Increased activity of porphobilinogen deaminase in erythrocytes during attacks of acute intermittent porphyria

The activity of porphobilinogen deaminase was determined in 25 patients with acute intermittent porphyria during and after fully developed attacks of porphyria. It was found that in most cases (in 20 of 25) it was higher than 24.3 nmoles/ml erythrocytes/hour, a value considered as characteristic for acute intermittent porphyria, and that it decreased during convalescence and remission. In a proportion of these cases the decrease in the activity of the enzyme was parallelled by decreasing urinary excretion of porphobilinogen. A normal activity of porphobilinogen deaminase during an attack of porphyria can be a source of error in the differential diagnosis of porphyria.     

Molecular and biochemical studies of acute intermittent porphyria in 196 patients and their families

BACKGROUND: Acute intermittent porphyria (AIP) is a metabolic disease with clinical manifestations that mimic other abdominal, neurologic, or mental crises. We studied the diagnostic accuracy of current laboratory tests during an acute attack and in remission. METHODS: Since 1966, we have studied all known Finnish AIP patients (n = 196) and their families (n = 45) and identified the porphobilinogen deaminase (PBGD) mutation in each family. Diagnoses or exclusions of AIP were based on clinical data (including family history), biochemical tests, and in 239 cases, mutation testing. We retrospectively evaluated the diagnostic accuracy of erythrocyte PBGD activity, urinary excretion of porphobilinogen (PBG) and delta-aminolevulinic acid, and urinary and fecal excretion of porphyrins in these patients. RESULTS: Measurement of urinary PBG identified all 35 AIP patients studied during an acute attack. The mean excretion of PBG was 50-fold above the reference interval, although the intraindividual increases were modest (1.6- to 4.0-fold). In the mutation-screened population, urinary PBG analysis identified only 85% of 81 AIP patients studied during remission, but by ROC curve analysis it was nonetheless the best of the biochemical tests. It was increased 相似文献   

Coexistence of Hereditary Coproporphyria with Acute Intermittent Porphyria

A new form of acute hepatic porphyria with double genetic defect—deficiency of porphobilinogen deaminase and coproporphyrinogen oxidase—is described. Among 17 studied family members this double enzymatic deficiency was found in five individuals, deficiency of porphobilinogen deaminase in four, and deficiency of coproporphyrinogen oxidase in two. Only the proband had an attack of porphyria. Apart from the proband, all family members had normal urinary PBG excretion. Increased faecal coproporphyrin excretion was found in three people.

The results obtained suggest that deficiency of porphobilinogen deaminase and coproporphyrinogen oxidase can be inherited independently.     

The porphyrinogenic effects of kryptopyrrole in the rat and the occurrence of urinary kryptopyrrole in human hereditary hepatic porphyria.

1. Kryptopyrrole (2,4-dimethyl-3-ethyl pyrrole) was shown to elevate the urinary porphyrin excretion and the hepatic content of porphyrins in the rat. The simultaneous administration of sigma-aminolaevulinic acid increased these effects. 2. Kryptopyrrole was present in the urine of patients with hereditary hepatic porphyria, in attack and in remission, but not in those with latent porphyria.     

Acute intermittent porphyria. More than just abdominal pain

Acute intermittent porphyria is an unusual syndrome that may be very difficult to differentiate from acute intraabdominal processes. Diagnosis requires the documentation of increased urinary porphobilinogen. Failure to perform appropriate tests early in the attack may necessitate diagnostic laparotomy to rule out intraabdominal catastrophies. Once the diagnosis has been made, treatment with intravenous dextrose aborts most acute episodes. Patients should avoid such triggering factors as fasting and certain drugs. Screening of family members is important to identify latent carriers.     

Urinary excretion of 17-oxosteroids in hereditary coproporphyria.

1. Urinary 17-oxosteroid conjugates were measured by gas-liquid chromatography in five patients with hereditary coproporphyria. 2. Three patients were in an acute attack and showed significantly increased excretion of sulphate or glucuronide conjugates of aetiocholanolone. There was increased excretion of several other related steroids but no consistent pattern was apparent. 3. In the two patients in remission, excretion of urinary 17-oxosteroids was not increased. 4. The ratio of total urinary aetiocholanolone to androsterone (5beta:5alpha) was found to be significantly elevated for the three patients in an acute attack. Serial measurements were made in two of these patients and showed a highly significant linear correaltion between this ratio and the urinary content of delta-aminolaevulic acid and porphobilinogen. 5. These observations suggest the involvement of the 17-oxosteroids, espically aetiocholanolone, in the pathogenesis of hereditary coproporphyria.     

Studies in porphyria. V. Drug oxidation rates in hereditary hepatic porphyria.

The mean plasma half-life (T1/2) of antipyrine was prolonged (21.69 +/- 1.92 hr) in a group of 10 patients with hereditary hepatic porphyria, 8 of whom had acute intermittent porphyria (AIP) confirmed by decreased erythrocyte uroporphyrinogen-1-synthetase (URO-S) activities and 2 of whom had mixed hepatic porphyria, in comparison to the mean of 20 normal control subjects (12.65 +/- 0.86 hr, p less than 0.01). Antipyrine T1/2 was especially prolonged in patients with a history of more severe symptoms, but there was no correlation with the degree of elevation in urinary excretion of the porphyrin precursors delta-aminolevulinic acid (ALA) and porphobilinogen (PBG). In 7 completely latent carriers of the AIP gene defect who had normal urinary ALA and PBG levels, the elimination rates of antipyrine from plasma were entirely normal. Phenylbutazone T1/2s were normal in 10 porphyric patients tested. These results demonstrate that the cytochrome P-450-dependent enzyme system for oxidizing antipyrine, but not that for phenylbutazone, is impaired in some AIP individuals in whom the gene defect for the disorder is clinically expressed and that this impairment may be related to the severity of the disease. The partial decrease in URO-S activity characteristic of AIP does not result in a profound or generalized decrease in hepatic cytochrome P-450 function, however, even when there is sufficient derangement in the hepatic heme biosynthetic pathway to lead to excessive excretion of chemical intermediates in the pathway.     

"Glucose effect" and rate limiting function of uroporphyrinogen synthase on porphyrin metabolism in hepatocyte culture: relationship with human acute hepatic porphyrias

The effect of glucose on drug-promoted induction of porphyrin synthesis was studied in chick embryo liver cell culture with and without the addition of exogenous delta-aminolaevulinic acid (ALA). Induction of ALA synthase was abolished by haemin or glucose. Less than 10% of porphobilinogen is converted into protoporphyrin. Protoporphyrin synthesis cannot be enhanced by high ALA concentrations. The conversion of exogenous ALA into porphyrins decreases with increasing concentrations of ALA from 0.1 to 2.0 mmol/l, whereas porphobilinogen accumulates, thus reflecting the rate limiting function of uroporphyrinogen synthase, which is not influenced by glucose. This needle-eye-like function of uroporphyrinogen synthase within the porphyrin biosynthetic chain explains the urinary increase of ALA and porphobilinogen in the acute phase of variegate and coproporphyria, similar to that in acute intermittent porphyria. The "glucose effect" was also investigated in vivo in humans in 32 courses of hereditary acute hepatic porphyrias (acute intermittent porphyria, variegate porphyria, coproporphyria and porphobilinogen synthase defect porphyria). Patients were treated with high carbohydrate intake (approximately 500 g/24 h), mainly in the form of glucose infusions. There was a resulting consistent and highly significant decrease of porphyrin biosynthesis metabolites, accompanied by clinical improvement in most of the patients.     

Clinical usefulness of cimetidine for the treatment of acute intermittent porphyria--a preliminary report

A 43-yr-old man with abdominal fullness was treated with oral cimetidine during remission of acute intermittent porphyria. Urinary prophobilinogen and porphyrins were not altered by the treatment, but urinary delta-aminolevulinic acid decreased, and abdominal fullness disappeared. Thus, cimetidine may control acute intermittent porphyria by inhibiting hepatic delta-aminolevulinic acid synthetase.     

Erythropoietin treatment in the neuropsychiatric porphyrias

BACKGROUND: In a previous report, 31 patients with neuropsychiatric porphyria were studied and nine of these patients were anaemic in association with inappropriately low serum erythropoietin levels. We were also able to demonstrate that treatment with erythropoietin in non-porphyric patients (mainly diabetic patients with autonomic neuropathy) significantly reduced urinary delta-aminolaevulinic acid levels. METHODS: We treated six porphyric patients, five of whom were anaemic, with recombinant human erythropoietin (1000-2000 IU thrice weekly). They were all in clinical but not biochemical remission. Full blood count, including reticulocytes and platelets, urinary delta-aminolaevulinic acid, porphobilinogen and total porphyrins were measured monthly. Baseline serum ferritin, vitamin B(12), folate and C-reactive protein levels were all within the normal range and serum creatinine did not exceed 126 micromol/l. RESULTS: After 3 months of treatment, the average baseline haemoglobin increased significantly (p=0.01). When treatment was stopped, the haemoglobin decreased and after 3 months pre-treatment, haemoglobin levels were reached. Urinary delta-aminolaevulinic acid, porphobilinogen and porphyrin levels all tended to decrease during treatment with erythropoietin, but the difference between baseline and 3 months of erythropoietin was statistically significant only for porphobilinogen (p=0.03). The severity of porphyria attacks was reduced and the quality of life increased during treatment with erythropoietin. CONCLUSION: We conclude that in some porphyric patients treatment with erythropoietin reduces urinary delta-aminolaevulinic acid, porphobilinogen and porphyrin levels with an increase in well-being and a reduction in the severity of porphyria attacks.     

The measurement of the synthetic rate of bilirubin from hepatic hemes in patients with acute intermittent porphyria

A new method for the direct measurement in vivo of the synthetic rate of bilirubin from hepatic hemes is proposed. This method depends on the application of the labeled precursor-product relationship to the hepatic pool of porphobilinogen, which is a common precursor of both urinary porphobilinogen and hepatic-synthesized bilirubin. The hepatic pool of porphobilinogen is labeled by means of an intravenous injection of delta-aminolevulinic acid-4-(14)C. The proportion of total bilirubin production which is derived from hepatic hemes is calculated from the ratio of the mean (14)C specific activities of stercobilin and porphobilinogen estimated in pooled specimens of feces and urine, respectively. The method can be most readily applied to patients with acute intermittent porphyria, as the appreciable quantities of prophobilinogen in the urine of these patients greatly facilitate the measurement of porphobilinogen-(14)C specific activity. In three patients with acute intermittent porphyria, values obtained for the synthetic rate of bilirubin from hepatic hemes were 20.7, 15.8, and 13.3% of total bilirubin production.     

Immunological determination of porphobilinogen deaminase as a diagnostic measure in acute intermittent porphyria

Manifest disease symptoms of acute intermittent porphyria may be provoked by several external factors. Latent gene carriers should be identified at an early stage and informed about preventive measures. Porphobilinogen deaminase activity in red blood cells may be used as one indicator of the carrier state. However, there is an overlap of enzyme activity between healthy controls and carriers of the trait. Thus latent gene carriers cannot always be identified. In the present study a recently reported enzyme-linked immunosorbent assay (ELISA) was used to quantify the concentration of the enzyme porphobilinogen deaminase in erythrocytes in 845 individuals belonging to families with acute intermittent porphyria. Using previous available diagnostic methods 417 of them had been diagnosed as gene carriers, 339 as non-carriers, and 89 were of "uncertain" classification. Of those with "uncertain" diagnosis, 19 had a decreased concentration of porphobilinogen deaminase and could thus be diagnosed as gene carriers. However, 70 cases of the 89 were still "uncertain", which underlines the need for further improvement of the diagnostic methods.     

AAV8-mediated Gene Therapy Prevents Induced Biochemical Attacks of Acute Intermittent Porphyria and Improves Neuromotor Function

Acute intermittent porphyria (AIP), an autosomal dominant hepatic porphyria due to half-normal hydroxymethylbilane synthase (HMB-synthase) activity, is manifested by life-threatening acute neurological attacks that are precipitated by factors that induce heme biosynthesis. The acute attacks are currently treated with intravenous hemin, but a more continuous therapy is needed, particularly for patients experiencing frequent attacks. Thus, a recombinant AAV8-based serotype vector expressing murine HMB-synthase driven by liver-specific regulatory elements was generated and its effectiveness to prevent the biochemical induction of an acute attack was evaluated in an AIP mouse model. Intraperitoneal administration of the adeno-associated viral (AAV) vector resulted in a rapid and dose-dependent increase of HMB-synthase activity that was restricted to the liver. Stable expression of hepatic HMB-synthase was achieved and wild-type or greater levels were sustained for 36 weeks. When heme synthesis was periodically induced by a series of phenobarbital injections, the treated mice did not accumulate urinary δ-aminolevulinic acid (ALA) or porphobilinogen (PBG), indicating that the expressed enzyme was functional in vivo and prevented induction of the acute attack. Further, rotarod performance and footprint analyses improved significantly. Thus, liver-directed gene therapy provided successful long-term correction of the hepatic metabolic abnormalities and improved neuromotor function in the murine model of human AIP.     

Effects of sodium valproate on haem biosynthesis in man: implications for seizure management in the porphyric patient

The short-term effects of sodium valproate (VPA) on haem biosynthesis were assessed in a placebo-controlled crossover trial in eight healthy male subjects who ingested VPA 500 mg t.i.d. and matched placebo for 5 days. All showed augmented activity of leucocyte 5-aminolaevulinate synthase (ALA-S) activity, the rate-limiting enzyme of the haem biosynthetic pathway, following 3 and 5 days of VPA treatment (P less than 0.001). This was accompanied by increased urinary excretion of 5-aminolaevulinic acid (ALA; P less than 0.02) and total porphyrins (P less than 0.01). Mean (+/- SD) total VPA concentrations on day 3 (89 +/- 16 mg 1-1) and day 5 (91 +/- 22 mg 1-1) were within the target range for the drug. The long-term effects of VPA administration were examined in epileptic patients on established monotherapy. Leucocyte ALA-S activity (P less than 0.001), and daily urinary excretion of porphobilinogen (P less than 0.01) and total porphyrins (P less than 0.01) were all higher than in age-matched controls. No significant differences in erythrocyte ALA-dehydratase, porphobilinogen deaminase and uroporphyrinogen decarboxylase activities were found between the groups. These data suggest that VPA is porphyrinogenic in man and cannot be recommended as safe for seizure management in the porphyric patient.     

Denaturing gradient gel electrophoresis for rapid detection of latent carriers of a subtype of acute intermittent porphyria with normal erythrocyte porphobilinogen deaminase activity.

Acute intermittent porphyria is an autosomal dominant disorder defined by a partial deficiency of porphobilinogen deaminase (EC 4.3.1.8). Clinical manifestations of the disease are characterized by acute attacks of neurological dysfunction often linked to environmental factors. Early diagnosis of gene carriers is important in the prevention of attacks and is usually achieved by determining the porphobilinogen deaminase activity in erythrocytes. However, in a subtype of acute intermittent porphyria, the enzymatic defect is restricted to nonerythropoietic cells. Different mutations have already been described that account for this phenotype in two unrelated families. We previously detected asymptomatic carriers by using mutation-specific probes after in vitro amplification of the target DNA sequence. In this study, we investigated the DNA of eight unrelated subjects with the same subtype of acute intermittent porphyria by using the polymerase chain reaction, with subsequent analysis of the amplified products by denaturing gradient gel electrophoresis. Five of these patients shared the same single-base change. This technique was quite simple and efficient for detecting asymptomatic carriers. Importantly, it is potentially useful for studying families with the same phenotypic subtype of the disease and possibly different mutations in the same DNA region.     

Mutations in acute intermittent porphyria detected by ELISA measurement of porphobilinogen deaminase

To study the existence of different mutations in acute intermittent porphyria, erythrocyte porphobilinogen deaminase activity and enzyme protein concentration were investigated in 125 porphyria gene carriers from 31 families, and in 121 apparently healthy controls. Porphobilinogen deaminase concentration (micrograms/gHb) was quantified using a recently developed double-sandwich ELISA. The ratio of enzyme catalytic activity to the concentration of enzyme protein was expressed as the porphobilinogen specific activity (nkat/g). The controls had a mean porphobilinogen deaminase concentration of 160 +/- 35 micrograms/gHb and a specific activity of 762 +/- 127 nkat/g. Two different types of mutation causing acute intermittent porphyria were detected. The majority (91%) of gene carriers, from 25 families, had a diminished porphobilinogen deaminase concentration of 102 +/- 18 micrograms/gHb, with a slightly lowered specific activity of 634 +/- 105 nkat/g. In 9% of the gene carriers, representing six different families, an increase in porphobilinogen deaminase concentration to 269 +/- 46 micrograms/gHb, and a highly significant reduction in specific activity to 234 +/- 48 nkat/g, were found, which indicates the presence of a different mutation.     

New form of dual porphyria: coexistent acute intermittent porphyria and porphyria cutanea tarda

A previously unrecognized form of dual porphyria has been identified in four patients. One male and one female with acute symptoms were diagnosed as having acute intermittent porphyria (AIP), and two males with cutaneous and acute symptoms were diagnosed as having porphyria cutanea tarda (PCT). Biochemically, the excretion of haem precursors showed a complex constellation, with signs characteristic of both AIP and PCT. In one male, a clinical course with both overt PCT and acute manifestations of AIP was observed. Enzyme studies of haem biosynthesis in erythrocytes revealed a dual deficiency, with decreased activity of both porphobilinogen deaminase, as seen in AIP, and uroporphyrinogen decarboxylase, as seen in PCT. A family study showed that the two disorders do not consistently segregate together. These findings suggest that the dual porphyria reflects a double heterozygous condition of coexistent AIP and PCT genes in the same subject.     

Effect of Lead on Hepatic δ-Aminolaevulinic Acid Synthetase Activity in the Rat: A Model for Drug Sensitivity in Intermittent Acute Porphyria*

The hereditary hepatic porphyrias are disorders of porphyrin and haem synthesis characterized by a marked idiosyncrasy towards a variety of lipid soluble drugs. Most of these agents are inducers of the haemoprotein cytochrome P 450, the terminal oxidase in drug metabolism. The primary genetic defect in intermittent acute porphyria is a partial deficiency of uroporphyrinogen I synthetase, which may result in a secondary derepression of 6-aminoaevulinic acid synthetase, the rate-limiting enzyme in the haem pathway. Analogous defects at more distant sites may explain the other hereditary hepatic porphyrias. As drug sensitivity may be related to the defect in haem synthesis, we investigated the effects of experimental partial blocks in haem synthesis produced by lead in rats. Drug effects on δ-aminolaevulinic acid synthetase, cytochrome P 450, and drug metabolism were studied. Our findings indicate: a) While partial impairment of haem biosynthesis has only minor effects on 6-aminolaevulinic acid synthetase activity, it greatly enhances the sensitivity of 6-aminolaevulinic acid synthetase to induction by drugs and steroids, which when given alone, have little or no inducing effect on the enzyme. b) The experimental partial block in haem synthesis delays and impairs drug-mediated induction cytochrome P450 and drug metabolism in vitro. The findings may explain why a large number of structurally unrelated compounds with little effect on normal liver can precipitate “acute porphyria”.     

Catecholamine Uptake, Accumulation, and Release in Acute Porphyria

Hypertension and tachycardia are well known features of acute porphyria and have been shown to be related to increased circulating catecholamines. The mechanism by which circulating catecholamines are increased was studied using the isolated perfused rat heart and human platelets as a model of adrenergic neuronal function. It was found that neither δ-aminolevulinate (ALA) nor porphobilinogen (PBG) blocked uptake or caused release in the isolated perfused rat heart. Platelets from six patients with acute prophyria, three in remission and three latent, with matching normal controls were studied with regard to their uptake of [³H]norepinephrine in the presence of ALA or PBG. It was found that ALA and PBG significantly reduced uptake and accumulation of [³H]-norepinephrine in patients with acute porphyria; however, no similar reduction in uptake and accumulation was observed in the platelets of normal controls. Therefore, it appears that there is a latent defect in the catecholamine uptake and (or) accumulation of platelets of patients with acute prophyria which only manifests itself in the presence of ALA or PBG. If platelet uptake serves as a model of adrenergic neuron uptake, this suggests that elevated circulating catecholamine levels during acute attacks of acute porphyria are caused at least partially by blockade of re-uptake into the sympathetic neurons.     

Circulating fluorocytes at the first attack of acute intermittent porphyria: A missing link in the pathogenesis

BackgroundAcute intermittent porphyria (AIP) is an autosomal dominant disorder of the haem biosynthesis resulting from a partial deficiency of hydroxymethylbilane synthase (HMBS) with incomplete penetrance. By conventional means, it is able to identify asymptomatic mutation carrier by molecular diagnosis, but one cannot reliably predict an acute porphyric attack. The presence of fluorescent red cells (fluorocytes) in AIP is probably under-recognized since AIP is a hepatic porphyria and not associated with photosensitivity.MethodsWe used an automatic image acquisition platform to detect the circulating fluorocytes at 700 nm emission in a diabetic AIP patient during acute attack. We screened the patient and her family members for the mutation on HMBS, urine porphobilinogen and circulating fluorocytes.ResultsThe patient was heterozygous for a disease-causing mutation on HMBS and several bright circulating fluorocytes were detected. We showed evidence that protoporphyrin contributed to the erythrocyte auto-fluorescence. Interestingly, asymptomatic mutation carriers with increased urine porphobilinogen did not have circulating fluorocytes. All mutation-negative family members revealed no circulating fluorocytes.ConclusionSudden decrease in plasma glucose concentration might invoke acute attack of AIP and appearance of circulatory fluorocytes. Potential of detecting fluorocytes as screening test or for predicting an acute attack of AIP in diabetes is worth investigating.