Rance N, Wise P M, Selmanoff M K, Barraclough C A
Endocrinology. 1981 May;108(5):1795-802. doi: 10.1210/endo-108-5-1795.
We have correlated catecholamine [CA; i.e. norepinephrine (NE), dopamine (DA), and epinephrine (E)] turnover rates in discrete hypothalamic nuclei and in the median eminence (ME), with concentration changes in ME LHRH and serum LH, FSH, PRL, estradiol, and progesterone levels at various times during proestrus and diestrous day 1 in 4-day cyclic rats. CA concentrations were measured with a radioenzymatic assay at 0, 60, and 120 min after ip injection of 400 mg/kg alpha-methyl-p-tyrosine, and rate constants and turnover rates were calculated. In a separate assay NE, DA, and E were separated by two-dimensional thin layer chromatography, and concentrations and turnover rates of CAs were calculated. The microdissected hypothalamic nuclei examined for NE turnover rates included the medial preoptic nucleus (MPN), suprachiasmatic nucleus (SCN), arcuate nucleus (AN), and ME. DA turnover rates also were measured in the MPN, ME, and AN. ME LHRH and serum hormone concentrations were measured by RIA. Between 0900--1200 h, proestrous serum estradiol was elevated, but other serum hormones were basal, and CA turnover rates in the brain were low. However, ME LHRH concentrations increased significantly between 0900--1200 h on proestrus. Between 1200--1500 h, serum LH, FSH, PRL, and progesterone levels increased and ME LHRH levels declined significantly; during this time interval (1200--1400 h), a significant rise in ME NE and DA turnover rates occurred. Between 1500--1700 h on proestrus, while serum gonadotropins were still rising toward peak concentrations, increased ME NE turnover rates were maintained, but increased NE turnover rates also were evident in MPN, SCN, and AN. During this same time interval (1500--1700 h), a marked decline in ME and AN DA turnover rates occurred, although such rates remained unchanged within the MPN. There were no corresponding changes in MPN E turnover rates at any of the time intervals studied. The increased turnover rates of ME NE coupled with the concomitant decline in ME LHRH levels and the rise in plasma LH and FSH levels suggest that increased NE release may be important in initiating preovulatory LH and FSH surges. These changes in brain neurotransmitters and serum hormones are not the result of a diurnal rhythm, since corresponding changes in CA turnover rates or serum gonadotropins did not occur between 0900--1100 h and 1500--1700 h diestrous day 1.
我们已将4日周期大鼠发情前期和动情期第1天不同时间点,下丘脑离散核团及正中隆起(ME)中儿茶酚胺(CA,即去甲肾上腺素(NE)、多巴胺(DA)和肾上腺素(E))的周转率,与ME中促性腺激素释放激素(LHRH)以及血清促黄体生成素(LH)、促卵泡生成素(FSH)、催乳素(PRL)、雌二醇和孕酮水平的浓度变化进行了关联分析。腹腔注射400mg/kgα-甲基-对-酪氨酸后0、60和120分钟,用放射酶法测定CA浓度,并计算速率常数和周转率。在另一项分析中,通过二维薄层色谱法分离NE、DA和E,并计算CA的浓度和周转率。检测NE周转率的显微切割下丘脑核团包括内侧视前核(MPN)、视交叉上核(SCN)、弓状核(AN)和ME。还测定了MPN、ME和AN中的DA周转率。通过放射免疫分析法测定ME LHRH和血清激素浓度。在09:00 - 12:00时,发情前期血清雌二醇升高,但其他血清激素处于基础水平,脑内CA周转率较低。然而,发情前期09:00 - 12:00期间ME LHRH浓度显著增加。在12:00 - 15:00时,血清LH、FSH、PRL和孕酮水平升高,ME LHRH水平显著下降;在此时间间隔(12:00 - 14:00)内,ME中NE和DA周转率显著升高。在发情前期15:00 - 17:00时,虽然血清促性腺激素仍在朝着峰值浓度上升,但ME中NE周转率持续升高,MPN、SCN和AN中NE周转率也明显升高。在同一时间间隔(15:00 - 17:00)内,ME和AN中DA周转率显著下降,尽管MPN内的DA周转率保持不变。在所研究的任何时间间隔内,MPN中E周转率均无相应变化。ME中NE周转率升高,同时ME LHRH水平下降以及血浆LH和FSH水平升高,表明NE释放增加可能在引发排卵前LH和FSH峰中起重要作用。脑内神经递质和血清激素的这些变化不是昼夜节律的结果,因为在动情期第1天的09:00 - 11:00和15:00 - 17:00之间,CA周转率或血清促性腺激素没有相应变化。
