Kaisa Timonen scite author profile

Variegate porphyria (VP) is an inherited metabolic disease resulting from the partial deficiency of protoporphyrinogen oxidase, the penultimate enzyme in the heme biosynthetic pathway. We have evaluated the clinical and biochemical outcome of 103 Finnish VP patients diagnosed between 1966 and 2001. Fifty-two per cent of patients had experienced clinical symptoms: 40% had photosensitivity, 27% acute attacks and 14% both manifestations. The proportion of patients with acute attacks has decreased dramatically from 38 to 14% in patients diagnosed before and after 1980, whereas the prevalence of skin symptoms had decreased only subtly from 45 to 34%. We have studied the correlation between PPOX genotype and clinical outcome of 90 patients with the three most common Finnish mutations I12T, R152C and 338G?C. The patients with the I12T mutation experienced no photosensitivity and acute attacks were rare (8%). Therefore, the occurrence of photosensitivity was lower in the I12T group compared to the R152C group (P=0.001), whereas no significant differences between the R152C and 338G?C groups could be observed. Biochemical abnormalities were significantly milder suggesting a milder form of the disease in patients with the I12T mutation. In all VP patients, normal excretion of protoporphyrin in faeces in adulthood predicted freedom from both skin symptoms and acute attacks. The most valuable test predicting an increased risk of symptoms was urinary coproporphyrin, but only a substantially increased excretion exceeding 1000 nmol/day was associated with an increased risk of both skin symptoms and acute attacks. All patients with an excretion of more than 1000 nmol/day experienced either skin symptoms, acute attacks, or both.

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Sustained high plasma 5‐aminolaevulinic acid concentration in a volunteer: no porphyric symptoms

Mustajoki

Timonen²,

Gorchein

et al. 1992

Eur J Clin Investigation

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The pathogenesis of the acute porphyric attack is not known. One hypothesis is that porphyrin precursors, especially 5-aminolaevulinic acid (ALA), are toxic for neuronal tissue. This was tested by infusing ALA in a male volunteer after a loading dose at a rate of 50-80 mg h-1 for 92.5 h. During the experiment plasma ALA concentration was 9-11 mumol 1-l and porphobilinogen concentration 3-6 mumol 1-l which are the levels seen during acute attacks. Urinary excretion of these porphyrin precursors was also markedly increased. ALA infusion caused no subjective symptoms and no change in pulse rate, blood pressure, or autonomic nerve function or conduction velocity of peripheral nerves. Photosensitivity was not demonstrable. It is concluded that sustained high plasma ALA concentration does not cause porphyria-like symptoms.

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Homozygous Variegate Porphyria: 20 y Follow-Up and Characterization of Molecular Defect

Kauppinen

von

Fraunberg

et al. 2001

Journal of Investigative Dermatology

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The long-term follow-up of a homozygous variegate porphyria patient revealed severe photosensitivity accompanied by mild sensory neuropathy and IgA nephropathy. A 35T to C transition in exon 2 (I12T) and a 767C to G transversion in exon 7 (P256R) of the protoporphyrinogen oxidase gene were identified from both alleles of the patient's cDNA and genomic DNA samples. Both prokaryotic and eukaryotic expression studies showed that the first mutation in the evolutionary conserved region resulted in a decrease in the protoporphyrinogen oxidase activity in contrast to the polymorphic substitution in exon 7, which affected the function of the enzyme assayed in Escherichia coli but not COS-1 cells.

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Fixed drug eruption due to fluconazole

Heikkilä

Timonen

2000

Journal of the American Academy of Dermatology

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Treatment of the Porphyrias

Kauppinen¹,

Timonen²,

Mustajoki³

1994

Annals of Medicine

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There are seven porphyrias which are caused by defective functions of the enzymes in the haem biosynthesis. Pathogenic mechanisms and symptoms differ greatly in individual porphyrias and, consequently, most of them require a specific therapy. Clinically, the three most important entities are acute porphyric attack, porphyria cutanea tarda and protoporphyria. For an acute porphyric attack the treatment of choice is administration of haem; the other measures are elimination of precipitating factors and symptomatic therapy for many associated symptoms. Porphyria cutanea tarda is controlled by removal of iron by phlebotomies or with low-dose chloroquine. Skin symptoms in protoporphyria can be alleviated with betacaroten but there is no effective procedure to normalize disturbed porphyrin metabolism; hepatic failure seen in some patients may need a liver transplantation. The only effective treatment in congenital erythropoietic porphyria is probably a bone marrow transplantation. No satisfactory treatment is available for very rare delta-aminolevulinic acid dehydrase deficiency porphyria.

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Kaisa Timonen

Clinical and biochemical characteristics and genotype–phenotype correlation in Finnishvariegate porphyria patients

Sustained high plasma 5‐aminolaevulinic acid concentration in a volunteer: no porphyric symptoms

Homozygous Variegate Porphyria: 20 y Follow-Up and Characterization of Molecular Defect

Fixed drug eruption due to fluconazole

Treatment of the Porphyrias

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