Abstract
BackgroundThe global disparity in cancer incidence remains a major public health problem. We focused on prostate cancer since microscopic disease in men is common, but the incidence of clinical disease varies more than 100 fold worldwide. Ca2+ signaling is a central regulator of cell proliferation, but has received little attention in cancer prevention. We and others have reported a strong dose-dependent reduction in the incidence of prostate and lung cancer within populations exposed to boron (B) in drinking water and food; and in tumor and cell proliferation in animal and cell culture models.Methods/Principal FindingsWe examined the impact of B on Ca2+ stores using cancer and non-cancer human prostate cell lines, Ca2+ indicators Rhod-2 AM and Indo-1 AM and confocal microscopy. In DU-145 cells, inhibition of Ca2+ release was apparent following treatment with Ringers containing RyR agonists cADPR, 4CmC or caffeine and respective levels of BA (50 µM), (1, 10 µM) or (10, 20, 50,150 µM). Less aggressive LNCaP cancer cells required 20 µM BA and the non-tumor cell line PWR1E required 150 µM BA to significantly inhibit caffeine stimulated Ca2+ release. BA (10 µM) and the RyR antagonist dantroline (10 µM) were equivalent in their ability to inhibit ER Ca2+ loss. Flow cytometry and confocal microscopy analysis showed exposure of DU-145 cells to 50 µM BA for 1 hr decreased stored [Ca2+] by 32%.Conclusion/SignificanceWe show B causes a dose dependent decrease of Ca2+ release from ryanodine receptor sensitive stores. This occurred at BA concentrations present in blood of geographically disparate populations. Our results suggest higher BA blood levels lower the risk of prostate cancer by reducing intracellular Ca2+ signals and storage.
Highlights
One of the ways cells respond to environmental stimuli is by opening channels between sites of stored calcium, such as the endoplasmic reticulum (ER), Golgi, and mitochondria, which contain high free Ca2+ concentrations (500 mM), and the cytoplasm, which contains low free Ca2+ concentrations (100 nM) [1]
This study reports the unexpected finding that stored Ca2+ release and luminal levels can be modulated by physiologically relevant levels of boric acid (BA) in DU-145 prostate cancer epithelial cells
This is relevant to our understanding of cancer risk since blood levels of BA are determined by the consumption of B in drinking water and plant derived foods [17]
Summary
One of the ways cells respond to environmental stimuli is by opening channels between sites of stored calcium, such as the endoplasmic reticulum (ER), Golgi, and mitochondria (mt), which contain high free Ca2+ concentrations (500 mM), and the cytoplasm, which contains low free Ca2+ concentrations (100 nM) [1]. B is bound to oxygen in nature and in physiological fluids 98.4% is present in the form of B(OH) boric acid and 1.6% as B(OH) borate. Biology has used this element in the structure of several molecules including: antibiotics in fungi [7]; quorum sensing auto inducer 2 in bacteria [8]; and the rhamnogalacturonan-II dimer in plants [9]. We and others have reported a strong dose-dependent reduction in the incidence of prostate and lung cancer within populations exposed to boron (B) in drinking water and food; and in tumor and cell proliferation in animal and cell culture models
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