Mancuso C, Kostoglou-Athanassiou I, Forsling M L, Grossman A B, Preziosi P, Navarra P, Minotti G
Department of Pharmacology, Catholic University School of Medicine, Rome, Italy.
Brain Res Mol Brain Res. 1997 Oct 15;50(1-2):267-76. doi: 10.1016/s0169-328x(97)00197-6.
Heme oxygenase (HO)-catalyzed degradation of cellular heme moieties generates biliverdin and equimolar amounts of carbon monoxide (CO), which has been implicated as a possible modulator of neural function. Technical difficulties preclude direct measurements of CO within intact nervous tissues; hence, alternative procedures are needed to monitor the formation and possible biologic functions of this gas. In the present study rat hypothalamic explants were found to generate 114 +/- 5 or 127 +/- 11 pmol biliverdin/hypothalamus/1 h (n = 3) upon incubation with 1 or 10 microM hemin, respectively. Ten micromolar zinc-protoporphyrin IX (Zn-PP-IX), a known inhibitor of HO, significantly decreased the degradation of 10 microM hemin from 127 +/- 11 to 26 +/- 11 pmol biliverdin/hypothalamus/1 h (n = 3; P < 0.01). Biliverdin was the principal product of HO-dependent heme degradation, as its possible conversion into bilirubin was precluded by hemin-dependent inhibition of biliverdin reductase. Basal or hemin-supplemented hypothalamic incubations were also shown to generate sizable amounts of propentdyopents (PDPs), reflecting HO-independent degradation pathways which do not liberate CO and cannot be inhibited by Zn-PP-IX. Plotting the ratio of biliverdin to PDPs thus provided an index of the efficiency with which hemin was degraded through biochemical pathways involving CO. Under the experimental conditions of our study, the biliverdin/PDPs ratio varied from 0 to 32 or 15%, depending on the absence or presence of 1 or 10 microM hemin respectively: this suggested that the formation of CO was most efficient at 1 microM hemin. Under these defined conditions, 1 microM hemin was also found to inhibit the release of arginine vasopressin (AVP) evoked by depolarizing solutions of KCl. A series of experiments showed that the effect of hemin was counteracted by Zn-PP-IX, and also by tin-mesoporphyrin IX, which is even more selective in inhibiting HO; it was also attenuated in the presence of the gaseous scavenger ferrous hemoglobin. Furthermore, the inhibition of AVP release could be reproduced by omitting hemin and by incubating hypothalami under CO, whereas treatment with biliverdin had no effect. This suggested that the release of AVP was suppressed by HO degradation of hemin, yielding CO as a modulator of hypothalamic function. These observations may be relevant to diseases characterized by inappropriate secretion of AVP and enzymatic disturbances affecting the synthesis of heme and the formation of CO through the HO pathway (e.g., acute intermittent porphyria or lead intoxication).
血红素加氧酶(HO)催化细胞血红素部分的降解产生胆绿素和等摩尔量的一氧化碳(CO),CO被认为可能是神经功能的调节因子。技术难题使得无法直接测量完整神经组织内的CO;因此,需要其他方法来监测这种气体的生成及其可能的生物学功能。在本研究中,发现大鼠下丘脑外植体在分别与1或10μM血红素孵育时,每小时每下丘脑产生114±5或127±11 pmol胆绿素(n = 3)。10μM锌原卟啉IX(Zn-PP-IX)是一种已知的HO抑制剂,可将10μM血红素的降解量从127±11显著降低至26±11 pmol胆绿素/下丘脑/1小时(n = 3;P <0.01)。胆绿素是HO依赖性血红素降解的主要产物,因为血红素依赖性抑制胆绿素还原酶可防止其转化为胆红素。基础或补充血红素的下丘脑孵育也显示会产生大量的戊二烯戊二酸(PDPs),这反映了不释放CO且不能被Zn-PP-IX抑制的HO非依赖性降解途径。绘制胆绿素与PDPs的比率从而提供了一个指标,用于衡量血红素通过涉及CO的生化途径降解的效率。在我们的研究实验条件下,胆绿素/PDPs比率分别在不存在或存在1或10μM血红素时从0变化到32或15%:这表明在1μM血红素时CO的生成最有效。在这些确定的条件下,还发现1μM血红素会抑制由KCl去极化溶液诱发的精氨酸加压素(AVP)的释放。一系列实验表明,血红素的作用被Zn-PP-IX以及在抑制HO方面更具选择性的锡中卟啉IX抵消;在气态清除剂亚铁血红蛋白存在时其作用也减弱。此外,通过省略血红素并在CO下孵育下丘脑可以重现对AVP释放的抑制,而用胆绿素处理则没有效果。这表明AVP的释放被血红素的HO降解所抑制,产生CO作为下丘脑功能的调节因子。这些观察结果可能与以AVP分泌不当以及影响血红素合成和通过HO途径生成CO的酶紊乱为特征的疾病(例如急性间歇性卟啉病或铅中毒)相关。
