Parthenolide is a sesquiterpene lactone compound isolated from the leaves and flowerheads of the plant feverfew (Tanacetum parthenium). The anticancer effects of parthenolide have been well studied and this lactone compound is currently under clinical trials. Parthenolide is also a protective agent in cardiac reperfusion injury via its inhibition of nuclear factor-κB (NF-κB). Not much is known if this compound affects signal transduction in non-tumor cells. We investigated whether parthenolide affected Ca(2+) signaling in endothelial cells, key components in regulating the vascular tone. In this work using mouse cortical microvascular bEND.3 endothelial cells, we found that a 15-h treatment with parthenolide resulted in amplified ATP-triggered Ca(2+) signal; the latter had a very slow decay rate suggesting suppression of Ca(2+) clearance. Evidence suggests parthenolide suppressed Ca(2+) clearance by inhibiting the plasmalemmal Ca(2+) pump; such suppression did not result from decreased expression of the plasmalemmal Ca(2+) pump protein. Rather, such suppression was possibly a consequence of endoplasmic reticulum (ER) stress, since salubrinal (an ER stress protector) was able to alleviate parthenolide-induced Ca(2+) clearance suppression. Given the current deployment of parthenolide as an anti-cancer drug in clinical trials and the potential usage of this lactone as a cardioprotectant, it is important to examine in details the perturbing effects of parthenolide on Ca(2+) homeostasis in endothelial cells and neighboring vascular smooth muscle cells, activities of which exert profound effects on hemodynamics.
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