Chottanapund Suthat, Van Duursen M B M, Navasumrit Panida, Hunsonti Potchanee, Timtavorn Supatchaya, Ruchirawat Mathuros, Van den Berg Martin
Division of Environmental Toxicology, Chulabhorn Graduate Institute, Bangkok, Thailand; Laboratory of Environmental Toxicology, Chulabhorn Research Institute, Bangkok, Thailand; Center of Excellence on Environmental Health, Toxicology and Management of Chemicals, Bangkok, Thailand; Bamrasnaradura Infectious Diseases Institute, Ministry of Public Health, Thailand.
Institute for Risk Assessment Sciences, Utrecht University, Utrecht, The Netherlands.
Toxicol In Vitro. 2014 Oct;28(7):1215-21. doi: 10.1016/j.tiv.2014.05.015. Epub 2014 Jun 12.
Targeting the estrogen pathway has been proven effective in the treatment for estrogen receptor positive breast cancer. There are currently two common groups of anti-estrogenic compounds used in the clinic; Selective Estrogen Receptor Modulators (SERMs, e.g. tamoxifen) and Selective Estrogen Enzyme Modulators (SEEMs e.g. letrozole). Among various naturally occurring, biologically active compounds, resveratrol and melatonin have been suggested to act as aromatase inhibitors, which make them potential candidates in hormonal treatment of breast cancer. Here we used a co-culture model in which we previously demonstrated that primary human breast adipose fibroblasts (BAFs) can convert testosterone to estradiol, which subsequently results in estrogen receptor-mediated breast cancer T47D cell proliferation. In the presence of testosterone in this model, we examined the effect of letrozole, resveratrol and melatonin on cell proliferation, estradiol (E2) production and gene expression of CYP19A1, pS2 and Ki-67. Both melatonin and resveratrol were found to be aromatase inhibitors in this co-culture system, albeit at different concentrations. Our co-culture model did not provide any indications that melatonin is also a selective estrogen receptor modulator. In the T47D-BAF co-culture, a melatonin concentration of 20 nM and resveratrol concentration of 20 μM have an aromatase inhibitory effect as potent as 20 nM letrozole, which is a clinically used anti-aromatase drug in breast cancer treatment. The SEEM mechanism of action of especially melatonin clearly offers potential advantages for breast cancer treatment.
靶向雌激素通路已被证明在雌激素受体阳性乳腺癌的治疗中有效。目前临床上使用的抗雌激素化合物有两类常见的;选择性雌激素受体调节剂(SERM,如他莫昔芬)和选择性雌激素酶调节剂(SEEM,如来曲唑)。在各种天然存在的生物活性化合物中,白藜芦醇和褪黑素被认为可作为芳香化酶抑制剂,这使它们成为乳腺癌激素治疗的潜在候选药物。在这里,我们使用了一种共培养模型,我们之前证明原代人乳腺脂肪成纤维细胞(BAF)可以将睾酮转化为雌二醇,随后导致雌激素受体介导的乳腺癌T47D细胞增殖。在该模型中存在睾酮的情况下,我们研究了来曲唑、白藜芦醇和褪黑素对细胞增殖、雌二醇(E2)产生以及CYP19A1、pS2和Ki-67基因表达的影响。在这个共培养系统中,褪黑素和白藜芦醇都被发现是芳香化酶抑制剂,尽管浓度不同。我们的共培养模型没有提供任何迹象表明褪黑素也是一种选择性雌激素受体调节剂。在T47D-BAF共培养中,20 nM的褪黑素浓度和20 μM的白藜芦醇浓度具有与20 nM来曲唑相同的芳香化酶抑制作用,来曲唑是一种临床上用于乳腺癌治疗的抗芳香化酶药物。特别是褪黑素的SEEM作用机制显然为乳腺癌治疗提供了潜在优势。
