrosine kinase inhibitor
- EGFR
- epidermal growth factor receptor
- PLC-γ
- phospholipase C-γ
- ESCC
- esophageal squamous cell carcinoma
- STIM
- stromal-interacting molecule family
- CICR
- Ca2+ -induced Ca2+ release.