Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.5.1.61 (porphobilinogen deaminase)
 637 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acute intermittent porphyria (AIP) is an inherited disorder characterized by a deficiency of hydroxymethylbilane synthase (EC 4.3.1.8.; HMBS), the third enzyme in the heme biosynthetic pathway. To date, 113 different HMBS gene mutations have been reported in the world. However, there were a few reports of the gene mutations in the Japanese AIP patients. We studied the gene mutation in two unrelated AIP families in the San-in district, a local area of Western Japan. The overlapping 6 fragments of the HMBS gene, amplified by the reverse transcript-polymerase chain reaction, were analyzed by the single-strand conformation polymorphism with silver staining technique. The abnormal fragment from a member of one family was sequenced to detect the C to T substitution at 517 nucleic acid position of cDNA, which led to a missense mutation of arginine to tryptophan exchange at an amino acid level (R173W). This mutation located in exon 10 created a new site of the MSP 1 restriction endonuclease and was screened by the amplified fragment of exon 10 from genomic DNA with the MSP 1 digestion. The mutation was detected totally in three members of the family and interestingly also in two patients of an unrelated family. This mutation has been reported widely in the world independently, such as in a Swedish, a Canadian, a Finnish, and a French family, but is the first in Japanese patients. The screening method for this mutation is useful for diagnosis in Japanese AIP patients.
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PMID:Mutation in the exon 10 (R173W) of the hydroxymethylbilane synthase gene in two unrelated Japanese families with acute intermittent porphyria. 952 50

The enzyme hydroxymethylbilane synthase (HMBS, E.C. 4.3.1.8) catalyzes the conversion of porphobilinogen into hydroxymethylbilane, a key intermediate for the biosynthesis of heme, chlorophylls, vitamin B12 and related macrocycles. The enzyme is found in all organisms, except viruses. The crystal structure of the selenomethionine-labelled enzyme ([SeMet]HMBS) from Escherichia coli has been solved by the multi-wavelength anomalous dispersion (MAD) experimental method using the Daresbury SRS station 9.5. In addition, [SeMet]HMBS has been studied by MAD at the Grenoble ESRF MAD beamline BM14 (BL19) and this work is described especially with respect to the use of the ESRF CCD detector. The structure at ambient temperature has been refined, the R factor being 16.8% at 2. 4 A resolution. The dipyrromethane cofactor of the enzyme is preserved in its reduced form in the crystal and its geometrical shape is in full agreement with the crystal structures of authentic dipyrromethanes. Proximal to the reactive C atom of the reduced cofactor, spherical density is seen consistent with there being a water molecule ideally placed to take part in the final step of the enzyme reaction cycle. Intriguingly, the loop with residues 47-58 is not ordered in the structure of this form of the enzyme, which carries no substrate. Direct experimental study of the active enzyme is now feasible using time-resolved Laue diffraction and freeze-trapping, building on the structural work described here as the foundation.
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PMID:Determination of the structure of seleno-methionine-labelled hydroxymethylbilane synthase in its active form by multi-wavelength anomalous dispersion. 1008 59

Acute intermittent porphyria (AIP) is a low-penetrant, autosomal dominant disorder caused by decreased activity of hydroxymethylbilane synthase (HMBS; MIM 176 000), the third enzyme in the heme biosynthetic pathway. We report the first molecular analysis of HMBS gene mutations in classical AIP patients of German origin. The HMBS gene of 5 German AIP patients was analysed by DGGE-screening and direct sequencing of amplified genomic DNA. Five different mutations including four novel mutations were found. Three of them are single base substitutions that affected exon 3 (R16C), exon 10 (V202L), and intron 13 (T to A, IVS13+2) The two remaining mutations are frameshifts which produce a stop codon (del GA in exon 6 and insA in exon 14). These mutations are likely to be responsible for the decrease in HMBS activity found in both erythrocytes and non-erythroid cell lines (lymphocytes). Our results demonstrate the allelic heterogeneity of HMBS mutations in AIP patients of German origin.
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PMID:New mutations of the hydroxymethylbilane synthase gene in German patients with acute intermittent porphyria. 1065 49

Acute intermittent porphyria (AIP) is a low-penetrant, autosomal dominant disorder caused by mutations in the HMBS gene. The gene is transcribed from two promoters to produce ubiquitous and erythroid isoforms of porphobilinogen deaminase, which differ only at their NH2 ends. In the classical form of AIP, both isoforms are deficient, but about 5% of families have the non-erythroid variant in which only the ubiquitous isoform is affected. Previously identified mutations in this variant have been within or close to the coding region of exon 1 of the HMBS gene, the only exon that is expressed solely in the ubiquitous isoform. Here, we describe mutations in the ubiquitous promoter (-154delG) and in exon 3 (41delA) that cause the non-erythroid variant. Reporter gene and electrophoretic mobility shift assays show that the G nucleotide at position -154, the most 5' of several transcription-initiation sites in the ubiquitous HMBS promoter, which lies immediately 3' to a transcription-factor IIB binding motif, is essential for normal transcription. The frameshift mutation in exon 3 introduces a stop codon into mRNA for the ubiquitous isoform only. Our investigations identify two new mechanisms for production of the non-erythroid variant of AIP and demonstrate that mutational analysis for diagnosis of this variant needs to include wider regions of the HMBS gene than indicated by previous reports. Furthermore, they show that deletion of one of several transcription initiation sites in the promoter of a housekeeping gene that lacks both TATA and initiator elements can produce disease.
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PMID:Non-erythroid form of acute intermittent porphyria caused by promoter and frameshift mutations distant from the coding sequence of exon 1 of the HMBS gene. 1107 86

Acute intermittent porphyria (AIP), an autosomal dominant disorder of heme biosynthesis, is due to mutations in hydroxymethylbilane synthase (HMBS; or porphobilinogen deaminase, PBGD) gene. In this study, we analyzed 20 Polish patients affected by AIP and we were able to characterize seven novel mutations. A nonsense mutation (Y46X), two frameshift mutations (315delT and 552delT) and a 131bp deletion (nucleotides 992-1123) give rise to truncated proteins. A donor splice site mutation IVS12+2T>C predicts skipping of exon 12. A missense mutation (D61Y) was identified in two apparently unrelated patients with a clearly clinical indication of AIP. An inframe 3-bp deletion (278-280delTTG) results in the removal of V93 from the enzyme. In addition to the novel mutations, nine previously described HMBS gene mutations-R26H, G111R, IVS7+1G>A, R149X, R173Q, 730-731delCT, R225X, 982-983delCA and G335D-were identified in this cohort. Our results demonstrate that molecular analysis of the PBGD gene is a more reliable method comparing to enzymatic assay in the diagnosis of AIP. Although more than 170 different mutations are known to the HMBS gene so far, over 40% of all mutations identified among the Polish AIP patients of this study are novel mutations, indicating the heterogeneity of molecular defects causing AIP.
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PMID:Molecular study of the hydroxymethylbilane synthase gene (HMBS) among Polish patients with acute intermittent porphyria. 1185 54

The enzyme hydroxymethylbilane synthase (HMBS, EC 4.3.1.8), 313 amino acid residues and MW 34 kDa, also known as porphobilinogen deaminase (PBGD), catalyses the stepwise polymerization of four molecules of porphobilinogen (PBG) to the linear tetrapyrrole 1-hydroxymethylbilane. Several crystallographic structures of HMBS have been previously determined, most recently including by time-resolved Laue protein crystallography of the Lys59Gln mutant form with reaction initiation undertaken by use of a flow cell carrying the substrate PBG. In this paper we review these structures and add new molecular graphics representations and analyses. Moreover we present a new structure refined at 1.66 A resolution using diffraction data recorded at cryo-temperature (100 K) in an attempt at trapping the polypeptide loop (residues 47 to 58) in the vicinity of the enzyme active site, missing in all previous structure determinations. This loop still has not appeared in the electron density maps, in spite of the advantage of cryo-temperature, but nevertheless the 1.66 A cryo-structure extends the ensemble of known HMBS structures. The cryomodel of protein, cofactor and 320 bound water molecules has been refined to a final R-factor and R-free of 0.198 and 0.247 respectively; the PDB deposition codes, coordinates and structure factors are 1GTK and R1GTKSF respectively. Finally a protein comparison study is presented of the Mycobacterium tuberculosis (MTb) HMBS, with the E. coli HMBS. This has been done as preparation for future structural studies on the MTb HMBS from this important disease bearing organism. The overall amino acid sequence identity is 41%. Most interestingly there is a two-residue reduction in length of the loop referred to above (Asp 50 and Gly 58 being missing in the MTb form). This gives the hope that this loop will be less flexible and thus might become visible to crystallographic analysis.
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PMID:Time-resolved and static-ensemble structural chemistry of hydroxymethylbilane synthase. 1255 54

Gene expression analyses based on messenger RNA (mRNA) profiling require accurate data normalisation. When using endogenous reference genes, these have to be validated carefully. Therefore, we examined the transcript stability of 10 potential reference genes using quantitative real-time polymerase chain reaction: beta actin, 18S rRNA, glyceraldehyde-3-phosphate dehydrogenase, TATA box-binding protein, hypoxanthine phosphoribosyl-transferase I, beta-2-microglobulin, hydroxymethylbilane synthase, succinate dehydrogenase complex, subunit A, cyclophilin A and ubiquitin C. The aim of the current study was to assess which reference genes show stable mRNA levels in human post mortem cardiac muscle, skeletal muscle and brain tissue. Considering cardiac muscle tissue, CYCA and TBP were identified as the most stable while in skeletal muscle tissue, SDHA and TBP, and in brain tissue, SDHA and HMBS turned out to be the most stable. Furthermore, we recommend a minimum of four carefully validated endogenous control genes for reliable data normalisation in human post mortem tissue. Parameters influencing the stability of transcript amounts were found to be mainly the post mortem interval in cardiac muscle and skeletal muscle tissue and the donor's cause of death in skeletal muscle and brain samples. Further parameters like gender, age at death and body mass index were found to influence mRNA quantities in skeletal muscle only. The set of stable control genes identified in this study may be used in further studies if the composition of the samples is similar to the one used here.
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PMID:Validation of adequate endogenous reference genes for the normalisation of qPCR gene expression data in human post mortem tissue. 2030 Sep 40

Acute intermittent porphyria (AIP) is an autosomal dominant disorder caused by molecular abnormalities in the HMBS gene. This gene is transcribed from two promoters to produce ubiquitous and erythroid specific isoforms of porphobilinogen deaminase (PBGD). In the classical form of AIP, both isoforms are deficient, but about 5% of families have the non-erythroid variant in which only the ubiquitous isoform is affected. Only one mutation sited in the housekeeping promoter has been previously reported as causative for this form of AIP. In this study, we identified one small deletion and six nucleotide substitutions within the 5'UTR and the housekeeping promoter of HMBS gene: c.1-440_-427del14bp; c.1-421G>A; c.1-331C>T; c.1-270G>A; c.1-122T>A; c.1-103C>T; c.1-28A>C. Using luciferase reporter assays and quantitative PCR experiments, we characterized the functional role of these seven novel genetic variants demonstrating that all mutations cause a significant loss of transcriptional activity. Our investigations suggest that these nucleotide substitutions may alter critical binding sites for transcriptional factors, which confirms that these regions represent an important molecular target for pathogenesis of non-erythroid form of acute intermittent porphyria.
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PMID:Seven novel genetic mutations within the 5'UTR and the housekeeping promoter of HMBS gene responsible for the non-erythroid form of acute intermittent porphyria. 2769 11

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

Comprehensive analyses of gene expression have been carried out by the development of microarrays and deep sequencers. However, it is difficult to obtain comprehensive information on gene expression from a small amount of ribonucleic acid (RNA). Therefore, we investigated the reproducibility and application of T7 RNA polymerase-mediated transcription, adaptor ligation and polymerase chain reaction (PCR) amplification, followed by T7 transcription (TALPAT), an efficient method for amplifying poly (A)-positive RNA, such as messenger RNA (mRNA). When amplified complementary RNA (cRNA) was electrophoresed, a large number of amplified cRNA was detected in the size of 0.2-0.5 kb. This indicates that the region up to 0.2-0.5 kb from the 3' end of the original mRNA was amplified by the TALPAT method. Seven housekeeping genes, glyceraldehyde-3-phosphate dehydrogenase (GAPDH), hydroxymethylbilane synthase (HMBS), hypoxanthine phosphoribosyltransferase (HPRT1), ribosomal protein L13a (RPL13A), succinate dehydrogenase complex (SDHA), TATA box-binding protein (TBP) and ubiquitin C (UBC), showed high reproducibility (square of the correlation coefficient, R2=0.9954), according to scatter plots of Ct values obtained in the real-time PCR analysis of amplified cRNA. In addition, relative expression ratios of amplified cRNA of the seven housekeeping genes were approximately equal to the ratio of the original RNA solution. Furthermore, cRNA was amplified from 20 pg total RNA. In the present study, we confirmed the characteristics of mRNA amplification using the TALPAT method. This method may be applicable to mRNA and poly (A)-positive non-coding RNA amplification, using a small amount of RNA from single, laser-captured and sorted cells, as well as exosomes from serum, urine and body fluids.
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PMID:An efficient method for high-fidelity messenger RNA amplification from a small amount of total RNA. 2464 3


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