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1.
1. Mitochondrial MAO specific activity was measured in eggs and early embryos of the teleostean fish Esox lucius using tryptamine, 5-hydroxytryptamine (5-HT) and phenylethylamine (PEA) as substrates. 2. Tryptamine is the most readily deaminated substrate in mitochondria isolated from unfertilized eggs and embryos at the stages of cleavage, blastula and gastrula. 3. Monoamine oxidase activity gradually decreases during development and at the gastrula stage it is respectively 80% (tryptamine), 70% (5-HT) and 50% (PEA) of that found in the egg using the corresponding substrate. 4. The inhibition of egg MAO activity by clorgyline and deprenyl measured in E. lucius eggs using tryptamine as substrate, indicates the presence of a single form of MAO not corresponding to the MAO A and MAO B described in terrestrial vertebrates.  相似文献   

2.
1. Monoamine oxidase activity has been assayed in mitochondria isolated from post-neural embryos (stages 14-25) of Bufo bufo, using 5-HT and PEA as substrates. 2. Mitochondria isolated from stages 19 to 25 show an increasing ability in deaminating monoamines, PEA being metabolized at a higher level with respect to 5-HT. 3. At all the examined stages 5-HT is metabolized by an enzyme corresponding to MAO A, while PEA, from stage 19, is largely deaminated by a semicarbazide-sensitive amine oxidase (SSAO). 4. The effect of Triton X-100 on MAO A activity appears remarkably different in mitochondria isolated from embryos at stages 14 and 25 respectively.  相似文献   

3.
1. Monoamine oxidase activity has been studied in hepatopancreas of Octopus vulgaris using 5-HT and PEA as substrates.2. Time courses of MAO activity against 5-HT and PEA show that the enzyme has higher affinity for PEA than for 5-HT.3. MAO activity against 5-HT appears more sensitive than MAO activity against PEA, to variations of the temperature (range 17–67°C).4. The inhibition curves obtained with clorgyline and deprenyl indicate that MAO activity is due to a single form of the enzyme, not corresponding to type A and type B MAO.5. Semicarbazide 10−4 M does not affect the deamination of 5-HT and PEA, demonstrating that a semicarbazide-sensitive amine oxidase is not involved in this process.  相似文献   

4.
Substrate Selectivity of Type A and Type B Monoamine Oxidase in Rat Brain   总被引:5,自引:5,他引:0  
Abstract: Use of the irreversible inhibitors clorgyline and deprenyl showed that rat brain mitochondria contain type A and type B monoamine oxidase (MAO). Tyramine is a substrate for both types of MAO, whereas serotonin is a preferential substrate for type A MAO. In contrast to MAO in other tissues, type A MAO in brain tissue oxidizes β-phenylethylamine (PEA) at high concentrations (0.5 and 1.0 mM). The proportions of type A and type B MAO activities in the mitochondria estimated from the double-sigmoidal inhibition curves of tyramine oxidation were about 70:30 irrespective of the concentration of tyramine. With PEA as substrate, the ratios of type A to type B activities were found to increase from low values at low concentrations to about 1 at 0.5-1.0 mM-PEA, and even higher at further increased concentrations of PEA. At very low (0.01 mM) and high (10.0 mM) concentrations of PEA, single-sigmoidal curves were obtained; with the high PEA concentration the activity was highly sensitive to clorgyline, whereas with the low concentration it was highly sensitive to deprenyl. In deprenyl-pretreated mitochondrial preparations, all the remaining activity towards 0.5-1.0 mM-PEA was shown to be highly sensitive to clorgyline, demonstrating that this activity was indeed due to oxidation by type A MAO. The opposite result was obtained with deprenyl as inhibitor of clorgyline-pretreated preparations, demonstrating that PEA at this concentration was also oxidized by type B MAO in rat brain mitochondria. The K3 values of type A and type B MAO for PEA were significantly different. On Lineweaver-Burk analysis, plots with PEA as substrate for type A MAO in a deprenyl-treated preparation were linear over a wide concentration range, whereas those for type B MAO in a clorgyline-treated preparation were not linear, but showed substrate inhibition at higher concentrations of the substrate. It is concluded from the present findings that the effect of the substrate concentration must be considered in studies on the characteristics of multiple forms of MAO in various organs and species.  相似文献   

5.
Abstract: Studies were designed to evaluate specificity of the transmitter amines serotonin (5-hydroxytryptamine, 5-HT) and dopamine (DA), as well as the trace amines p -tyramine ( p -TA) and β -phenylethylamine (PEA) for types A and B monoamine oxidase (MAO) in rat striatum. 5-HT was found to be a specific substrate for the type A enzyme. However, the specificity of PEA for the type B enzyme was found to be concentration-dependent. When low concentrations of PEA and 5-HT were used to measure type B and type A activities, respectively, both clorgyline and deprenyl were highly selective for the sensitive form of MAO in vivo. However, as the concentration of PEA was increased, the type B inhibitor deprenyl became less effective in preventing deamination of PEA. Conversely, the type A inhibitor clorgyline became more effective in this regard. Kinetic analysis following selective in vivo inhibition showed PEA deamination by both forms of MAO with a 13-fold greater affinity for the type B enzyme. In vivo dose-response curves obtained with the common substrates DA and p -TA showed approximately 20% deamination by the B enzyme. Kinetic values for DA and p -TA deamination in in vivo -treated tissue possessing only type A or type B MAO activity, revealed a 2.5-fold greater affinity for the type A enzyme. These studies show the importance of concentration on substrate specificity in striatal tissue. The results obtained characterize the common substrate properties of DA and p -TA as well as of PEA in rat striatum. In addition, the presence of regional specificity for 5-HT deamination by only type A MAO is demonstrated.  相似文献   

6.
Hauptmann N  Shih JC 《Life sciences》2001,68(11):1231-1241
Cigarette smokers exhibit a lower monoamine oxidase (MAO; EC 1.4.3.4) activity than nonsmokers. MAO is located in the outer membrane of mitochondria and exists as two isoenzymes, MAO A and B. MAO A prefers 5-hydroxytryptamine (serotonin), and MAO B prefers phenylethylamine (PEA) as substrate. Dopamine is a substrate for both forms. 2-Naphthylamine is a carcinogen found in high concentrations in cigarette smoke. The results of this study show that 2-naphthylamine has the ability to inhibit mouse brain MAO A and B in vitro by mixed type inhibition (competitive and non-competitive). The Ki for MAO A was determined to be 52.0 microM and for MAO B 40.2 microM. The inhibitory effect of 2-naphthylamine on both MAO A and B catalytic activity, supports the hypothesis that smoking decreases MAO activity in vivo, instead that smokers with lower MAO activity are more prone to become a smoker.  相似文献   

7.
β-Phenylethylamine (PEA) was characterized as substrate for both type A and type B monoamine oxidase (MAO) in rat brain mitochondria at different substrate concentrations and at different pHs of the reaction media. The experiments on sensitivity to clorygline and deprenyl showed that the inhibition patterns with PEA as substrate differed markedly at different substrate concentrations: at 10 μM, PEA acted as a specific substrate for type B MAO, but at 50–1000 μM it became a common substrate for both types of MAO. The inhibition patterns were also affected markedly by a small change in pH of the reaction medium, especially when PEA concentrations were 50 and 100 μM: the change in pH from 7.2 to 7.8 resulted in the incresse in the proportion of type A MAO by 20–30 per cent. To investigate the mechanisms of such changes in substrate specificity of PEA, kinetic analyses were carried out at pH 7.2 and 7.8 with the uninhibited, the clorgyline-treated (type B) and the deprenyl-treated (type A) enzyme. The Lineweaver-Burk plots for the uninhibited MAO showed strong substrate inhibition for both pHs, which is more marked at pH 7.8 than at pH 7.2. Pretreatment of the enzyme with 10?7 M clorgyline resulted in generally similar Km values for PEA to those of the uninhibited enzyme, and the substrate inhibition at pH 7.8 was also stronger than that at pH 7.2. After pretreatment with 10?7 M deprenyl, the Km values were higher and the Vmax values were lower than those of the uninhibited or the clorgyline-treated enzyme; there was no or only slight substrate inhibition in these curves. These results suggest that the remarkable changes in substrate specificity observed at different PEA concentrations and at different pHs may be due to the strong substrate inhibition of type B MAO.  相似文献   

8.
Abstract: β-Phenylethylamine (PEA) was characterized as a substrate for type A and type B monoamine oxidase (MAO) in brain and liver mitochondria of eight species at different substrate concentrations. In all species, at 10.0 μM, PEA was almost specific for type B MAO. At 1000 μM, however, the amine was common for both types of MAO in rat brain and liver, human brain and liver, mouse brain, guinea pig brain and liver, and bovine brain, while it was specific for type B MAO in mouse liver, rabbit brain and liver, bovine liver, pig brain and liver, and chicken brain and liver. From the present study, when PEA is used as a type B substrate, it is recommended that the substrate concentration should be sufficiently low to avoid the effects of species and tissue differences.  相似文献   

9.
1. The deamination of 5-HT and PEA has been assayed by a radiochemical method in mitochondria isolated from toad liver. 2. Time courses of 5-HT and PEA deamination indicate that when PEA is used as the substrate, higher specific activities are obtained. 3. 5-HT is deaminated by MAO A and partially by a SSAO-like enzyme. 4. PEA is deaminated exclusively by SSAO and, MAO B activity, at least under the adopted experimental conditions, is not detectable.  相似文献   

10.
The inhibition of type A and B monoamine oxidase (MAO A and B) in rat brain, liver and heart by MD780515, 3-[4-(3 cyanophenylmethoxy) phenyl]-5-(methoxymethyl)-2-oxazolidinone, has been investigated ex vivo with 5-hydroxytryptamine (5-HT) and β-phenylethylamine (PEA) as substrates. MAO A was strongly inhibited for four hours after oral administration of 10 mg/kg MD780515 (maximum inhibition : 72%, 86% and 83% in brain, liver and heart respectively. In contrast, in heart where PEA is deaminated by type A MAO, the predominant form of MAO in that tissue, the inhibition was 68% 30 minutes after administration of the compound. In all cases, MAO activities reached control values 24 hours after drug administration (10 mg/kg), whereas some inhibitory activity was still present 24 hours after oral administration of higher doses. The strong MAO A inhibition (68 to 83%) remaining in the three tissues 24 hours after oral administration of clorgyline (5 mg/kg) was completely removed by pretreatment with MD780515 (10 mg/kg). In the same conditions, MD780515 protected against the inhibition (53%) by clorgyline of PEA deamination in heart. Oral pretreatment with increasing doses of MD780515 (2.6 to 84 mg/kg) gradually removed brain MAO A inhibition caused by clorgyline (92%, 28.2 mg/kg) or tranylcypromine (88%, 4.8 mg/kg), the complete removal being observed at the dose of 21 mg/kg of MD780515 for clorgyline, and at 42 mg/kg for tranylcypromine. Inhibition of brain MAO B by tranylcypromine (96%) was not modified by pretreatment with the same range of oral doses of MD780515. The results are consistent with a specific and reversible inhibition of MAO A activity by MD780515 which can protect against long acting MAO A inhibitory effects of clorgyline and tranylcypromine. MD780515 enhances the selectivity of tranylcypromine.  相似文献   

11.
Complete solubilization of both the A and B forms of human brain monoamine oxidase (MAO) occurred when crude mitochondria were incubated in the presence of 50 mM octylglucoside (OG). Upon removal of this nonionic detergent by dialysis, approximately 100% of the starting activity was present in the dialysate. The effects of solubilization were examined by comparison of several properties of the membrane-bound and OG-treated oxidases. The percentage inhibition of phenylethylamine (PEA) and the 5-hydroxytryptamine (5-HT) deamination by deprenyl and clorgyline were identical. The Km values obtained for the deamination of PEA, a B-selective substrate, 5-HT, an A-selective substrate, and tyramine (TYR), a nonselective substrate, were also comparable. OG was found to inhibit type A (I50 = 8.1 mM) and B (I50 = 4.7 mM) MAO activities at concentrations at least 10-fold below those used to solubilize the oxidases. Kinetic studies revealed that OG was an apparent competitive inhibitor of PEA deamination whereas OG produced a mixed-type pattern of inhibition when 5-HT was the variable substrate. Inhibition of TYR deamination by either the A or B form of MAO produced a mixed pattern of inhibition. The findings herein suggest that solubilization of the A and B forms of MAO by OG does not significantly alter the substrate and inhibitor specificity of the oxidases following removal of detergent. However, in the presence of concentrations of OG 50 times less than the critical micellar concentration of this detergent, marked inhibition of deamination by both forms of human brain MAO is observed. Accordingly, the usefulness of OG is limited to situations where the detergent is completely removed before quantitation of MAO activity.  相似文献   

12.
A simple and selective assay for the evaluation of in vivo inhibition of rat brain monoamine oxidases (MAO) A and B following a single dose of MAO inhibitors was developed through the simultaneous determination of endogenous 5-hydroxy tryptamine, 5-hydroxyindole-3-acetic acid (5-HIAA), tryptophane, and 2-phenethylamine (PEA) in rat brain using liquid chromatography-tandem mass spectrometry (LC/MS/MS). These analytes were separated on a Zorbax SB-C18 column using a gradient elution with acetonitrile and 0.2% formic acid and detected on an electrospray ionization mass spectrometer in positive-ion multiple-reaction-monitoring mode. The susceptibility and variability of these analytes as potential biomarkers in response to MAO inhibition in vivo were evaluated after application to three MAO inhibitors, tranylcypromine, clorgyline, and pargyline. A dramatic increase (about 40-fold) in PEA brain level and a decrease in 5-HIAA by more than 90% were observed after administration of 15 mg/kg of the nonselective MAO inhibitor tranylcypromine. As expected, the brain level of PEA escalated to about 6-fold, while the 5-HIAA level remained unchanged following a dose of the MAO B inhibitor pargyline at 2mg/kg. In contrast, the brain level of 5-HIAA reduced by approximately 53%, but the PEA level was unaffected following the same dose of the MAO A inhibitor clorgyline. The results indicated that 5-HIAA and PEA were susceptible and effective biomarkers in the rat brain in response to MAO A and B inhibition, respectively. The LC/MS/MS method is useful not only for the determination of inhibitory potency but also for the differentiation of the selectivity of a MAO inhibitor against rat brain MAO A and B in vivo.  相似文献   

13.
1. Monoamine oxidase (MAO) activity towards tryptamine, 5-hydroxytryptamine (5-HT) and phenylethylamine (PEA) has been measured in mitochondria isolated from carp and trout eggs. 2. In carp eggs all the tested substrates are metabolized and the highest affinity is found with tryptamine. In trout eggs a consistent level of MAO activity is obtained using tryptamine. 3. The inhibition dose-response curves of clorgyline and deprenyl indicate that both in carp and trout eggs there is only one form of mitochondrial MAO, distinct from MAO A and B which have been described in vertebrate tissues. 4. Both in carp and trout egg mitochondria a semicarbazide-sensitive amine oxidase is not involved in the deamination of the used substrates. 5. MAO found in carp and trout eggs might be involved in metabolism of some neurotransmitter monoamines during early developmental stages.  相似文献   

14.
We have characterized the constitutive and stress‐inducible pattern of immunoglobulin‐binding protein (BiP) gene expression during Xenopus early development. Whole mount in situ hybridization analysis revealed that BiP mRNA was detected in unfertilized eggs, cleavage and blastula stage embryos. In gastrulae, BiP mRNA was present across the surface of the embryo, while in neurulae BiP mRNA was enriched in the neural plate, neural fold, and around the blastopore. In early and late tailbud embryos, BiP mRNA was found primarily in the dorsal region. Tunicamycin and A23187, the calcium ionophore, enhanced BiP mRNA accumulation first at the neurula stage, while heat shock induced BiP mRNA accumulation first at the gastrula stage. Compared to control, A23187‐ and heat shock‐treated neurulae displayed relatively high levels of BiP mRNA in selected tissues, including the neural plate, neural folds, around the blastopore, and ectoderm. At the early tailbud stage, A23187 and heat shock enhanced BiP mRNA accumulation primarily in the head, somites, tail, and along the spinal cord. A similar situation was found with A23187‐ and heat shock‐treated late tailbud embryos, except that heat‐shocked embryos also displayed enhanced BiP mRNA accumulation in the epidermis. These studies demonstrate a preferential accumulation of BiP mRNA in selected tissues during development and in response to stress. Dev. Genet. 25:31–39, 1999. © 1999 Wiley‐Liss, Inc.  相似文献   

15.
16.
In order to determine the time window for induction of lateral line placodes in the axolotl, we performed two series of heterotopic and isochronic transplantations from pigmented to albino embryos at different stages of embryogenesis and assessed the distribution of pigmented neuromasts in the hosts at later stages. First, ectoderm from the prospective placodal region was transplanted to the belly between early neurula and mid tailbud stages (stages 13-27). Whereas grafts from early neurulae typically differentiated only into epidermis, grafts from late neural fold stages on reliably resulted in differentiation of ectopic pigmented neuromasts. Second, belly ectoderm was transplanted to the prospective placodal region between early neurula and tailbud stages (stages 13-35). Normal lateral lines containing pigmented neuromasts formed in most embryos when grafts were performed prior to early tailbud stages (stage 24) but not when they were performed later. Our findings indicate that lateral line placodes, from which neuromasts originate, are already determined at late neural fold stages (first series of grafts) but are inducible until early tailbud stages (second series of grafts). A further series of heterochronic transplantations demonstrated that the decline of inducibility at mid tailbud stages is mainly due to the loss of ectodermal competence.  相似文献   

17.
The FGF pathway regulates a variety of developmental processes in animals through activation and/or repression of numerous target genes. Here we have identified a Xenopus homolog of potassium channel tetramerization domain containing 15 (KCTD15) as an FGF-repressed gene. Kctd15 expression is first detected at the gastrula stage and gradually increases until the tadpole stage. Whole-mount in situ hybridization reveals that the spatial expression of kctd15 is tightly regulated during early embryogenesis. While kctd15 is uniformly expressed throughout the presumptive ectoderm at the early gastrula stage, its expression becomes restricted to the non-neural ectoderm and is excluded from the neural plate at the early neurula stage. At the mid-neurula stage, kctd15 shows a more restricted distribution pattern in regions that are located at the anterior, lateral or medial edge of the neural fold, including the preplacodal ectoderm, the craniofacial neural crest and the prospective roof plate. At the tailbud stage, kctd15 expression is mainly detected in neural crest- or placode-derived tissues that are located around the eye, including the mandibular arch, trigeminal ganglia and the olfactory placode. FGF represses kctd15 expression in ectodermal explants, and the inhibition of FGF receptor with a chemical compound dramatically expands the region expressing kctd15 in whole embryos. Dorsal depletion of kctd15 in Xenopus embryos leads to bent axes with reduced head structures, defective eyes and abnormal somites, while ventral depletion causes defects in ventral and caudal morphologies. These results suggest that kctd15 is an FGF-repressed ectodermal gene required for both dorsal and ventral development.  相似文献   

18.
19.
At the 16 cell stage, three kinds of borealis–laevis and eight kinds of laevis–laevis chimeric embryos were produced by replacing a particular blastomere of albino embryos of Xenopus laevis with that of wild-type embryos of X. borealis or X. laevis , and then leaving the embryos to develop into frogs.
In the borealis–laevis chimera frogs, we found that all the melanized cells (retinal pigment cells and melanophores) were derived from a transplanted wild-type blastomere with a nuclear marker of X. borealis and that all the albino-mutant cells derived from the host did not become melanized. Thus, retinal pigment cells and melanophores differentiated according to their own genotype. We then examined the origin of these two types of cells, using melanin as a cell-marker in the borealis–laevis and laevis–laevis chimeras.
Retinal pigment cells derive from A1 (dorso-animal) and A2 (latero-animal) blastomeres. A1 of one side contributes to retinal pigment cells in both eyes. Though the blastomeres of one side contribute to the formation of bilateral melanophores, the major contribution is to melanophores of the same side. A1, A2 and V2 (latero-vegetal) form the anterior part of the neural fold, and A2 and V2 contribute to melanophores of the head region. The most anterior part of the neural fold derived from A1 does not make a significant contribution to melanophores. Though V2 is a vegetal blastomere, it forms the anterior part of the neural fold by upward movement against the downward movement for gastrulation. A3 forms the middle and posterior parts of the neural fold and contributes to melanophores of the trunk and hindlimbs. Melanophores of hindlimbs also come from A2, A4 and V2. It is to be noted that A4 contributes to melanophores of hindlimbs, despite no apparent contribution to the neural fold.
Development of the retinal pigment cells and melanophores is discussed from the point of pigmentation patterns of the chimeras.  相似文献   

20.
Early neural cell death is programmed cell death occurring within proliferating and undifferentiated neural progenitors. Little is known about the regulation and role of early neural cell death. In Xenopus embryos, primary neurogenesis is disrupted following the inhibition of early neural cell death, indicating that it is required for normal primary neurogenesis. Here we show that early neural cell death is dependent on primary neurogenesis. Overexpression of XSoxD concomitantly reduced N-Tubulin expression and early neural cell death, as seen by reduced TUNEL staining in stage 15 embryos. Conversely, overexpression of XNgnr1 led to ectopic N-Tubulin expression and TUNEL staining. However, XNeuroD overexpression, which induces ectopic N-Tubulin expression downstream of XNgnr1, had no effect on early neural cell death. E1A12S differentially inhibits the differentiation pathway induced by XNGNR1 protein. E1A12S-mediated inhibition of XNGNR1 neurogenic activity resulted in the reduction of N-Tubulin expression and TUNEL staining. Taken together, our data establish that primary neurogenesis induced by XNGNR1 promotes early neural cell death. This indicates that XNgnr1 positively regulates early neural cell death. We propose that early neural cell death might eliminate cells with abnormally high levels of XNGNR1, which can result in pre-mature neuronal differentiation.  相似文献   

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