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)

Acute intermittent porphyria (AIP) is a human disease resulting from a dominantly inherited partial deficiency of the heme biosynthetic enzyme, porphobilinogen deaminase (PBGD). The frequency of the trait for AIP is 1/10,000 in most populations, but may be markedly higher (1/500) in psychiatric patients. The clinical expression of the disease is characterized by acute, life-threatening attacks of 'porphyric neuropathy' that include abdominal pain, motor and sensory neurological deficits and psychiatric symptoms. Attacks are frequently precipitated by drugs, alcohol and low caloric intake. Identical symptoms occur in other hepatic porphyrias. To study the pathogenesis of the neurologic symptoms of AIP we have generated Pbgd-deficient mice by gene targeting. These mice exhibit the typical biochemical characteristics of human AIP, notably, decreased hepatic Pbgd activity, increased delta-aminolevulinic acid synthase activity and massively increased urinary excretion of the heme precursor, delta-aminolevulinic acid after treatment with drugs such as phenobarbital. Behavioural tests reveal decreased motor function and histopathological findings include axonal neuropathy and neurologic muscle atrophy.
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PMID:Porphobilinogen deaminase deficiency in mice causes a neuropathy resembling that of human hepatic porphyria. 856 60

A 58-year-old woman gave a 6-month history of porphyria-like photosensitivity. Fractioned porphyrin analysis by high performance liquid chromatography revealed elevated concentrations of all urinary porphyrins and faecal protoporphyrin. Hepatocellular carcinoma had developed in an otherwise normal liver. Tumour tissue fluoresced strongly under fluorescence microscopy, exhibiting elevated activity of three haem-biosynthetic enzymes, delta-aminolevulinic acid (ALA) synthase. ALA dehydratase and porphobilinogen deaminase. This patient did not satisfy any of the criteria for inherited porphyria. The patient's symptoms were relieved after excision of the liver tumour. This strongly suggests that excessive porphyrin synthesis originated from the tumour tissue. Primary porphyria-like photosensitivity occurs as a paraneoplastic phenomenon, secondary to hepatocellular carcinoma.
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PMID:Symptomatic porphyria secondary to hepatocellular carcinoma. 903 12

5-Aminolevulinate dehydrase (ALA-D) and porphobilinogen deaminase (PBG-D) are cytosolic enzymes involved in heme biosynthesis. ALA-D activity is altered both genetically and by the action of various environmental factors, including exposure to lead. The activity of PBG-D is reduced in acute intermittent porphyria. The aim of this work is to establish the 95% reference range of the erythrocytic activity of ALA-D and PBG-D in a control population. ALA-D activity limits were 15.8 and 50.2 nmol of PBG/ml of red blood cells (RBCS) per minute. For the activity of ALA-D restored by addition of zinc and dithiothreitol ("restored ALA-D"), these limits were 44.1 and 86.5 units. It has been found that the "restored ALA-D"/ALA-D ratio is very useful for the evaluation of lead toxicity, and its 95% reference range was between 1.22 and 3.06. It has been demonstrated that the best method for measuring erythrocytic PBG-D is using PBG, but not ALA, as substrate; its 95% reference range was between 20.9 and 63.2 nmol of uroporphyrin/ml of RBCs per hour. Knowledge of these reference range values in a control population constitutes the basis for an accurate diagnosis of heavy metal intoxication and acute intermittent porphyria.
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PMID:Reference values of 5-aminolevulinate dehydrase and porphobilinogen deaminase in the Spanish population from Madrid. 957 Sep 6

Acute intermittent porphyria is an autosomal dominant condition caused by a genetic defect of the deaminase gene located on the 11. chromosome. Due to this defect only 50% of the normal enzyme quantity is produced. The disease becomes manifested only in the case of increased demands on given metabolic pathway resulting in porphobilinogen accumulation and storage in the organism. Clinical pattern involves abdominal, neurologic and psychiatric symptomatology. Laboratory diagnosis is based on the detection of delta-aminolevulinic acid, porphobilinogen, uroporphyrin and coproporphyrin in the urine. Between the attacks may only the detection of porphobilinogen deaminase in erythrocytes, leukocytes and skin fibroblasts be positive. The therapy is based on infusions of 20% glucose solution and hydromineral imbalance correction. When neurologic symptoms occur it is necessary to administer hem-arginate intravenously. The case report presents almost textbook case of a young female patient suffering from the disease. (Ref. 7.)
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PMID:[Acute intermittent porphyria]. 991 55

Acute porphyrias are inherited disorders caused by partial deficiency of specific heme biosynthesis enzymes. Clinically, porphyrias are manifested by a neuropsychiatric syndrome that includes peripheral neuropathy. Although much is known about the porphyrias' enzyme defects and their biochemical consequences, the cause of the neurological manifestations remains unresolved. We have studied porphyric neuropathy in mice with a partial deficiency of porphobilinogen deaminase (PBGD). PBGD-deficient mice (PBGD-/-) imitate acute porphyria through massive induction of hepatic delta-aminolevulinic acid synthase by drugs such as phenobarbital. Here we show that PBGD-/- mice develop impairment of motor coordination and muscle weakness. Histologically femoral nerves of PBGD-/- mice exhibit a marked decrease in large-caliber (>8 microm) axons and ultrastructural changes consistent with primary motor axon degeneration, secondary Schwann cell reactions, and axonal regeneration. These findings resemble those found in studies of affected nerves of patients with acute porphyria and thus provide strong evidence that PBGD deficiency causes degeneration of motor axons without signs of primary demyelination, thereby resolving a long-standing controversy. Interestingly, the neuropathy in PBGD-/- mice developed chronically and progressively and in the presence of normal or only slightly (twofold) increased plasma and urinary levels of the putative neurotoxic heme precursor delta-aminolevulinic acid. These data suggest that heme deficiency and consequent dysfunction of hemeproteins can cause porphyric neuropathy.
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PMID:Motor neuropathy in porphobilinogen deaminase-deficient mice imitates the peripheral neuropathy of human acute porphyria. 1020 64

Recently, we reported that the delta-aminolevulinic acid (delta-ALA)-induced increase in porphobilinogen deaminase (PBGD) activity was closely correlated with an increase in the accumulation of protoporphyrin IX (PPIX), resulting in augmented phototoxicity. In this report, we asked whether increasing the cellular expression of PBGD by use of gene transfection techniques in vitro would further enhance delta-ALA-induced PPIX accumulation and hence, phototoxicity. For these experiments we constructed plasmid vectors containing the PBGD-DNA, using a reverse transcription-polymerase chain reaction-generated cDNA fragment encoded from its published sequence. Subsequently, transfection of the human mammary tumor cell line, MCF-7, and the human mesothelioma cell line, H-MESO-1, with the PBGD-DNA-containing plasmids was shown to produce a 2.5-2.7-fold increase in enzyme activity. Twenty-four hours after completion of the transfection procedure, transfectants were exposed for 3 h to 0.5 mM delta-ALA. Exposure of either wild type or transfectants to delta-ALA led to measurable levels of PPIX. Although this produced a modest but significant increase in intracellular PPIX content in H-MESO-1 cells compared to wild-type cells incubated with delta-ALA alone, the increase above the transfection control did not reach statistical significance. Likewise, a significant increase in PPIX was not observed in transfected MCF-7 cells subsequently exposed to delta-ALA. These data demonstrate that transient transfection of cells with the cDNA of PBGD was successful in elevating enzyme activity in both tumor cell lines, but this did not result in a comparable difference in the levels of PPIX. Such an approach for the study of other enzymes in the heme pathway should provide a model to better define rate-limiting steps in the delta-ALA induction of PPIX, and ultimately, to enhance the effectiveness of photodynamic therapy.
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PMID:Effect of delta-aminolevulinic acid on protoporphyrin IX accumulation in tumor cells transfected with plasmids containing porphobilinogen deaminase DNA. 1048 61

Protoporphyrin IX, induced by the exogenous addition of delta-aminolevulinic acid, reaches different levels in different tumor cells. Because many of the steps in heme biosynthesis, of which protoporphyrin IX is penultimate, are located in the mitochondria, we surmised that the mitochondrial content of cells may relate to the amount of protoporphyrin IX synthesized in response to excess delta-aminolevulinic acid. We observed that accumulation of MitoTracker, a fluorescent mitochondrial probe, delta-aminolevulinic acid-induced protoporphyrin IX levels, and porphobilinogen deaminase activity all presented with the same cell-line-dependent rank order among the four different neoplastic cells. This rank order, however, differed for cytochrome c oxidase activity, the final enzyme in mitochondrial electron transport, and for accumulation of radioactive label from [(14)C]delta-aminolevulinic acid. The data demonstrate that enzymes involved in heme biosynthesis, in general, display a rank order associated with mitochondrial content. These data imply that such parameters may have value as prognosticators of cells to produce delta-aminolevulinic acid-induced protoporphyrin IX, a photosensitizer for photodynamic therapy of cancer.
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PMID:Relationship of delta-aminolevulinic acid-induced protoporphyrin IX levels to mitochondrial content in neoplastic cells in vitro. 1055 64

The Harderian gland in rodents highly expresses enzymes of the heme biosynthetic pathway that are responsible for porphyrin production. Interestingly, many of the steps in Harderian gland heme biosynthesis, including protoporphyrin production, are controlled hormonally. We hypothesized that estrogenic alterations, ovariectomy or tamoxifen administration, might also alter the response of porphobilinogen deaminase activity and/or protoporphyrin IX production to delta-aminolevulinic acid administration in the hormonally responsive R3230AC rat mammary adenocarcinoma. We also determined whether the response of the R3230AC tumor, borne on ovariectomized hosts, to delta-aminolevulinic acid-based photodynamic therapy was altered compared with tumors treated on intact hosts. Ovariectomy of female Fischer rats bearing the hormonally responsive R3230AC mammary adenocarcinoma caused a significant reduction in delta-aminolevulinic acid-induced protoporphyrin IX levels and porphobilinogen deaminase activity in tumors compared with levels in tumors from intact animals treated with delta-aminolevulinic acid. In contrast, although porphobilinogen deaminase activity in the Harderian gland from ovariectomized animals was reduced significantly compared with that in glands from intact animals, protoporphyrin IX levels were unaltered. Administration of the anti-estrogen tamoxifen to tumor-bearing rats resulted in a significant increase in porphobilinogen deaminase in both tumor and Harderian gland. Although administration of delta-aminolevulinic acid increased protoporphyrin IX levels in Harderian glands in tamoxifen-treated animals, tumor levels of protoporphyrin IX remained unaltered in the tamoxifen-treated rats. Treatment of R3230AC tumors with delta-aminolevulinic acid-based photodynamic therapy in ovariectomized rats resulted in a significantly reduced response compared with the same treatment regimen in intact animals, 4.9+/-0.39 versus 10.6+/-0.6 days to reach twice the initial tumor volume, respectively. These results indicate that the hormonal status of the host should be considered when treating hormonally sensitive tumors with delta-aminolevulinic acid-based photodynamic therapy.
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PMID:Effect of estrogenic perturbations on delta-aminolevulinic acid-induced porphobilinogen deaminase and protoporphyrin IX levels in rat Harderian glands, liver, and R3230AC tumors. 1057 Dec 58

5-Aminolaevulinic acid (ALA)-induced porphyrin biosynthesis, which is used for ALA-based photodynamic therapy (ALA-PDT), was studied in tissues of 10 patients with Barrett's oesophagus (BE) and adenocarcinoma of the oesophagus (AC) undergoing oesophagectomy at a mean time interval of 6.7 h after the ingestion of ALA (60 mg kg(-1)). In BE, AC, squamous epithelium (SQ) and gastric cardia, the activities of the haem biosynthetic enzymes porphobilinogen deaminase (PBG-D) and ferrochelatase (FC) and the PDT power index--the ratio between PBG-D and FC in BE and AC in comparison with SQ--were determined before ALA ingestion. Following ALA administration, ALA, porphobilinogen, uroporphyrin I and PPIX were determined in tissues and plasma. The PDT power index did not predict the level of intracellular accumulation of PPIX found at 6.7 h. In BE, there was no selectivity of PPIX accumulation compared to SQ, whereas in half of patients with AC selectivity was found. Higher haem biosynthetic enzyme activities (i.e. PBG-D) and lower PPIX precursor concentrations were found in BE and AC compared to SQ. It is therefore possible that PPIX levels will peak at earlier time intervals in BE and AC compared to SQ.
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PMID:Porphyrin biosynthesis in human Barrett's oesophagus and adenocarcinoma after ingestion of 5-aminolaevulinic acid. 1094 4

5-Aminolevulinic acid (ALA)-supported fluorescence endoscopy of the urinary bladder results in a detection rate of bladder cancer superior to that of white light endoscopy. The different accumulation of the metabolite protoporphyrin IX (PPIX) in tumor cells after ALA instillation is poorly understood; however, it is crucial to optimize diagnosis and potential phototherapy. For systematic analysis of cell-type specific PPIX accumulation and metabolism two human bladder carcinoma cell lines (RT4 and J82), a normal urothelial cell line (UROtsa), and a fibroblast cell line (N1) were chosen, and grown in two different growth states to model important tissue components of the urinary bladder, i.e. tumor, normal epithelium and stroma. To quantitate PPIX content, fluorescence intensities measured by flow cytometry were matched with cellular PPIX extraction values, and related to relative ferrochelatase activity, cellular iron content, number of transferrin receptors per cell and porphobilinogen deaminase (PBGD) activity. For in vitro experiments, the initial correlation of relative flow cytometric and spectrometric measurements of PPIX provides a calibration curve for consequent flow cytometric PPIX quantification. Lower fluorescence of normal cells could be explained by significant differences of ferrochelatase activity and iron content in comparison to tumor cells. However, the content of iron was not related to transferrin receptor content. PBGD activity seemed to play a minor role for the differential accumulation of PPIX in urothelial cells. In conclusion, the in vitro culture of urothelial cells and fibroblasts indicates that the most important metabolic step for PPIX accumulation in the urinary bladder is the transition from PPIX to heme. Further investigation of PPIX metabolism does support the validation of photodynamic diagnosis, and might also lead the way to a highly specific tumor related molecule.
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PMID:Cell-type specific protoporphyrin IX metabolism in human bladder cancer in vitro. 1094 77


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