Dave J R, Witorsch R J
Biochem Biophys Res Commun. 1986 Feb 13;134(3):1122-8. doi: 10.1016/0006-291x(86)90367-0.
In vitro treatment of crude particulate fractions of male rat ventral prostate and female rat liver with membrane fluidizers (aliphatic alcohols) has been previously reported by us to increase prolactin (PRL) receptor levels, presumably by unmasking cryptic prolactin receptors. The objective of this study was to determine if similar in vitro treatment of purified plasma membrane- and Golgi-rich fractions of male rat prostate and female rat liver with ethanol produced differential effects on prolactin binding in these two subcellular fractions. The degree of fluidization was monitored by a fluorescence polarization method using 1,6-diphenylhexatriene. 125I-PRL specific binding to Golgi-rich fractions of male ventral prostate and female liver was approximately 4-fold higher than that observed in plasma membrane-rich fractions. The microviscosity parameter, inversely related to lipid fluidity, was consistently lower in Golgi-rich fractions than that in plasma membrane-rich fractions in both prostate and liver. In vitro ethanol treatment of prostatic and hepatic plasma membrane fractions produced a dose-related increase and then decline in prolactin binding and a maximal (60-75%) increase in prolactin binding was observed at 4.8% and 2.0% ethanol in prostatic and hepatic membranes, respectively. This in vitro treatment also produced a significant increase in apparent lipid fluidity of plasma membrane-rich fractions of prostate gland and liver. However, similar in vitro ethanol treatment of Golgi fractions of both prostate gland and liver exhibited little increase in prolactin binding without changing microviscosity. Our observations are consistent with the direct relationship between membrane fluidity and prolactin receptor levels. The changes in prostatic and hepatic plasma membrane fractions following in vitro ethanol treatment suggest that prolactin receptors located on the plasma membranes may be modulated (via membrane lipid microviscosity changes) in vivo to a greater extent by various physiological agents than those located within the Golgi fraction.
我们之前曾报道,用膜流化剂(脂肪醇)对雄性大鼠腹侧前列腺和雌性大鼠肝脏的粗颗粒部分进行体外处理,可增加催乳素(PRL)受体水平,推测是通过揭开隐匿的催乳素受体实现的。本研究的目的是确定用乙醇对雄性大鼠前列腺和雌性大鼠肝脏的纯化质膜和富含高尔基体的部分进行类似的体外处理,是否会对这两个亚细胞部分的催乳素结合产生不同影响。通过使用1,6 - 二苯基己三烯的荧光偏振法监测流化程度。125I - PRL与雄性腹侧前列腺和雌性肝脏富含高尔基体部分的特异性结合比在富含质膜的部分中观察到的约高4倍。与脂质流动性呈反比的微粘度参数在前列腺和肝脏的富含高尔基体部分中始终低于富含质膜的部分。对前列腺和肝脏质膜部分进行体外乙醇处理,催乳素结合先呈剂量相关增加然后下降,在前列腺膜和肝膜中分别在4.8%和2.0%乙醇时观察到催乳素结合最大增加(60 - 75%)。这种体外处理还使前列腺和肝脏富含质膜部分的表观脂质流动性显著增加。然而,对前列腺和肝脏的高尔基体部分进行类似的体外乙醇处理,催乳素结合几乎没有增加,且微粘度没有变化。我们的观察结果与膜流动性和催乳素受体水平之间的直接关系一致。体外乙醇处理后前列腺和肝脏质膜部分的变化表明,位于质膜上的催乳素受体在体内可能比位于高尔基体部分的受体更容易受到各种生理因子(通过膜脂质微粘度变化)的调节。