Breese G R, Cott J M, Cooper B R, Prange A J, Lipton M A, Plotnikoff N P
J Pharmacol Exp Ther. 1975 Apr;193(1):11-22.
Thyrotropin-releasing hormone (TRH) was found to antagonize pentobarbital-induced sleeping time and hypothermia. While 3 to 100 mg/kg of TRH reduced pentobarbital sleeping time when administered prior to the barbiturate, a dose-response relationship to TRH could not be established. However, doses of 10 to 100 mg/kg of TRH enhanced the lethality of pentobarbital when these compounds were administered simultaneously. Thyrotropin or L-triiodothyronine did not imitate and hypophysectomy did not reduce the effects of TRH, indicating that the pituitary is not essential for its antagonism of pentobarbital. Studies of TRH analogs provided further support of this view. In addition, TRH reduced the sleep and hypothermia produced by thiopental, amobarbital, secobarbital and phenobarbital, and it antagonized the hypothermia and reduced motor activity produced by chloral hydrate, reserpine, chlorpromazine and diazepam. Intracisternally administered TRH also reduced pentobarbital sleeping time and hypothermia, but melanocyte-stimulating hormone release-inhibiting factor and somatostatin administered by this route did not. While reduction of pentobarbital sleeping time by TRH could not be attributed to an affect on monoamine systems or to deamidated TRH, this action was reduced by intracisternally administered atropine, suggesting that cholinergic mechanisms may contribute to the effects of TRH. Thus, the results provide evidence that TRH acts on brain independent of an effect on the pituitary.
促甲状腺激素释放激素(TRH)被发现可拮抗戊巴比妥诱导的睡眠时间和体温过低。当在给予巴比妥酸盐之前给予3至100mg/kg的TRH时,戊巴比妥睡眠时间会减少,但无法建立TRH的剂量反应关系。然而,当同时给予10至100mg/kg的TRH和戊巴比妥时,TRH会增强戊巴比妥的致死性。促甲状腺激素或L-三碘甲状腺原氨酸无法模拟这种作用,垂体切除也不会降低TRH的作用,这表明垂体对于TRH拮抗戊巴比妥并非必不可少。对TRH类似物的研究进一步支持了这一观点。此外,TRH可减少硫喷妥钠、异戊巴比妥、司可巴比妥和苯巴比妥引起的睡眠和体温过低,并且它可拮抗水合氯醛、利血平、氯丙嗪和地西泮引起的体温过低并减少运动活动。脑池内注射TRH也可减少戊巴比妥睡眠时间和体温过低,但通过该途径注射的促黑素细胞激素释放抑制因子和生长抑素则无此作用。虽然TRH减少戊巴比妥睡眠时间不能归因于对单胺系统的影响或脱酰胺TRH,但脑池内注射阿托品可减弱这种作用,这表明胆碱能机制可能参与了TRH的作用。因此,这些结果提供了证据表明TRH作用于脑,而与对垂体的影响无关。