吗啡耐受性以及κ-阿片类物质作用于大鼠神经垂体对催产素分泌的抑制作用。
Morphine tolerance and inhibition of oxytocin secretion by kappa-opioids acting on the rat neurohypophysis.
作者信息
Russell J A, Coombes J E, Leng G, Bicknell R J
机构信息
Department of Physiology, University Medical School, Edinburgh.
出版信息
J Physiol. 1993 Sep;469:365-86. doi: 10.1113/jphysiol.1993.sp019818.
Abstract
- The present study investigated the mechanisms by which endogenous opioids regulate oxytocin secretion at the level of the posterior pituitary gland. Effects of the selective kappa-agonist U50,488 on oxytocin secretion were studied in urethane-anaesthetized lactating rats. Oxytocin secretion in response to electrical stimulation (0.5 mA, matched biphasic 1 ms pulses, 50 Hz, 60-180 pulses) of the neurohypophysial stalk was bioassayed on-line by measuring increases in intramammary pressure, calibrated with exogenous oxytocin. Intravenous (I.V.) U50,488 inhibited electrically stimulated oxytocin secretion, without affecting mammary gland sensitivity to oxytocin. The inhibition was dose related, with an ID50 of 441 (+194, -136) micrograms/kg and was naloxone reversible. Antagonism of endogenous beta-adrenoceptor activation by propranolol (1 mg/kg) reduced the potency of U50,488. The selective mu-agonist morphine (up to 5 mg/kg), had no effect on electrically stimulated oxytocin secretion, but depressed the mammary response to oxytocin. 2. In lactating rats given intracerebroventricular (I.C.V.) morphine infusion for 5 days to induce tolerance and dependence, I.V. U50,488 still inhibited electrically stimulated oxytocin secretion, but the ID50 was reduced to 170 (+78, -54) micrograms/kg; thus at the posterior pituitary the sensitivity of kappa-receptors is enhanced rather than reduced in morphine-tolerant rats, indicating the absence of cross-tolerance. In these rats, naloxone produced a large, sustained, fluctuating increase in intramammary pressure indicating morphine-withdrawal excitation of oxytocin secretion; I.V. U50,488 diminished this response, confirmed by radioimmunoassay, demonstrating the independence of mu- and kappa-receptors regulating oxytocin secretion. 3. In pregnant rats, I.C.V. infusion of morphine from day 17-18 of pregnancy delayed the start of parturition by 4 h, but did not significantly affect the progress of parturition once established, indicating tolerance to the inhibitory actions of morphine on oxytocin secretion in parturition, and lack of cross-tolerance to endogenous opioids restraining oxytocin in parturition. 4. Neurointermediate lobes from control and I.C.V. morphine-infused virgin rats were impaled on electrodes and perifused in vitro. Vasopressin and oxytocin release from the glands was measured by radioimmunoassay. Each gland was exposed to two periods of electrical stimulation (13 Hz, for 3 min). Naloxone (5 x 10(-6) M) was added before the second stimulation; half the lobes from each I.C.V. treatment were exposed to 5 x 10(-5) M morphine throughout.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
- 本研究探讨了内源性阿片肽在后叶垂体水平调节催产素分泌的机制。在氨基甲酸乙酯麻醉的泌乳大鼠中研究了选择性κ-激动剂U50,488对催产素分泌的影响。通过测量乳腺内压力的增加来在线生物测定神经垂体柄电刺激(0.5 mA,匹配的双相1 ms脉冲,50 Hz,60 - 180脉冲)引起的催产素分泌,并用外源性催产素进行校准。静脉注射(I.V.)U50,488抑制电刺激的催产素分泌,而不影响乳腺对催产素的敏感性。这种抑制呈剂量依赖性,半数抑制剂量(ID50)为441(+194, - 136)μg/kg,且可被纳洛酮逆转。普萘洛尔(1 mg/kg)对内源性β-肾上腺素能受体激活的拮抗作用降低了U50,488的效力。选择性μ-激动剂吗啡(高达5 mg/kg)对电刺激的催产素分泌无影响,但抑制了乳腺对催产素的反应。2. 对泌乳大鼠进行脑室内(I.C.V.)吗啡输注5天以诱导耐受和依赖,静脉注射U50,488仍能抑制电刺激的催产素分泌,但ID50降至170(+78, - 54)μg/kg;因此,在垂体后叶,吗啡耐受大鼠的κ-受体敏感性增强而非降低,表明不存在交叉耐受。在这些大鼠中,纳洛酮使乳腺内压力产生大幅度、持续的波动升高,表明吗啡戒断时催产素分泌受到激发;静脉注射U50,488减弱了这种反应,放射免疫测定证实了这一点,表明调节催产素分泌的μ-受体和κ-受体相互独立。3. 在妊娠大鼠中,从妊娠第17 - 18天开始脑室内输注吗啡使分娩开始延迟4小时,但一旦分娩开始,对分娩进程无显著影响,表明对吗啡在分娩时抑制催产素分泌的作用产生耐受,且对分娩时抑制催产素的内源性阿片肽不存在交叉耐受。4. 将对照和脑室内注射吗啡的未孕大鼠的神经中间叶置于电极上并进行体外灌流。通过放射免疫测定法测量腺体中血管加压素和催产素释放。每个腺体接受两个电刺激周期(13 Hz,持续3分钟)。在第二次刺激前加入纳洛酮(5×10⁻⁶ M);每个脑室内注射处理的半数叶在整个过程中暴露于5×10⁻⁵ M吗啡。(摘要截断于400字)
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