Ratna Warren N, Bhatt Vrushank D, Chaudhary Kawshik, Bin Ariff Ammar, Bavadekar Supriya A, Ratna Haran N
Division of Pharmaceutical Sciences, Department of Pharmacology and Toxicology, Arnold and Marie Schwartz College of Pharmacy, Long Island University, Brooklyn, New York, USA.
Division of Pharmaceutical Sciences, Department of Pharmacology and Toxicology, Arnold and Marie Schwartz College of Pharmacy, Long Island University, Brooklyn, New York, USA.
Theriogenology. 2016 Feb;85(3):376-83. doi: 10.1016/j.theriogenology.2015.08.015. Epub 2015 Sep 3.
In a hen, large quantities of the egg yolk proteins, apolipoprotein II (apo-II) and vitellogenin (VG), are expressed in the liver and transported to the oviduct during egg production. Estrogenic stimulation of the hepatic expression of apo-II and VG is due to both transcriptional increase and mRNA stabilization. The nucleolytic degradation of apo-II messenger RNA (mRNA) is prevented by estrogen-regulated mRNA-stabilizing factor (E-RmRNASF). Gene-specific effects of a select panel of selective estrogen receptor modulators (SERMs) on the hepatic expression of the estrogen-responsive genes encoding apo-II, VG, and E-RmRNASF in the chicken liver were investigated. In the present study, 6-week-old roosters were treated with the vehicle, estrogen, the SERMs genistein, resveratrol, tamoxifen, pterostilbene, raloxifene, catechin, and clomiphene or a combination of estrogen and a 200-fold excess of each of the SERMs. Results from mRNA stabilization studies conducted to investigate the stimulation of expression of E-RmRNASF in the liver by these agents showed that the expression of E-RmRNASF in the liver was stimulated by estrogen and the SERMs genistein, resveratrol, tamoxifen, pterostilbene, and catechin but not by the vehicle, clomiphene or raloxifene. The expression of apo-II and VG from the aforementioned treatments was determined by Northern blot analysis, RNase protection assays, and Western blot analysis. The transcription and protein expression of both apo-II and VG genes were seen in response to treatment with estrogen but not with the SERMs or combinations of estrogen and each of the SERMs. The SERMs that stimulated the expression of E-RmRNASF antagonized the stimulation of the expression of both apo-II and VG by estrogen, demonstrating a gene-specific, selective regulation of the aforementioned genes in the chicken liver by the SERMs. The above panel of SERMs may likely have adverse effects on egg production.
在母鸡中,大量的蛋黄蛋白、载脂蛋白II(apo-II)和卵黄生成素(VG)在肝脏中表达,并在产蛋期间运输到输卵管。雌激素对apo-II和VG肝脏表达的刺激作用既归因于转录增加,也归因于mRNA稳定化。雌激素调节的mRNA稳定因子(E-RmRNASF)可防止apo-II信使核糖核酸(mRNA)的核酸降解。研究了一组选择性雌激素受体调节剂(SERM)对鸡肝脏中编码apo-II、VG和E-RmRNASF的雌激素反应基因肝脏表达的基因特异性影响。在本研究中,对6周龄的公鸡给予溶剂、雌激素、SERM染料木黄酮、白藜芦醇、他莫昔芬、紫檀芪、雷洛昔芬、儿茶素和克罗米芬,或雌激素与每种SERM 200倍过量的组合。为研究这些药物对肝脏中E-RmRNASF表达的刺激作用而进行的mRNA稳定化研究结果表明,雌激素以及SERM染料木黄酮、白藜芦醇、他莫昔芬、紫檀芪和儿茶素可刺激肝脏中E-RmRNASF的表达,但溶剂、克罗米芬或雷洛昔芬则无此作用。通过Northern印迹分析、核糖核酸酶保护试验和蛋白质印迹分析确定上述处理中apo-II和VG的表达。雌激素处理后可观察到apo-II和VG基因的转录和蛋白质表达,但SERM或雌激素与每种SERM的组合处理则未观察到。刺激E-RmRNASF表达的SERM拮抗雌激素对apo-II和VG表达的刺激作用,表明SERM对鸡肝脏中上述基因具有基因特异性的选择性调节作用。上述这组SERM可能对产蛋有不良影响。