BACKGROUND: Diethylstilbestrol (DES) and other pharmaceutical estrogens have been used at ≥μM concentrations to treat advanced prostate tumors, with successes primarily attributed to indirect hypothalamic-pituitary-testicular axis control mechanisms. However, estrogens also directly affect tumor cells, though the mechanisms involved are not well understood. METHODS: LAPC-4 (androgen-dependent) and PC-3 (androgen-independent) cell viability was measured after estradiol (E2) or DES treatment across wide concentration ranges. We then examined multiple rapid signaling mechanisms at 0.1 nM E2 and 1μM DES optima including levels of: activation (phosphorylation) for mitogen-activated protein kinases, cell-cycle proteins, and caspase 3, necroptosis, and reactive oxygen species (ROS). RESULTS: LAPC-4 cells were more responsive than PC-3 cells. Robust and sustained extracellular-regulated kinase activation with E2, but not DES, correlated with ROS generation and cell death. c-Jun N-terminal kinase was only activated in E2-treated PC-3 cells and was not correlated with caspase 3-mediated apoptosis; necroptosis was not involved. The cell-cycle inhibitor protein p16INK4A was phosphorylated in both cell lines by both E2 and DES, but to differing extents. In both cell types, both estrogens activated p38 kinase, which subsequently phosphorylated cyclin D1, tagging it for degradation, except in DES-treated PC-3 cells. CONCLUSIONS: Cyclin D1 status correlated most closely with disrupted cell cycling as a cause of reduced cell numbers, though other mechanisms also contributed. As low as 0.1 nM E2 effectively elicited these mechanisms, and its use could dramatically improve outcomes for both early- and late-stage prostate cancer patients, while avoiding the side effects of high-dose DES treatment.
We explore the feasibility of using gold nanorods with efficient two-photon luminescence properties as contrast agents for intravital imaging of neoplasia. This investigation spanned ex vivo characterization in cells/tissue to in vivo implementation in an oral carcinogenesis model. GNRs were >40 times brighter than surrounding tissue. Intravital imaging revealed 3D microvasculature, and in dysplasia, abnormal vessels (dense and tortuous) compared to normal. GNRs were diffusely distributed in lesions after 24 hours. No known previous study has revealed abnormal vessel structure in dysplasia by imaging. Results suggest GNRs can function as high-contrast agents for in vivo visualization of carcinogenesis features.
Xenoestrogens (XEs) are exogenous mimics capable of binding to estrogen receptors (ERs), competing with/ disrupting the actions of physiological estrogens, and promoting tumor growth in the prostate and other endocrine tissues. Humans are exposed to numerous XEs including environmental contaminants such as plastics monomer bisphenol A (BPA), and dietary phytoestrogens such as coumestrol and genistein from soy, and resveratrol, highest in red grapes. There is growing interest in the ability of phytoestrogens to prevent or treat tumors. We previously reported that multiple cellular mechanisms influence the number of prostate cancer cells after estradiol or diethylstilbestrol treatment. We now examine the effect of these XEs on signaling mechanisms that alter the number of LAPC-4 (androgen-dependent) and PC-3 (androgen-independent) cells at environment-and diet-relevant concentrations. Coumestrol and genistein both increased the number of LAPC-4 and PC-3 cells dramatically. Rapid alterations of phospho-and total-cyclin D1 levels most closely correlated with the XE-induced changes in cell numbers. Sustained activation (phosphorylation) of the extracellular signal-regulated kinases 1 and 2 as a prelude to generation of reactive oxygen species also partially contributed to the XE's effects on cell numbers. Early-stage cells expressed higher levels of all 3 ERs (including those in membranes) than did late-stage cells; ER subtypes were variably involved in the signaling responses. Taken together, these results show that each XE can elicit its own signature constellation of signaling responses, highlighting the importance of managing exposures to both environmental and dietary XEs for existing prostate tumors. These mechanisms may offer new cellular targets for therapy.
According to the literature, prescription cost and convenience are generally regarded as the most important reasons for buying online. This study examines the availability of selected prescription drugs at some of the online pharmacies in the USA. Specifically, the drugs examined are among the ten most often prescribed by physicians.
We developed fixed-cell multi-well plate immunoassays that increase the throughput and ease of quantification for questions formerly assessed by immunoblot scanning. The assays make use of the now abundant antibodies designed to recognize receptor subtypes and posttranslationally modified signaling proteins. By optimizing permeabilization and fixation conditions, mainly based on specific cell types, the assay can be adapted to the study of many different antigens of importance to hormonal and neurotransmitter signaling scenarios.
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