Stanislaus D, Ponder S, Ji T H, Conn P M
Department of Physiology and Pharmacology, Oregon Health Sciences University, Portland, Oregon 97201, USA.
Biol Reprod. 1998 Sep;59(3):579-86. doi: 10.1095/biolreprod59.3.579.
There is evidence in several cell systems suggesting that the GnRH receptor couples to multiple G proteins. Presently there are no published studies showing GnRH receptor coupling to Gialpha, Gsalpha, and Gq/11alpha in a single cell type. To examine this possibility we measured palmitoylation of G proteins in response to GnRH receptor occupancy, since this event is a measure of G-protein activation by cognate receptors. GnRH stimulated time (0-120 min)- and dose (10(-12)-10(-6) g/ml)-dependent palmitoylation of both Gialpha and Gsalpha. Palmitoylation is G-protein activation dependent; accordingly, pertussis toxin (100 ng/ml; PTX), phorbol myristic acid (100 ng/ml), and Antide (50 nM; a GnRH antagonist) did not stimulate palmitoylation of Gialpha or Gsalpha above basal levels. However, cholera toxin (5 microgram/ml), an activator of Gsalpha, stimulated palmitoylation of Gsalpha but not Gialpha. We used a lactotrope-derived cell line expressing the GnRH receptor (GGH3) to examine whether the ability of the receptor to couple multiple G proteins is gonadotroph specific. GGH3 cells were transfected with specific cDNA coding for different G proteins, and agonist-stimulated second messenger production was assessed. Buserelin (a GnRH agonist) stimulated increased cAMP release in Gsalpha cDNA-transfected GGH3 cells, whereas in Gialpha cDNA-transfected cells, both inositol phosphate (IP) production and cAMP release were decreased in response to buserelin. Transfection of Gqalpha, G11alpha, G14alpha, and G15alpha cDNA into GGH3 cells resulted in an increased IP production in response to buserelin, indicating that GnRH receptor couples to this PTX-insensitive G-protein family. The observations presented in this study provide evidence for GnRH receptor coupling to multiple G proteins in a single cell type.
在多个细胞系统中有证据表明,促性腺激素释放激素(GnRH)受体可与多种G蛋白偶联。目前尚无已发表的研究显示GnRH受体在单一细胞类型中与Gialpha、Gsalpha和Gq/11alpha偶联。为了研究这种可能性,我们检测了GnRH受体被占据后G蛋白的棕榈酰化情况,因为这一事件是同源受体激活G蛋白的一个指标。GnRH刺激后,Gialpha和Gsalpha的棕榈酰化呈现出时间(0 - 120分钟)和剂量(10⁻¹² - 10⁻⁶克/毫升)依赖性。棕榈酰化依赖于G蛋白的激活;因此,百日咳毒素(100纳克/毫升;PTX)、佛波醇肉豆蔻酸酯(100纳克/毫升)和Antide(50纳摩尔;一种GnRH拮抗剂)不会使Gialpha或Gsalpha的棕榈酰化水平高于基础水平。然而,霍乱毒素(5微克/毫升),一种Gsalpha的激活剂,可刺激Gsalpha的棕榈酰化,但不刺激Gialpha。我们使用表达GnRH受体的催乳素细胞系(GGH3)来研究该受体与多种G蛋白偶联的能力是否具有促性腺激素细胞特异性。用编码不同G蛋白的特异性cDNA转染GGH3细胞,并评估激动剂刺激后的第二信使生成情况。布舍瑞林(一种GnRH激动剂)刺激Gsalpha cDNA转染的GGH3细胞中cAMP释放增加,而在Gialpha cDNA转染的细胞中,响应布舍瑞林时肌醇磷酸(IP)生成和cAMP释放均减少。将Gqalpha、G11alpha、G14alpha和G15alpha cDNA转染到GGH3细胞中,导致响应布舍瑞林时IP生成增加,表明GnRH受体可与这个对PTX不敏感的G蛋白家族偶联。本研究中的观察结果为GnRH受体在单一细胞类型中与多种G蛋白偶联提供了证据。
