Stability of porphyrins and porphyrin precursors in urine and plasma samples: implications for sample handling and storage.

The porphyrias are rare disorders of haem biosynthesis. Diagnosis requires demonstrating increased porphyrins or porphyrin precursors in blood, urine and faeces. Patients may only be investigated once, and therefore, understanding the preanalytical factors affecting the reliability of results is crucial. Guidance for sample handling exists, but published evidence regarding the stability of porphyrins and their precursors is limited. The aim of this study was to evaluate the effect of light exposure and different storage temperatures on analyte stability for measurement of urinary aminolaevulinic acid and porphobilinogen, total urine porphyrin and plasma porphyrin. Our results confirm that all samples should be protected from light. Results from samples exposed to light for greater than 4 hours should be interpreted with caution and repeat samples requested. If transported to a specialist laboratory, samples should be stored at 4°C before transport. Transit time at ambient temperatures should be less than 24 hours.

Protocolo de actuación en pacientes con sospecha de porfiria aguda / Protocol for patients with suspected acute porphyria

Las porfirias son errores congénitos del metabolismo de las porfirinas o ruta biosintética del hemo. El acúmulo de los precursores de las porfirinas, ácido delta aminolevulínico (ALA) y/o porfobilinógeno (PBG) es responsable de las crisis neuroviscerales de las porfirias agudas que cuando se expresan clínicamente se inician con intenso dolor abdominal. Durante las crisis la eliminación urinaria de PBG y ALA siempre es muy elevada. La excesiva concentración de PBG en orina es fácilmente identificable mediante el sencillo test de Hoesch. Un test negativo descarta crisis porfírica actual. El protocolo de actuación en pacientes con dolor abdominal agudo no filiado en los que el test de Hoesch positivo permite la sospecha de porfiria aguda se basa en los siguientes aspectos: valoración clínica inicial en el servicio de urgencias, supresión de los posibles factores desencadenantes, tratamiento específico de la crisis con hemina y/o sobrecarga de glucosa y tratamiento sintomático

Porphyrias are a group of congenital errors in porphyrin metabolism and in the heme biosynthetic pathway. Accumulation of porphyrin precursors (delta-aminolaevulinic acid and porphobilinogen) is responsible for the neurovisceral crises of acute porphyria, which, when expressed clinically, start with intense abdominal pain. During crises, the urinary elimination of porphobilinogen and delta-aminolaevulinic acid is always very high. Excessive porphobilinogen concentration in urine is easily identified using the simple Hoesch test. A negative test rules out a current porphyric crisis. The clinical protocol for patients with acute abdominal pain of unknown origin in whom a positive Hoesch test leads to the suspicion of acute porphyria is based on the following aspects: initial clinical assessment in the emergency department, suppression of potential triggers, specific treatment for the crisis with hemin and/or glucose overload and symptomatic treatment

Clinical Guide and Update on Porphyrias.

Physicians should be aware of porphyrias, which could be responsible for unexplained gastrointestinal, neurologic, or skin disorders. Despite their relative rarity and complexity, most porphyrias can be easily defined and diagnosed. They are caused by well-characterized enzyme defects in the complex heme biosynthetic pathway and are divided into categories of acute vs non-acute or hepatic vs erythropoietic porphyrias. Acute hepatic porphyrias (acute intermittent porphyria, variegate porphyria, hereditary coproporphyria, and aminolevulinic acid dehydratase deficient porphyria) manifest in attacks and are characterized by overproduction of porphyrin precursors, producing often serious abdominal, psychiatric, neurologic, or cardiovascular symptoms. Patients with variegate porphyria and hereditary coproporphyria can present with skin photosensitivity. Diagnosis relies on measurement of increased urinary 5-aminolevulinic acid (in patients with aminolevulinic acid dehydratase deficient porphyria) or increased 5-aminolevulinic acid and porphobilinogen (in patients with other acute porphyrias). Management of attacks requires intensive care, strict avoidance of porphyrinogenic drugs and other precipitating factors, caloric support, and often heme therapy. The non-acute porphyrias are porphyria cutanea tarda, erythropoietic protoporphyria, X-linked protoporphyria, and the rare congenital erythropoietic porphyria. They lead to the accumulation of porphyrins that cause skin photosensitivity and occasionally severe liver damage. Secondary elevated urinary or blood porphyrins can occur in patients without porphyria, for example, in liver diseases, or iron deficiency. Increases in porphyrin precursors and porphyrins are also found in patients with lead intoxication. Patients with porphyria cutanea tarda benefit from iron depletion, hydroxychloroquine therapy, and, if applicable, elimination of the hepatitis C virus. An α-melanocyte-stimulating hormone analogue can reduce sunlight sensitivity in patients with erythropoietic protoporphyria or X-linked protoporphyria. Strategies to address dysregulated or dysfunctional steps within the heme biosynthetic pathway are in development.

Porfiria aguda intermitente con debut en el puerperio / Acute intermittent porphyria with debut in the puerperium

RESUMEN Objetivo: Las porfirias son trastornos que resultan de un defecto enzimático específico en la vía bioquímica de las porfirias. Los síntomas clínicos incluyen dolor abdominal, alteraciones gastrointestinales y manifestaciones psiquiátricas. Material y métodos: Mujer de 41 años, con diabetes gestacional y parto por cesárea hace 7 días, que acude a urgencias con convulsiones tónicoclónicas. En tratamiento antibiótico por infección de la herida quirúrgica. Los exámenes de laboratorio demostraron hiponatremia, hipokalemia y anemia. El diagnóstico de porfiria aguda intermitente (PAI) fue confirmado por el hallazgo de porfirinas elevadas en orina. La paciente fue dada de alta después de dos semanas. Resultados: se solicita un test rápido de PBG cuantitativo en orina, que resulta positivo (>10 mg PBG / g creatinina), por lo que se solicita un estudio completo de la enfermedad y se envían muestras a un hospital de referencia para análisis bioquímico y genético de PBGD/HMBS (Hidroximetilbilano sintetasa /PBG-desaminasa). Presenta la mutación c.815_818 del AGGA, que se trasmite de forma autosómica dominante, aunque con baja penetrancia. Conclusión: El diagnóstico de PAI es complejo debido al amplio espectro de síntomas, además el embarazo y el puerperio puede exacerbar la enfermedad.

SUMMARY Objective: Porphyrias are a heterogeneous group of either inherited or acquired disorders of the enzymatic biosynthesis of porphyrins. In these diseases, specific abnormalities of enzymes cause diverse clinical manifestations including abdominal pain, gastrointestinal alterations and psychiatric manifestations. Materials and methods: A 41-year-old woman with gestational diabetes and cesarean delivery 7 days ago with intradural anesthesia. She was admitted with tonic clonic seizures and diffuse abdominal pain. She is under antibiotic treatment for infection of the surgical wound. Laboratory exams showed hyponatremia, hypokalemia and anemia. A diagnosis of acute intermittent porphyria was confirmed with elevated porphyrinis in urine. Results: a rapid test of quantitative PBG in urine is permormed, which is positive (>10 mg PBG / g creatinin), so a complete study of the disease is requested and samples are sent to a reference hospital for biochemical and genetic analysis of PBGD / HMBS (Hydroxymethylbilane synthetase / PBG-deaminase). It presents the c.815_818 mutation of the AGGA, which is transmitted in an autosomal dominant manner, although with low penetrance. Conclusion: The diagnosis of acute intermittent porphyria is complex because of the wide spectrum of symptoms. Pregnancy or the puerperium might exacerbate the disease

Best practice guidelines on first-line laboratory testing for porphyria.

The porphyrias are disorders of haem biosynthesis which present with acute neurovisceral attacks or disorders of sun-exposed skin. Acute attacks occur mainly in adults and comprise severe abdominal pain, nausea, vomiting, autonomic disturbance, central nervous system involvement and peripheral motor neuropathy. Cutaneous porphyrias can be acute or chronic presenting at various ages. Timely diagnosis depends on clinical suspicion leading to referral of appropriate samples for screening by reliable biochemical methods. All samples should be protected from light. Investigation for an acute attack: • Porphobilinogen (PBG) quantitation in a random urine sample collected during symptoms. Urine concentration must be assessed by measuring creatinine, and a repeat requested if urine creatinine <2 mmol/L. • Urgent porphobilinogen testing should be available within 24 h of sample receipt at the local laboratory. Urine porphyrin excretion (TUP) should subsequently be measured on this urine. • Urine porphobilinogen should be measured using a validated quantitative ion-exchange resin-based method or LC-MS. • Increased urine porphobilinogen excretion requires confirmatory testing and clinical advice from the National Acute Porphyria Service. • Identification of individual acute porphyrias requires analysis of urine, plasma and faecal porphyrins. Investigation for cutaneous porphyria: • An EDTA blood sample for plasma porphyrin fluorescence emission spectroscopy and random urine sample for TUP. • Whole blood for porphyrin analysis is essential to identify protoporphyria. • Faeces need only be collected, if first-line tests are positive or if clinical symptoms persist. Investigation for latent porphyria or family history: • Contact a specialist porphyria laboratory for advice. Clinical, family details are usually required.

The severity of hereditary porphyria is modulated by the porphyrin exporter and Lan antigen ABCB6.

Hereditary porphyrias are caused by mutations in genes that encode haem biosynthetic enzymes with resultant buildup of cytotoxic metabolic porphyrin intermediates. A long-standing open question is why the same causal porphyria mutations exhibit widely variable penetrance and expressivity in different individuals. Here we show that severely affected porphyria patients harbour variant alleles in the ABCB6 gene, also known as Lan, which encodes an ATP-binding cassette (ABC) transporter. Plasma membrane ABCB6 exports a variety of disease-related porphyrins. Functional studies show that most of these ABCB6 variants are expressed poorly and/or have impaired function. Accordingly, homozygous disruption of the Abcb6 gene in mice exacerbates porphyria phenotypes in the Fech(m1Pas) mouse model, as evidenced by increased porphyrin accumulation, and marked liver injury. Collectively, these studies support ABCB6 role as a genetic modifier of porphyria and suggest that porphyrin-inducing drugs may produce excessive toxicities in individuals with the rare Lan(-) blood type.

[Diagnosis of the porphyrias : From A (as in aminolevulinic acid) to Z (as in zinc protoporphyrin)]. / Diagnostik der Porphyrien : Von A (wie Aminolävulinsäure) bis Z (wie Zink-Protoporphyrin).

The porphyrias comprise a clinically, biochemically, and genetically heterogeneous group of predominantly hereditary metabolic disorders resulting from a dysfunction along the heme biosynthetic pathway. Whereas most variants can manifest with different cutaneous symptoms, some types only reveal life-threatening acute neurovisceral attacks. Therefore, interdisciplinary care of these patients is advisable. In this article, we provide an overview of characteristic clinical and laboratory findings in the various forms of porphyria and a diagnostic algorithm.

[ALLELES C282Y AND H63D HFE GENE, INSULIN RESISTANCE AND SUSCEPTIBILITY TO DISTURBANCE OF PORPHYRIN METABOLISM IN NON-ALCOHOLIC FATTY LIVER DISEASE].

THE PURPOSE OF THE STUDY: The aim of the present work was to study the frequency of genotypes and alleles of C282Y and H63D HFE gene that may be associated with impaired porphyrin metabolism, as well as possible reasons for the formation of dysmetabolism porphyrins with NAFLD. MATERIALS AND METHODS: The study involved 65 patients (52 men and 13 women) aged 21 to 69 years (mean age 48.5±1.5 years). Excretion uroporphyrin, coproporphyrin, 6-aminolevulinic acid of porphobilinogen in urine was determined by chromatography and spectrophotometry calculated total excretion of porphyrins. Allele frequencies C282Y and H63D were determined during the molecular genetic analysis of DNA using the polymerase chain reaction followed by analysis of length polymorphism restraktsionnyh fragments. Condition of carbohydrate metabolism was evaluated by the level of fasting blood glucose and standard glucose tolerance test. Diagnosis of insulin resistance was performed according to the criteria proposed by the European Group for the Study of insulin resistance (EGIR). RESULTS: Skill test for the C282Y mutation carriage and H63D in the HFE gene in 65 patients with non-alcoholic fatty liver disease. Disturbances in the metabolism of porphyrins were recorded in 43 (66.2%) patients. H63D and C282Y mutations were found in 18 (27.7%) patients, of whom 13 (72.2%) people with different options dismetabolism porphyrins and signs of insulin resistance. In 47 (72.3%) patients without mutations studied porphyrin metabolism disorders were detected in 30 (63.8 %), of which insulin resistance is registered only in 16 (34.0 %). CONCLUSION: Detection of mutations C282Y and H63D in the HFE gene in combination with disorders of porphyrin metabolism on the background of insulin resistance is likely to allow such patients considered as candidates for inclusion in the higher risk of formation of diabetes.

Spectrophotometric quantification of total urinary porphyrins as a screening test for porphyrias: threshold value revisited.

OBJECTIVES: The quantification of total urinary porphyrins based on spectrophotometry or spectrofluorimetry is a key screening test in cutaneous or mixed porphyria, performed before the quantitative fractionation of porphyrin isomers by chromatography. The aim of the present study was to determine the best threshold value for a spectrophotometric screening test and to estimate its diagnostic performances. DESIGN AND METHODS: Data from samples sent to the laboratory between January 2006 and July 2013 from patients with a suspicion of cutaneous or mixed porphyria were retrospectively collected. The final diagnosis was based on the clinical presentation and biochemical results performed on appropriate specimens. Control samples were obtained from 91 non-porphyria patients and 58 healthy individuals and patient samples were obtained from 38 patients with symptomatic porphyria. The sensitivity and specificity of the spectrophotometric screening test were calculated at different cutoff values expressed in nmol/L and nmol/mmol creatinine using receiver operator curves. RESULTS AND CONCLUSION: A threshold of 18.8nmol/mmol creatinine was considered as the best cutoff value for the screening test, achieving a sensitivity of 100% and a specificity of 93.2%.

[The laboratory diagnostics of disorders of porphyrin metabolism: a lecture].

The lecture presents data concerning biosynthesis of haem and mechanisms of its regulation in bone marrow and liver. The basic pathogenic mechanisms of porphyrias development and their classification are exposed. The optimal list of laboratory tests to diagnose porphyrias is presented. The role and significance of various laboratory analysis techniques to diagnose porphyrias are demonstrated. The technology of laboratory analysis in case of porphyria suspicion is described.

Ultra high-performance liquid chromatography of porphyrins.

An ultra high-performance liquid chromatographic (UHPLC) system was developed and optimized for the separation of porphyrins of clinical interest. Optimum conditions for the simultaneous separation of uroporphyrin, hepta-, hexa-, penta-carboxylic acid porphyrins and coproporphyrin and their type I and III isomers on a Thermo Hypersil BDS C18 column (2.4 µm particle size, 100 × 2.1 mm i.d.) using a gradient elution with 10% (v/v) acetonitrile in 1.0 m ammonium acetate buffer (pH 5.16) and 10% (v/v) acetonitrile in methanol at a flow-rate of 0.4 mL/min. The effect of mobile phase buffer molarity on the sensitivity of fluorescence detection and resolution of porphyrin isomers was investigated. The method was successfully applied to the analysis of porphyrins extracted from the urine and faeces of patients with various human porphyrias.

[Clinical and biochemical syndromes of cadmium-induced acute porphyrinopathy].

AIM: To study the specific features of porphyrin metabolic disturbances in cadmium poisoning. MATERIAL AND METHODS: The paper describes a patient who has developed clinical and biochemical syndromes of acute porphyrinopathy after exposure to cadmium-containing paint the vapors. The levels of delta-aminolevulinic acid, porphobilinogen, coproporphyrin, and uroporphyrin in urine and those of coproporphyrin and protoporphyrin in feces were measured. The concentrations of lead, cadmium, and copper were determined in whole blood and urine; selective screening of amino acids for hereditary metabolic diseases was made. RESULTS: The clinical signs of acute porphyrinopathy developed in the patient mimicked those of acute porphyries known by the current classification. The biochemical syndrome more corresponded to lead poisoning. However, the blood and urinary lead levels were not greater than the normal values, but the blood showed a 4-fold increase in cadmium, which seemed to induce porphyrin dysmetabolism.

Porphyrinuria in childhood autistic disorder: implications for environmental toxicity.

To address a possible environmental contribution to autism, we carried out a retrospective study on urinary porphyrin levels, a biomarker of environmental toxicity, in 269 children with neurodevelopmental and related disorders referred to a Paris clinic (2002-2004), including 106 with autistic disorder. Urinary porphyrin levels determined by high-performance liquid chromatography were compared between diagnostic groups including internal and external control groups. Coproporphyrin levels were elevated in children with autistic disorder relative to control groups. Elevation was maintained on normalization for age or to a control heme pathway metabolite (uroporphyrin) in the same samples. The elevation was significant (P < 0.001). Porphyrin levels were unchanged in Asperger's disorder, distinguishing it from autistic disorder. The atypical molecule precoproporphyrin, a specific indicator of heavy metal toxicity, was also elevated in autistic disorder (P < 0.001) but not significantly in Asperger's. A subgroup with autistic disorder was treated with oral dimercaptosuccinic acid (DMSA) with a view to heavy metal removal. Following DMSA there was a significant (P = 0.002) drop in urinary porphyrin excretion. These data implicate environmental toxicity in childhood autistic disorder.

Effect of antiepileptic drugs on the urinary excretion of porphyrins in non-porphyric subjects.

The action of some anticonvulsant drugs as the causal agents of attacks of acute porphyria has been widely documented in the literature. However, little attention has been paid to the effect of these drugs on the urinary excretion of porphyrins in non-porphyric subjects. In a sample of 82 epileptic patients treated with phenobarbital (n = 54), phenytoin (n = 64), carbamazepine (n = 33), and valproate (n = 8), the daily doses were expressed according to a drug score that would reflect the capacity of these drugs as enzymatic inducers when administered in polytherapy. A significantly increased urinary excretion of D-glucaric acid (DGA) and porphyrins was found in this group of patients (P<0.001), with coproporphyrin being the major fraction in all cases (>60%). Urinary DGA had a highly significant correlation with the drug score (r = 0.783, P<0.001); however, no significant correlations were found between the urinary porphyrins and DGA (r = 0.005) or the drug score (r = 0.053). Neither was any significant relationship found between the urinary porphyrins and the serum activity of 5'-nucleotidase (r = 0.066) or the presence of a cholestasis objectivized through the presence of the isoform of gamma-glutamyltransferase with beta-globulins electrophoretic mobility. However, in a group of 10 patients a significant correlation was found between the urinary excretion of porphyrins and beta-N-acetylhexosaminidase (r = 0.790, P<0.01). Therefore, it does not appear that the liver enzyme induction, or even a subclinical cholestasis, produced by the antiepileptic drugs administered to these patients may serve to explain the increase in the urinary excretion of porphyrins. A possible renal origin is proposed for the increase of urinary porphyrins in these cases.

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.

[Hemopyrrollactamuria (HPU); from spots to pseudo-disease]. / Hemopyrrollactamurie (HPU); van vlek naar pseudo-ziekte.

In recent years, patients in the Netherlands confront their doctors with the diagnosis 'haemopyrollactamuria' (HPU), based on the presence of the haemopyrrollactam complex in their urine. The diagnosis is made by a commercial laboratory in the Netherlands (www.keac.nl). We have not been able to find peer-reviewed scientific literature on this metabolic disease. The haemopyrrollactam complex represents the so-called mauve spot, which was the subject of much controversy in schizophrenia research in the previous century. Reviewing all of the available data, we feel that HPU should be classified as a pseudo-disease.