Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.5.1.4 (deaminase)
 5,113 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acute intermittent porphyria (AIP) is an autosomal dominant disorder caused by a partial porphobilinogen (PBG) deaminase deficiency. An exon-by-exon denaturing gradient gel electrophoresis (DGGE) analysis followed by direct sequencing of the DNA fragments was performed to investigate molecular defect in 8 unrelated patients living in south of France: one Algerian, two Moroccan and five French patients. We have optimized the DGGE method in order to study at the same time the fifteen exons of the PBG deaminase gene in only one electrophoresis run. Six different mutations were detected by abnormal mobility patterns. After characterization, a C insertion (716 ins C), 2 deletions (589 del 17 bp; 730 del CT), a non-sense mutation (R149X) and 2 missense mutations (A270G; R173W) were found. The R173W missense mutation was found in 3 unrelated patients, and 716 ins C, 589 del 17 bp and A270G were newly described. According to this small AIP samples, sensitivity of the DGGE screening method was 100%.
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PMID:Acute intermittent porphyria: rapid molecular diagnosis. 907 87

Acute intermittent porphyria (AIP) is the major autosomal dominant form of acute hepatic porphyrias. The disease is due to mutations in the gene encoding for porphobilinogen (PBG) deaminase and is characterized by life-threatening neurovisceral attacks, often precipitated by drugs, fasting, cyclical hormonal changes, or infectious diseases. This report describes a prospective study on the molecular epidemiology of PBG deaminase gene defects in AIP. It uses a sensitive, reliable, and easy-to-handle method for routine AIP molecular diagnosis and family study based on an exon-by-exon denaturing gradient gel electrophoresis (DGGE) strategy followed by direct sequencing. Fifteen genomic DNA fragments, including all the coding sequence and covering 3.35 kb of the PBG deaminase gene, were investigated in 405 subjects from 121 unrelated French Caucasian AIP families who had not been screened previously at the DNA level. PBG deaminase gene mutations were identified in 109 families, but only 78 were of different type, and each of them had a prevalence rate < 5%. Among these mutations, 33 had not been published previously. Sixty percent of these 78 mutations were located in only three exons (exons 10, 12, and 14), 44% were missense, 18% were splice defect, 19% were frameshift, and 16% were nonsense. In addition, two de novo mutational events were characterized. The evaluation of the efficiency of the standard PBG deaminase enzymatic screening method for gene-carrier detection indicated 95% of concordancy with the molecular-based diagnosis.
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PMID:Molecular epidemiology and diagnosis of PBG deaminase gene defects in acute intermittent porphyria. 919 58

Amiodarone (AD) is an effective antidysrythmic drug, however, there can be serious side effects, such as hepatic and neurological alterations, as well as skin photosensitization, as seen in porphyrias. Clinical signs in porphyrias might be triggered by the so-called porphyrinogenic drugs. Without sound basis, Amiodarone has been classified as an unsafe drug for porphyric patients. The aim of this work has been to study the effect of AD, both in vivo and in vitro, on heme metabolism. In the in vivo assays, the activities of 5-aminolevulinate synthetase (ALA-S), ALA dehydratase (ALA-D), porphobilinogenase (PBGase) and PBG-deaminase (PBG-D) in blood, liver, and kidney; hepatic and fecal porphyrins, urinary ALA, PBG and porphyrins in male mice strain CF1 treated with AD (100 mg i.p. daily) for 1 week and 1 month, were measured. No significanat differences were found for any of these parameters in the AD treated animals as compared to controls. In the in vitro experiments human blood, and mice blood, liver, and kidney, were used to measure the activities of ALA-S, ALA-D, PBGase, PBG-D and uroporphyrinogen decarboxylase, in the presence of varying concentrations of AD (0.0172-4.304 mM). AD did not modify any of the enzyme activities. All of the above biochemical parameters were studied in 17 cardiac patients under AD treatment for 3 to 20 years. Neither the activities of the heme enzymes, nor the levels of precursors and porphyrins in urine and plasma were altered. These findings clearly demonstrate that AD is a pharmacologically safe drug and can be used for the treatment of associated pathologies in porphyrias.
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PMID:Amiodarone is a pharmacologically safe drug for porphyrias. 1018 29

Acute intermittent porphyria (AIP) is the most frequent acute porphyria. Symptomatic patients and asymptomatic gene carriers are characterized by a reduction of their porphobilinogen-deaminase (PBG-D) activity to 50%, which is sufficient for porphyrin biosynthesis. PBG-D is encoded by two different mRNAs which are expressed in a tissue-specific manner. In classical AIP, the enzyme activity is reduced in erythroblasts and all other heme-forming body cells, whereas in the variant form of AIP, the PBG-D activity in erythroid tissues remains normal. Acute porphyria attacks can occur in gene carriers when the biosynthesis of heme is increased by drugs, low calorie intake, alcohol consumption or infections. Under these conditions, PBG-D cannot convert the precursors adequately so that PBG and delta-aminolevulinate accumulate. This may lead to neurovisceral symptoms and other neurological complications which are potentially life threatening. In patients with AIP, mutation analysis by PCR-DGGE (denaturing gradient gel electrophoresis) is becoming increasingly important since it also permits rapid identification of their presymptomatic relatives. Using this technique, more than 120 mutations have been identified in the PBG-D gene. When identified, the family members are informed about their genetic predisposition and are taught how to prevent porphyric attacks. Here, I illustrate this preventive strategy by describing a German kindred of an affected patient with the variant form of AIP with 17 family members.
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PMID:Acute intermittent porphyria: mutation analysis and identification of gene carriers in a German kindred by PCR-DGGE analysis. 1034 7

Drugs and toxins precipitate life-threatening acute attacks in patients with intermittent acute porphyria. These materials may act by directly inhibiting enzyme activity, thus further reducing porphobilinogen (PBG) deaminase activity below the ca. 50% level that results from the gene defect. To test this, we studied the effects of drugs that precipitate acute attacks (lead, phenobarbital, griseofulvin, phenytoin, sulfanilamide, sulfisoxazole, 17alpha-ethinyl estradiol, 5beta-pregnan-3alpha-ol-20-one), drugs that are safe (lithium, magnesium, chlorpromazine, promethazine), and those with uncertain effects (ethyl alcohol, imipramine, diazepam, haloperidol) on activity of PBG deaminase in vitro and in vivo. In the in vitro studies, of PBG deaminase from human erythrocytes from normals and individuals with IAP, only lead (> or = .01 mM) inhibited enzyme activity. Chlorpromazine (> or = .01 mM), promethazine (> or = .01 mM) and imipramine (1 mM) seemed to increase enzyme activity. In most in vivo experiments, male rats were injected intraperitoneally with test material twice daily for 3 days and once on day four; and erythrocyte and hepatic PBG deaminase activity was assayed thereafter. Effects on enzyme activity were observed only with 17alpha-ethinyl estradiol (0.05 microg/kg/day; reduction of 11% in erythrocyte enzyme [NS], and of 20% in liver enzyme [P=.02]), and imipramine (12.5 mg/kg/day; reduction in erythrocyte enzyme activity of 13% [P<.001]). Rats given lead acetate in their drinking water (10 mg/ml) for the first 60 days of life, resulting in high blood and liver lead levels, had increased erythrocyte PBG deaminase (167% of control; P=.004). Thus, enzyme inhibition by lead in vitro was not reflected in a similar in vivo inhibition. The only inhibitory effects in vivo, with ethinyl estradiol and imipramine, appear to be mild and biologically inconsequential. We conclude that inhibition of PBG deaminase activity by materials that precipitate acute attacks is an unlikely mechanism by which these materials exert their harmful effects in patients with IAP.
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PMID:The effect of therapeutic drugs and other pharmacologic agents on activity of porphobilinogen deaminase, the enzyme that is deficient in intermittent acute porphyria. 1041 26

The effects of leaf developmental age on the expression of three nuclear gene families in pea (Pisum sativum L.) coding for enzymes of chlorophyll and heme biosynthesis have been examined. The steady-state levels of mRNAs encoding aminolevulinic acid (ALA) dehydratase, porphobilinogen (PBG) deaminase, and NADPH:protochlorophyllide reductase were measured by RNA gel blot and quantitative slot-blot analyses in the foliar leaves of embryos that had imbibed for 12 to 18 h and leaves of developing seedlings grown either in total darkness or under continuous white light for up to 14 d after imbibition. Both ALA dehydratase and PBG deaminase mRNAs were detectable in embryonic leaves, whereas mRNA encoding the NADPH:protochlorophyllide reductase was not observed at this early developmental stage. All three gene products were found to increase to approximately the same extent in the primary leaves of pea seedlings during the first 6 to 8 d after imbibition (postgermination) regardless of whether the plants were grown in darkness or under continuous white-light illumination. In the leaves of dark-grown seedlings, the highest levels of message accumulation were observed at approximately 8 to 10 d postgermination, and, thereafter, a steady decline in mRNA levels was observed. In the leaves of light-grown seedlings, steady-state levels of mRNA encoding the three chlorophyll biosynthetic enzymes were inversely correlated with leaf age, with youngest, rapidly expanding leaves containing the highest message levels. A corresponding increase in the three enzyme protein levels was also found during the early stages of development in the light or darkness; however, maximal accumulation of protein was delayed relative to peak levels of mRNA accumulation. We also found that although protochlorophyllide was detectable in the leaves immediately after imbibition, the time course of accumulation of the phototransformable form of the molecule coincided with NADPH:protochlorophyllide reductase expression. In studies in which dark-grown seedlings of various ages were subsequently transferred to light for 24 and 48 h, the effect of light on changes in steady-state mRNA levels was found to be more pronounced at later developmental stages. These results suggest that the expression of these three genes and likely those genes encoding other chlorophyll biosynthetic pathway enzymes are under the control of a common regulatory mechanism. Furthermore, it appears that not light, but rather as yet unidentified endogenous factors, are the primary regulatory factors controlling gene expression early in leaf development.
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PMID:Leaf Developmental Age Controls Expression of Genes Encoding Enzymes of Chlorophyll and Heme Biosynthesis in Pea (Pisum sativum L.). 1223 48

Acute intermittent porphyria (AIP) is an autosomal dominant disorder resulting from porphobilmogen deaminase (PBGD) deficiency. Seven unrelated Brazilian patients were investigated regarding PBGD gene mutations by polymerase chain reaction (PCR) and single strand conformation polymorphism (SSCP) analysis followed by direct DNA sequencing. The PBG gene screening disclosed abnormal SSCP patterns in exons 7, 9, 12, 13, and 15, as well as in introns 3 and 10. Direct DNA sequencing revealed the occurrence of three nonsense mutations (R149X, R225X, and R325X) in exons 9, 12, and 15, respectively, and one missense mutation G111R in exon 7. The G111R mutation was detected in two unrelated patients. Intragenic polymorphisms (3119G/T in intron 2, 3581G/A in intron 3, 7052A/G and 7064C/A in intron 10, and -65C/T in exon 1) were also observed. In addition, two silent mutations (V202V in exon 10 and A266A in exon 13) were found. The latter has not heretofore been reported. Thus, this study revealed the mutations involved in Brazilian symptomatic AIP patients, as well as the intragenic polymorphisms found in the patients.
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PMID:Porphobilmogen deaminase gene mutations in Brazilian acute intermittent porphyria patients. 1235 56

Acute intermittent porphyria (AIP) is an inherited disorder in the haem biosynthetic pathway caused by a partial deficiency of porphobilinogen (PBG) deaminase. To date, more than 200 different mutations have been identified in the PBG deaminase gene (PBGD) in AIP patients from various countries and ethnic groups. While the majority of the PBGD gene mutations, including most of the mutations occurring at CpG dinucleotides, are family-specific, a few CpG mutations have been observed in a number of AIP patients of European origin. To study the origin of these common CpG mutations, eight intragenic single-nucleotide polymorphisms (SNPs) in the PBGD gene, as well as eight microsatellites flanking the gene in chromosome 11 were used to construct haplotypes in six AIP families of German, Polish and Swiss origins who carried either G111R (4707G>A) or R173Q (6391G>A) mutations. Among the three R173Q families, three distinct haplotypes were found to be cosegregated with the mutation. One Swiss and one German G111R family shared partially an intragenic and its extended microsatellite haplotype, whereas the Polish G111R family showed a unique haplotype. These results indicated that the recurrent CpG mutations that exist in the European AIP population can be either of ancestral origins or derived from de novo events.
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PMID:Mutation hotspots in the human porphobilinogen deaminase gene: recurrent mutations G111R and R173Q occurring at CpG motifs. 1566 78

The autosomal dominantly inherited disease AIP (acute intermittent porphyria) is caused by mutations in HMBS [hydroxymethylbilane synthase; also known as PBG (porphobilinogen) deaminase], the third enzyme in the haem biosynthesis pathway. Enzyme-intermediates with increasing number of PBG molecules are formed during the catalysis of HMBS. In this work, we studied the two uncharacterized mutants K132N and V215E comparative with wt (wild-type) HMBS and to the previously reported AIP-associated mutants R116W, R167W and R173W. These mainly present defects in conformational stability (R116W), enzyme kinetics (R167W) or both (R173W). A combination of native PAGE, CD, DSF (differential scanning fluorimetry) and ion-exchange chromatography was used to study conformational stability and activity of the recombinant enzymes. We also investigated the distribution of intermediates corresponding to specific elongation stages. It is well known that the thermostability of HMBS increases when the DPM (dipyrromethane) cofactor binds to the apoenzyme and the holoenzyme is formed. Interestingly, a decrease in thermal stability was measured concomitant to elongation of the pyrrole chain, indicating a loosening of the structure prior to product release. No conformational or kinetic defect was observed for the K132N mutant, whereas V215E presented lower conformational stability and probably a perturbed elongation process. This is in accordance with the high association of V215E with AIP. Our results contribute to interpret the molecular mechanisms for dysfunction of HMBS mutants and to establish genotype-phenotype relations for AIP.
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PMID:Conformational stability and activity analysis of two hydroxymethylbilane synthase mutants, K132N and V215E, with different phenotypic association with acute intermittent porphyria. 2381 79


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