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

The activities of the enzymes of heme biosynthesis (except protoporphyrin oxidase) have been followed during the induction of Friend cells in culture. All the enzyme activities increased after induction with dimethyl sulfoxide. The activities of the intermediate enzymes were much higher than those of delta-aminolevulinate synthase [succinyl-CoA:glycine C-succinyltransferase (decarboxylating), EC 2.3.1.37], the initial enzyme, or ferrochelatase (protoheme ferro-lyase, EC 4.99.1.1), the final enzyme of the pathway. Ferrochelatase activity was not detectable in the uninduced cell. delta-Aminolevulinate synthase activity increased during the first 24 hr of induction; porphobilinogen deaminase activity began to increase after 48 hr and ferrochelatase activity, after 72 hr. However, the induction of heme synthesis followed the same time course as that of ferrochelatase activity, not that of delta-aminolevulinate synthase activity. The cellular growth medium was found to contain traces of protoporphyrins. Thus, ferrochelatase is shown to be rate limiting for heme synthesis during early stages of Friend cell induction. A Friend cell variant (Fw), which is not inducible except in the presence of exogenous hemin, was also studied. All the enzymes of heme synthesis except ferrochelatase were inducible by butyric acid. Ferrochelatase was not inducible by butyric acid or hemin plus butyric acid. These cells also excrete protoporphyrin, The failure to induce ferrochelatase activity is believed to be the cause of, not a consequence of, the noninducibility of this cell line.
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PMID:Heme biosynthesis in Friend erythroleukemia cells: control by ferrochelatase. 28 6

Porphyrin auxotrophs of Bacillus subtilis can be divided into two groups. Strains belonging to the first group (hemA, hemB, or hemC) are not able to synthesize or metabolize porphobilinogen. These strains require cysteine, cystine, and methionine, respectively. Traces of aminolevulinic acid, in a hemin-containing medium, can replace the cysteine requirement in a mutant lacking aminolevulinic acid synthetase. In bacteria belonging to the second group (hemE, hemF, or hemG), porphyrin biosynthesis is blocked at later steps, and the amino acids mentioned above are not required. It is of interest that both the activity of ribonucleotide reductase and the amount of vitamin B12 were significantly lower in the first group. The addition of vitamin B12 to the medium did not promote the growth of strains examined. We assume that porphobilinogen deaminase is essential for the synthesis of corrinoids.
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PMID:Porphyrin and corrinoid mutants of Bacillus subtilis. 40 8

Porphyrin biosynthesis in mammalian skin and in skin obtained from patients with selected types of porphyria has been studied. Cutaneous porphyrinogenesis required the precursor delta-aminolevulinic acid (ALA) which, when added to murine, rat, and human skin in vitro, was rapidly converted to porphyrins. Total porphyrin content was quantitated by fluorescence assay, and spectral studies indicated that more than 80% of the porphyrin produced was protoporphyrin. The majority of skin porphyrinogenesis occurrred in epidermis or in epidermal derivatives such as hair roots. Known inducers of hepatic delta-aminolevulinic acid synthetase (ALAS), the rate-limiting enzyme for heme biosynthesis, were not inducers when added to skin in vitro. Skin from patients with acute intermittent porphyria demonstrated a 43% decrease in cutaneous porphyrin production as compared to unaffected normals. This is consistent with the known deficiency of uroporphyrinogen synthetase that has been previously demonstrated in the liver and red blood cells of these patients. Porphyrinogenesis in skin of patients with porphyria cutanea tarda was not different from controls. These studies demonstrate that skin has the enzymatic capacity to synthesize porphyrins from added ALA and that cutaneous porphyrinogenesis from ALA is deficient in patients with acute intermittent porphyria.
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PMID:Studies in porphyria. VI. Biosynthesis of porphyrins in mammalian skin and in the skin of porphyric patients. 83 Jul 70

In these studies the effects of ingested arsenic (As(+5)) on hepatic heme biosynthetic capability and hemoprotein function in adult male rats were investigated. Animals exposed for 6 weeks to 0, 20, 40, or 85 ppm sodium arsenate in the drinking water suffered depression of hepatic delta-aminolevulinic acid (ALA) synthetase and heme synthetase (ferrochelatase) activities, with maximal decreases to 67 and 55% of control levels, respectively, at 85 ppm. Concomitantly, urinary uroporphyrin levels were elevated by as much as 12 times, and coproporphyrin by as much as 9 times, control values. The rate of incorporation of (3)H-ALA into mitochondrial and microsomal hemes was depressed by 40-50% at 20 ppm but was increased with regard to controls by as much as 150% at the higher treatment levels. A similar biphasic pattern was observed in regard to (14)C-leucine incorporation into cellular membranal proteins. In contrast, the levels of ALA dehydratase, uroporphyrinogen I synthetase, aminopyrine demethylase, and cytochrome P-450 were not significantly changed in As(+5)-treated rats. These results support the hypothesis that chronic, low level, arsenic exposure results in selective inhibition of mitochondrial-bound heme biosynthetic pathway enzymes (ALA synthetase and heme synthetase) resulting in a substantial increase in urinary porphyrins, uniquely characterized by a greater increase in uroporphyrin than coproporphyrin levels. These changes occur independent of, or prior to, alterations in hepatic hemoprotein-dependent functions and may thus serve in the clinical analysis of pretoxic exposure to arsenic compounds in human populations.
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PMID:Effects of chronic arsenic exposure on hematopoietic function in adult mammalian liver. 90

Acute intermittent porphyria is an inborn error of metabolism characterized by the excretion of excess porphyrin precursors (porphobilinogen and usually delta-aminolevulinic acid) in the urine, and by sporadic attacks of neurologic dysfunction. The disease is complex, involving variable patterns of autonomic and peripheral neuropathy as well as the central nervous system manifestations. There may be alterations in carbohydrate, lipid, water, and electrolyte metabolism in addition to clinically inapparent endocrine abnormalities. The fundamental defect is thought to be a 50% decrease of uroporphyrinogen I synthetase, the third enzyme of the heme biosynthetic pathway. This is associated with a marked increase of hepatic delta-aminolevulinic acid synthetase, the first and rate controlling enzyme of the pathway. The measurement of uroporphyrinogen I synthetase in erythrocytes now provides an enzyme diagnostic test for the disease. Two therapeutic approaches that may prove to reverse the fundamental disease process, at least in some patients, involve [1] a high carbohydrate intake, and [2] intravenous administration of hematin. The latter, only recently introduced, is now being investigated.
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PMID:Acute intermittent porphyria: clinical and selected research aspects. 110 84

The formation of variation of delta-aminolevulinic acid (ALA) and of porphyrins, as well as respiratory metabolism, have been studied in skin fibroblasts from six normal control subjects and seven patients with acute intermittent porphyria. The mean activity of ALA synthetase was the same in both groups, whereas the mean activity of uroporphyrinogen I synthetase (as measured by the conversion of porphobilinogen [PBG] to porphyrins) was significantly decreased in fibroblasts from porphyric subjects, the mean value being 52 per cent that of control subjects (p less than or equal to 0.001). The findings of decreased uroporphyrinogen synthesis without an increase in ALA synthetase in mitochondria-containing cells from subjects with acute intermittent porphyria are compatible with the concept that defective PBG ultilization is the fundamental defect in heme biosynthesis in this disease and the possibility that ALA synthetase is "irreversibly" repressed in nonhepatic tissues. Respiration of the cells was studied polarographically. The two types of cells showed similar overall rates of respiration and in general responded to substrates and inhibitors as expected. Of the inhibitors tested (rotenone, amytal, antimycin, and cyanide), only rotenone showed a differential effect: respiration of fibroblasts from porphyric patients was not as sensitive to the inhibitor as was that of the control subjects. These results are interpreted as suggesting a possible defect in mitochondrial NADH oxidation in acute intermittent porphyria.
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PMID:Porphyrin synthesis and mitochondrial respiration in acute intermittent porphyria: studies using cultured human fibroblasts. 114 34

The present study was undertaken to explore the effect of the presence of hepatic tumors induced by diethylinitrosamine (DENA) on the metabolic heme pathway, and to assess whether these tumors can modify the response of rats to the porphyrinogenic drug hexachlorobenzene (HCB) and whether the above mentioned effects occur to a greater extent in females than males. The results obtained showed that: a) Females were more susceptible to the hepatocarcinogenicity of DENA than males. b) Female normal and DENA treated rats were more susceptible than male rats to the porphyrinogenicity of HCB. c) The presence of hepatic DENA induced tumors could diminish basal hepatic ferrochelatase activity. d) Hepatic tumors could modify the response of animals to a porphyrinogenic drug such as HCB. Thus, both female and male DENA/HBC rats accumulated more porphyrins and showed a lower delta-aminolevulinate synthase and uroporphyrinogen I synthase induction than HCB rats. e) The heme pathway was functional in DENA induced tumors in both male and female rats but they were little affected by HCB.
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PMID:Sex comparison of heme pathway in rats bearing hepatic tumors. 178 Oct 34

The green sulfur bacterium, Chlorobium vibrioforme, synthesizes the tetrapyrrole precursor, delta-aminolevulinic acid (ALA), from glutamate via the RNA-dependent five-carbon pathway. A 1.9-kb clone of genomic DNA from C. vibrioforme that is capable of transforming a glutamyl-tRNA reductase-deficient, ALA-dependent, hemA mutant of Escherichia coli to prototrophy was sequenced. The transforming C. vibrioforme DNA has significant sequence similarity to the E. coli, Salmonella typhimurium, and Bacillus subtilis hemA genes and contains a 1245 base open reading frame that encodes a 415 amino acid polypeptide with a calculated molecular weight of 46174. This polypeptide has over 28% amino acid identity with the polypeptides deduced from the nucleic acid sequences of the E. coli, S. typhimurium, and B. subtilis hemA genes. No sequence similarity was detected, at either the nucleic acid or the peptide level, with the Rhodobacter capsulatus or Bradyrhizobium japonicum hemA genes, which encode ALA synthase, or with the S. typhimurium hemL gene, which encodes glutamate-1-semialdehyde aminotransferase. These results establish that hemA encodes glutamyl-tRNA reductase in species that use the five-carbon ALA biosynthetic pathway. A second region of the cloned DNA, located downstream from the hemA gene, has significant sequence similarity to the E. coli and B. subtilis hemC genes. This region contains a potential open reading frame that encodes a polypeptide that has high sequence identity to the deduced E. coli and B. subtilis HemC peptides. hemC encodes the tetrapyrrole biosynthetic enzyme, porphobilinogen deaminase, in these species.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Structure and expression of the Chlorobium vibrioforme hemA gene. 179 35

Changes in the level of transcripts encoding enzymes of the heme biosynthetic pathway as well as those encoding ubiquitous proteins were examined in murine Friend virus-transformed erythroleukemia cells during erythroid cell differentiation induced by chemicals including dimethyl sulfoxide (DMSO). Early changes following DMSO treatment were marked decreases in mRNAs for three ubiquitous proteins, i.e., a 70 kDa heat shock protein (less than 6 h), heme oxygenase and nonspecific delta-aminolevulinate synthase (ALAS) (less than 12 h). These changes were followed by sequential increases in mRNAs for enzymes in the heme biosynthetic pathway. Namely, mRNAs for the erythroid-specific ALAS, delta-aminolevulinate dehydratase, porphobilinogen deaminase and uroporphyrinogen decarboxylase started to increase at 12, 18, 18-24 and 24 h, respectively. Nuclear runoff studies revealed that these changes are largely transcriptional. Treatments with other inducers of erythroid differentiation, e.g., hexamethylene bisacetamide, n-butyric acid and N'-methylnicotinamide, also showed similar effects on mRNAs as those following DMSO. These findings suggest that both suppression of ubiquitous genes and activation of heme pathway enzyme genes are associated with erythroid differentiation, and the former occurs preceding changes in the latter.
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PMID:Sequential activation of genes for heme pathway enzymes during erythroid differentiation of mouse Friend virus-transformed erythroleukemia cells. 195 53

Heme synthesis and degradation play pivotal roles in the regulation of growth and differentiation of erythroid and non-erythroid cells. Heme synthesis in mammalian cells involves eight enzymes which are localized in mitochondrial and cytoplasmic compartments. These enzymes have been well-characterized and cDNAs for six of the enzymes has been cloned. Two enzymes in the enzymes of the heme biosynthetic pathway, delta-aminolevulinic acid synthase (ALAS) and porphobilinogen deaminase (PBG-D) have special features and may have regulatory functions in heme synthesis by hematopoietic cells. ALAS exists as two isozymes which are encoded by non-erythroid and erythroid-specific genes, respectively. By contrast, PBG-D, which also exists as two isozymes, arises from a single gene comprised of two overlapping transcriptional units, each with its own promoter. Transcription from one or the other of these promoters gives rise through differential splicing to two distinct mRNA species which encode the distinct nonerythroid and erythroid isoforms. On the other hand, heme catabolism is determined by the levels of the heme oxygenase system. The enzyme has been purified and the cDNA for heme oxygenase has been cloned. Repression of heme oxygenase in erythroid progenitor cells may initiate differentiation. In addition, recent evidence has suggested that heme may have a broader role in hematopoiesis and in the network of cytokine production by adherent stromal cells.
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PMID:Molecular regulation--biological role of heme in hematopoiesis. 203 26


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