AI Article Synopsis
- Increased expression of calcium channels in certain cancers has led to trials using calcium channel inhibitors and activators as potential cancer treatments.
- The study focused on a modified MCF-7 breast cancer cell line and found that TRPV1 levels significantly influenced cell death caused by the activator capsaicin, establishing a minimum TRPV1 level required for effective cell death.
- Importantly, the findings revealed that while capsaicin induced necrotic cell death, it did not promote cancer cell proliferation at any TRPV1 expression level or capsaicin concentration.
Article Abstract
Increased expression of specific calcium channels in some cancers and the role of calcium signaling in proliferation and invasion have led to studies assessing calcium channel inhibitors as potential therapies for some cancers. The use of channel activators to promote death of cancer cells has been suggested, but the risk of activators promoting cancer cell proliferation and the importance of the degree of channel over-expression is unclear. We developed an MCF-7 breast cancer cell line with inducible TRPV1 overexpression and assessed the role of TRPV1 levels on cell death mediated by the TRPV1 activator capsaicin and the potential for submaximal activation to promote proliferation. The TRPV1 level was a determinant of cell death induced by capsaicin. A concentration response curve with varying TRPV1 expression levels identified the minimum level of TRPV1 required for capsaicin induced cell death. At no level of TRPV1 over-expression or capsaicin concentration did TRPV1 activation enhance proliferation. Cell death induced by capsaicin was necrotic and associated with up-regulation of c-Fos and RIP3. These studies suggest that activators of specific calcium channels may be an effective way to induce necrosis and that this approach may not always be associated with enhancement of cancer cell proliferation.
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| http://dx.doi.org/10.1016/j.ceca.2014.04.006 | DOI Listing |
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