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1.
5-Aminolevulinic acid synthase (ALA synthase), the rate-controlling enzyme of hepatic heme biosynthesis, is feed-back repressed by heme. In the liver, chemicals such as barbiturates markedly induce ALA synthase, especially in the presence of partial defects of heme biosynthesis. The inducibility and regulation of ALA synthase have been investigated using a variety of models, including intact animals and liver cell culture systems. A widely used model that closely approximates what occurs in vivo and in humans is that of primary cultures of chick embryo liver cells (CELCs). However, CELCs have some limitations: the cells obtained are somewhat heterogeneous; isolation and culture must be repeated every week resulting in weekly variations; and cells are short-lived limiting the feasibility of time-course and transfection studies. The aim of this study was to determine if LMH cells, a chick hepatoma cell line, are a good model comparable to that of CELCs. In both cells similar patterns of response of, ALA synthase activities and mRNA levels, and of porphyrin accumulation were obtained following treatments known to affect heme biosynthesis. Similarly, heme repressed ALA synthase mRNA levels in both cell types and ALA synthase activities in LMH cells. We conclude that LMH cells are a useful model for the study of hepatic heme biosynthesis and regulation of ALA synthase.  相似文献   

2.
In the present study, we examined the possibility that the excess heme generation within mitochondria may provide a local concentration, sufficient to inhibit the activity of L-alanine:4,5-dioxovalerate transaminase, the enzyme proposed for an alternate route of delta-aminolevulinic acid biosynthesis in mammalian system. This was accomplished by assaying together L-alanine:4,5-dioxovalerate transaminase and heme synthetase activities in intact mitochondria isolated from rat liver. Endogenous heme in intact mitochondria has been generated in excess, by increasing the concentration of the substrate of heme synthetase. Our studies showed that the activity of L-alanine:4,5-dioxovalerate transaminase decreased as the rate of heme formation increased. In intact mitochondria, almost 50% inhibition of alanine:4,5-dioxovalerate transaminase was obtained with 4.0 mumole of heme generation. We conclude that end product inhibition of L-alanine:4,5-dioxovalerate transaminase by hemin, which was proposed in earlier report by us (FEBS Letter (1985), 189, 129), is an important physiological mechanism for the regulation of hepatic heme biosynthesis.  相似文献   

3.
4.
The basal and ethanol-induced activities of the rate-limiting enzyme of heme biosynthesis, δ-aminolevulinic acid (ALA) synthetase were measured in the liver, heart, kidney, and brain of young, adult, and aged Sprague-Dawley rats. When assayed in whole mitochondria derived from either fed or 24-h fasted animals, the basal levels of hepatic ALA synthetase activity decreased dramatically as a function of age. An equivalent decrease was seen in the ethanol-induced activity although the ratio of induced to basal activities did not change with age. In the heart, ALA synthetase activity also decreased significantly during aging. The activity was not induced by ethanol and was decreased markedly by fasting. By contrast, kidney ALA synthetase activity showed no age-related changes. The activity was unaffected by fasting and showed a variable induction response to ethanol. Brain ALA synthetase activity displayed a significant age-dependent decrease in its activity which was neither affected by fasting nor sensitive to induction by ethanol. The data presented are consistent with the hypothesis that ALA synthetase activity is subject to metabolic regulation. Further, they indicate that while the enzyme activity is regulated in a tissuespecific manner, a time-dependent decrease is a general feature of the aging animal.  相似文献   

5.
Aminolevulinic acid (ALA) synthase activity was measured in fat body mitochondria from adult male Blaberus discoidalis cockroaches. The enzyme reached its maximum activity at 4 to 6 days of adult age and then dropped to a minimal level which was maintained throughout the remainder of the study period. ALA synthase activity was doubled by allylisopropylacetamide and showed a half-life of about 6 h at 25 °C. Enzyme activity was depressed by long-term allatectomy. However, juvenile hormone administration in vivo did not significantly stimulate the enzyme relative to appropriate controls, and endocrine regulation of fat body ALA synthase remains inconclusive. Hemin inhibited ALA synthase activity, suggesting that fat body heme synthesis could be regulated by end-product inhibition.  相似文献   

6.
Regulation of delta-aminolevulinic acid (ALA) synthase and heme oxygenase was analyzed in primary rat hepatocytes and in two immortalized cell lines, CWSV16 and CWSV17 cells. ALA synthase was induced by 4,6-dioxohepatnoic acid (4,6-DHA), a specific inhibitor of ALA dehydratase, in all three systems; however, the induction in CWSV17 cells was greater than in either of the other two systems. Therefore, CWSV17 cells were used to explore the regulation of both enzymes by heme and 4,6-DHA. Data obtained from detailed concentration curves demonstrated that 4,6-DHA induced the activity of ALA synthase once ALA dehydratase activity became rate-limiting for heme biosynthesis. Heme induced heme oxygenase activity with increases occurring at concentrations of 10 microM or greater. Heme blocked the 4,6-DHA-dependent induction of ALA synthase with an EC50 of 1.25 microM. Heme-dependent decreases of ALA synthase mRNA levels occurred more quickly and at lower concentrations than heme-dependent increases of heme oxygenase mRNA levels. ALA synthase mRNA remained at reduced levels for extended periods of time, while the increases in heme oxygenase mRNA were much more transient. The drastic differences in concentrations and times at which heme-dependent effects were observed strongly suggest that two-different heme-dependent mechanisms control the ALA synthase and heme oxygenase mRNAs. In CWSV17 cells, heme decreased the stability of ALA synthase mRNA from 2.5 to 1.3 h, while 4,6-DHA increased the stability of the mRNA to 5.2 h. These studies demonstrate that regulation of ALA synthase mRNA levels by heme in a mammalian system is mediated by a change in ALA synthase mRNA stability. The results reported here demonstrate the function of the regulatory heme pool on both ALA synthase and heme oxygenase in a mammalian hepatocyte system.  相似文献   

7.
The hepatic porphyrias are inborn errors of porphyrin and haem biosynthesis characterized biochemically by excessive excretion of delta-aminolaevulinate (ALA), porphobilinogen and other intermediates in haem synthesis. Clinical evidence has implicated iron in the pathogenesis of several types of genetically transmitted diseases. We investigated the role of iron in haem metabolism as well as its relationship to drug-mediated induction of ALA synthase and haem oxygenase in acute and chronic iron overload. Acute iron overload in rats resulted in a marked increase in hepatic haem oxygenase that was associated with a decrease in cytochrome P-450 and an increase in ALA synthase activity. Aminopyrine N-demethylase and aniline hydroxylase activities, which are dependent on the concentration of cytochrome P-450, were also decreased. In contrast, in chronic-iron-overloaded rats, there was an adaptive increase in haem oxygenase activity and an increase in ALA synthase that was associated with normal concentrations of microsomal haem and cytochrome P-450. The induction of ALA synthase in chronic iron overload was enhanced by phenobarbital and allylisopropylacetamide, in spite of the fact that these agents did not increase haem oxygenase activity. Small doses of Co2+ were potent inducers of the haem oxygenase in chronic-iron-overloaded, but not in control, animals. We conclude that increased hepatic cellular iron may predispose certain enzymes of haem synthesis to induction by exogenous agents and thereby affect drug-metabolizing enzyme activities.  相似文献   

8.
The basal- and allylisopropylacetamide-induced activities of the first enzyme of heme biosynthesis, δ-aminolevulinic acid synthase (ALAS) were measured in hepatic mitochondria and cytosol of young, adult, and aged Fisher 344 rats. The total cellular ALAS activity induced by allylisopropylacetamide decreased 67% with age. The specific activity of mitochondrial ALAS in normal and induced animals decreased with aging when assayed in whole or broken mitochondria. The levels of ALAS which accumulated in the cytosol after allylisopropylacetamide administration were proportionally greater in both the young and senescent than in the mature animals. During aging, no evidence for a fragile population of mitochondria in either normal or induced animals was observed suggesting that mitochondrial matrix proteins are not released during homogenization. The hepatic mitochondrial content decreased during aging when calculated using both a membrane-bound marker enzyme cytochrome oxidase and a matrix marker enzyme citrate synthase and was unaffected by allylisopropylacetamide treatment. This reduced mitochondrial content further diminishes the level of functional ALAS available in the liver during senescence. This study confirms the age-dependent decrease in mitochondria ALAS in normal and induced animals and also suggests an age-related change in the process by which cytosolic ALAS is translocated into the mitochondria.  相似文献   

9.
The rate limiting enzyme of heme biosynthesis, δ-aminolevulinic acid synthetase (ALA synthetase), and the second enzyme in the heme biosynthetic pathway, δ-aminolevulinic acid dehydrase (ALA dehydrase), were inhibited by the olefinic amino acid L-2-amino-4-methoxy - trans-3-butenoic acid (AMTB). Administration of AMTB (20 mg/kg; i.p.) to rats inhibited ALA synthetase and ALA dehydrase in control animals and in animals with markedly elevated activity of ALA synthetase which resulted from the administration of 3,5-dicarbethoxy-1,4-dimethyl-collidine (DDC, 200 mg/kg, i.p.) or allylisopropylacetamide (200 mg/kg, s.c.). AMTB also blocked the synthesis of rat hepatic porphyrins and inhibited the increase in the urinary excretion of δ-aminolevulinic acid and porphobilinogen following DDC (150 mg/kg, p.o.) administration. Preincubation of AMTB with liver mitochondria or a soluble fraction of liver decreased the activity of mitochondrial ALA synthetase and soluble ALA dehydrase, respectively.  相似文献   

10.
Hemin treatment of mouse Friend virus-transformed cells in cultured caused a dose-dependent increase in hemoglobin synthesis. By the addition of radioactively labeled hemin and by the analysis of the radioactive heme in hemoglobin, only 60 to 70% of heme in the newly synthesized hemoglobin was accounted for by the exogenously added hemin. In keeping with this finding, hemin treatment increased the activity of two enzymes in the heme biosynthetic activity, i.e. delta-aminolevulinate (ALA) dehydratase and uroporphyrinogen-I (URO) synthase in these cells. Incorporation of [2(-14C)]glycine, [14C]ALA, and 59Fe into heme was also significantly increased in the cells treated with hemin, suggesting that essentially all enzyme activities in the heme biosynethetic pathway were increased after hemin treatment. These results indicate that heme in the newly synthesized hemoglobin in hemin-treated Friend cells derives both from hemin added to the culture and from heme synthesized intracellularly. In addition, these results suggest that the stimulation of heme biosynthesis by hemin in Friend virus-transformed cells is in contrast to the hemin repression of heme biosynthesis in liver cells.  相似文献   

11.
Heme is an essential prosthetic group or substrate for many proteins, including hemoglobin, and hemo enzymes such as nitric oxide synthase, soluble guanylyl cyclase, and heme oxygenase (HO). HO is responsible for the breakdown of heme into equimolar amounts of biliverdin, iron, and carbon monoxide, the latter of which is thought to play a role in the regulation of vascular tone. It is not clear whether the source of heme for cardiovascular functions is derived from uptake from the extracellular milieu or synthesis. In this study, we tested the hypothesis that blood vessels obtain their supply of heme for HO through de novo synthesis. Adult male Sprague-Dawley rat aorta was incubated at 37 degrees C in Krebs' solution with 1 micro M [14C]delta-aminolevulinic acid (ALA). [14C]ALA uptake was linear for about 30 min and reached a plateau at approximately 100 min. The radioactivity was incorporated into porphyrins and heme as determined by esterification of 14C-labelled metabolites and thin-layer chromatography. The first and rate-limiting step of heme biosynthesis is catalyzed by ALA synthase (ALA-S), the activity of which was determined in rat aorta using a radiometric assay, approximately 250 nmol x (g wet mass)(-1) x h(-1). Inducing HO-1 in rat aorta with S-nitroso-N-acetylpenicillamine (500 micro M) did not increase ALA-S activity as compared with basal activity levels of the enzyme. It appears that there is a sufficient amount of heme available under basal ALA-S activity conditions to meet the increased demand for heme resulting from HO-1 induction. These observations indicate that the complete enzymatic pathway for de novo heme biosynthesis resides in rat aorta and furthermore indicate that de novo heme synthesis is capable of supplying a substantial portion of the heme substrate for HO in the aorta.  相似文献   

12.
13.
Altered hepatic microsomal drug metabolism has been reported to occur in afflicted with hyperbilirubinemia. Similarities of the chemical structures of hydroxymethylbilane, an intermediate in the biosynthesis of uroporphyrinogen, to bilirubin prompted investigations of the effect of bilirubin on the activity of uroporphyrinogen I synthase (porphobilinogen deaminase, EC 4.3.1.8) and the biosynthesis of heme. Bilirubin was found to be a reversible, noncompetitive inhibitor of uroporphyrinogen I synthase. The inhibition constant (Ki) for bilirubin was 1.5 microM. Bile acids had no effect on rat hepatic uroporphyrinogen I synthase activity. Hyperbilirubinemia was achieved in rats by biliary ligation in order to investigate whether elevated levels of bilirubin impair the biosynthesis of hepatic heme in vivo. The relative rate of heme biosynthesis, as measured by the rate of incorporation of delta-[4-14C]aminolevulinic acid into heme, was decreased 59% 24 h after biliary obstruction. The levels of hepatic microsomal heme and cytochrome P-450 were decreased by 43 and 40%, respectively, 72 h after biliary obstruction. The activities of hepatic delta-aminolevulinic acid synthase and uroporphyrinogen I synthase were increased by 39 and 46%, respectively, 72 h after biliary obstruction. During the 48- to 72-h period following biliary obstruction, the urinary excretion of porphobilinogen and uroporphyrin was increased 3.0- and 3.5-fold, respectively, whereas, the urinary excretion of delta-aminolevulinic acid was not altered. During this 48-to 72-h time interval following biliary obstruction, 100% of the uroporphyrin was excreted as isomer I. These results indicate that bilirubin is capable of depressing the biosynthesis of rat hepatic heme and thus cytochrome P-450-mediated drug metabolism by inhibition of the formation of uroporphyrinogen. These findings are a plausible mechanism for reports of impaired clearance of various drugs in patients afflicted with hyperbilirubinemic disease states.  相似文献   

14.
Handschin C  Lin J  Rhee J  Peyer AK  Chin S  Wu PH  Meyer UA  Spiegelman BM 《Cell》2005,122(4):505-515
Inducible hepatic porphyrias are inherited genetic disorders of enzymes of heme biosynthesis. The main clinical manifestations are acute attacks of neuropsychiatric symptoms frequently precipitated by drugs, hormones, or fasting, associated with increased urinary excretion of delta-aminolevulinic acid (ALA). Acute attacks are treated by heme infusion and glucose administration, but the mechanisms underlying the precipitating effects of fasting and the beneficial effects of glucose are unknown. We show that the rate-limiting enzyme in hepatic heme biosynthesis, 5-aminolevulinate synthase (ALAS-1), is regulated by the peroxisome proliferator-activated receptor gamma coactivator 1alpha (PGC-1alpha). Elevation of PGC-1alpha in mice via adenoviral vectors increases the levels of heme precursors in vivo as observed in acute attacks. The induction of ALAS-1 by fasting is lost in liver-specific PGC-1alpha knockout animals, as is the ability of porphyrogenic drugs to dysregulate heme biosynthesis. These data show that PGC-1alpha links nutritional status to heme biosynthesis and acute hepatic porphyria.  相似文献   

15.
A study on hepatic heme metabolism with special emphasis to ALA synthetase, ALA dehydratase and heme oxygenase was carried out in cadmium exposed freshwater fish Channa punctatus to enlighten the mechanism of cadmium induced toxicity. Cadmium exposure (0.5-5.0 mg/1) for 7 days increased the hepatic level of ALA, along with the depletion in heme content, which are characteristic to chemical porphyria. The resultant enhancement in the activities of ALA synthetase and heme oxygenase were further shown to be dose dependent. ALA dehydratase activity on the other hand was enhanced only at higher exposure. Time course studies on the enzyme activities and heme content showed that ALA synthetase started to increase after 24 hrs., reached maximum at 7 days and came back nearly to normal level after 30 days of exposure. Simultaneously maximum depletion in heme level occurred on 7 days of exposure, tending to return to normal on 30 day. In addition, attempt has been made to correlate alterations in heme metabolism due to cadmium with the histopathological manifestations in liver.  相似文献   

16.
17.
1. The role of heme in the coordinate elevations of liver delta-aminolevulinate (ALA) synthase activity and microsomal cytochrome P-450 concentration induced by phenobarbital (PB) was investigated in the chicken embryo. 2. Eighteen day old chicken embryos were given PB, and the changes in liver content of PB-inducible cytochrome P-450 RNA and of ALA synthase RNA were determined at different times after exposure to the drug. 3. The concentrations of both types of RNA increased rapidly after PB administration, and by 9 hr the level of ALA synthase RNA was 55-fold higher than control and that of cytochrome P-450 RNA was 7-fold higher than normal. 4. While the rate of increase in ALA synthase activity paralleled closely that of the enzyme's RNA concentration, the rate of increase of spectrally active cytochrome P-450 concentration in microsomes lagged behind that of the apoprotein's RNA by several hours. 5. To test whether heme depletion was responsible for the coordinate inductions of the two enzymes, embryos were loaded with ALA 2 hr before exposure to PB. 6. The protocol led to a drop in the PB-inducible ALA synthase RNA concentration and to an increase in that of cytochrome P-450 RNA, measured 6 hr after drug administration. 7. In primary cultures of hepatocytes, hemin in the culture medium caused a modest drop in ALA synthase RNA concentration but had a variable effect on that of cytochrome P-450 RNA in cells incubated with PB for 9 hr.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

18.
Vitreoscilla hemoglobin (VHb) is accumulated at high levels in both soluble and insoluble forms when expressed from its native promoter on a pUC19-derived plasmid in Escherichia coli. Examination by atomic absorption spectroscopy and electron paramagnetic resonance spectroscopy revealed that the insoluble form uniformly lacks the heme prosthetic group (apoVHb). The purified soluble form contains heme (holoVHb) and is spectroscopically indistinguishable from holoVHb produced by Vitreoscilla cells. This observation suggested that a relationship may exist between the insolubility of apoVHb and biosynthesis of heme. To examine this possibility, a series of experiments were conducted to chemically and genetically manipulate the formation and conversion of 5-aminolevulinic acid (ALA), a key intermediate in heme biosynthesis. Chemical perturbations involved supplementing the growth medium with the intermediate ALA and the competitive inhibitor levulinic acid which freely cross the cell barrier. Genetic manipulations involved amplifying the gene dosage for the enzymes ALA synthase and ALA dehydratase. Results from both levulinic acid and ALA supplementations indicate that the level of soluble holoVHb correlates with the heme level but that the level of insoluble apoVHb does not. The ratio of soluble to insoluble VHb also does not correlate with the level of total VHb accumulated. The effect of amplifying ALA synthase and ALA dehydratase gene dosage is complex and may involve secondary factors. Results indicate that the rate-limiting step of heme biosynthesis in cells overproducing VHb does not lie at ALA synthesis, as it reportedly does in wild-type E. coli (S. Hino and A. Ishida, Enzyme 16:42-49, 1973).  相似文献   

19.
F Iwasa  S Sassa    A Kappas 《The Biochemical journal》1989,262(3):807-813
delta-Aminolaevulinate (ALA) synthase, the rate-limiting enzyme in haem biosynthesis in the normal liver, was examined in human HepG2 hepatoma cells. Haemin, up to 100 microM, had no effect on ALA synthase activity in vitro; it did, however, exhibit a dose-dependent inhibitory action when added to cells growing in culture (half-maximal inhibition at 1 microM). The half-life of ALA synthase activity after haemin treatment was 2 h, which was similar to that found after treatment with cycloheximide. Cells treated with actinomycin D showed a longer half-life of the enzyme activity, i.e. 4 h, compared with haemin or cycloheximide treatment. Treatment of cells with succinylacetone markedly inhibited the activity of ALA dehydratase and 59Fe incorporation into haem, but in increased ALA synthase activity. Both the haemin-induced repression and the succinylacetone-mediated de-repression of ALA synthase activity were reversible within 4 h after replacing the medium with fresh medium without the chemical. In addition to succinylacetone, dimethyl sulphoxide and 3-methylcholanthrene induced the enzyme. Induction of ALA synthase by these chemicals was also suppressed by treatment of cells with haemin. These findings indicate that the level of ALA synthase in HepG2 cells is maintained by both synthesis and degradation of the enzyme, and that the synthesis of the enzyme is regulated by the concentration of regulatory free haem in the cell.  相似文献   

20.
Fatigue can be defined physiologically as inability to maintain the expected power output. At present, no standard of fatigue are yet available. In order to find biomarkers of fatigue, we investigated the level of delta-aminolevulinic acid (ALA), the first intermediate metabolite in the heme biosynthetic pathway, in the plasma and urine of an animal model of fatigue. To prepare fatigued animals, we kept rats for 5 days in a cage filled with water to a height of 1.5 cm. As a result, the plasma and urinary ALA levels were increased in the fatigued animals as compared with those in the control animals. One day after the rats had been returned to their normal cages, these increased levels were restored to the control ones. We also examined the activity of the enzyme ALA dehydratase (ALAD), which is the second enzyme in the heme biosynthetic pathway, and ALAD gene expression during the fatigue and its recovery sessions. The ALAD activity, as well as its gene expression, in the liver of the fatigued animals was decreased as compared with those of the control animals. Both activity and gene expression of ALAD were recovered to their respective control levels after the rats had been allowed to rest in their normal cages for 1 day. Furthermore, the activity of ALA synthase (ALAS), the rate-limiting enzyme in the heme biosynthesis, in the liver was increased after the fatigue session for 5 days. Although this level of increase in the plasma concentration of ALA may not induce fatigue, increase in plasma and urinary ALA levels can be biomarkers of fatigue.  相似文献   

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