A molecular, enzymatic and clinical study in a family with hereditary coproporphyria

A 30-year-old woman suffered from acute crises with abdominal, neurological and psychiatric complaints. Urinary haem precursors and faecal porphyrins were excessively elevated compared to the upper level of the normal range. Urinary coproporphyrin isomer III was increased and faecal coproporphyrin isomers I and III showed a complete inversion of the normal ratio. Thus, hereditary coproporphyria was diagnosed in this woman. The father, one brother and a sister were shown to be gene carriers of hereditary coproporphyria by their urinary and faecal excretory constellations. The excretory patterns of the mother and a second brother were normal. Coproporphyrinogen oxidase activity was decreased to 49% and 58%, in the patient and her father, respectively. The mother's enzyme activity was normal (98%). Coproporphyrinogen oxidase concentration was enhanced 1.8-fold and 2.7-fold in the patient and her father, respectively. Mutation analysis revealed the insertion of an adenine at position 857 in exon 4 of the coproporphyrinogen oxidase gene. The gene defect was confirmed by denaturing gradient gel electrophoresis in the patient and her father. The patient was treated by intravenous interval therapy with haem arginate for 10 months, with good clinical and metabolic response.

Molecular, immunological, enzymatic and biochemical studies of coproporphyrinogen oxidase deficiency in a family with hereditary coproporphyria

A 27-year-old woman who had recurrent pain in renal bed since 1998 with increasing character, was stationary admitted. The patient showed dark urine, complained of hair loss and took since 1994 a hormonal oral contraceptive. No photosensitivity was observed. Determinations of urinary porphyrin metabolites in 1998 revealed a porphyria cutanea tarda like excretion pattern with elevations of uro- (1767 nmol/24 hr, normal <29 nmol/24 hr) and heptacarboxyporphyrin (568 nmol/24 hr; normal <4 nmol/24 hr). Follow-up studies in feces showed the characteristics of a hereditary coproporphyria with dominance of coproporphyrin isomer III (total= 1470 nmol/g, isomer III= 93%), (normal: <37 nmol/g, isomer III = 25-35%). The excretion of porphyrin precursors (delta-aminolevulinic acid and porphobilinogen) was increased by taking an ethinylestradiol-cyproteronacetate-preparation, but acute and/or chronic manifestations were not observed. Coproporphyrinogen oxidase activity was decreased to 35% in the patient (normal=138+/-21 pkat/g protein; x+/-s), whereas the activity of red cell uroporphyrinogen decarboxylase was normal. Her mother and both sisters could be verified as heterozygous gene carriers of hereditary coproporphyria by their urinary and fecal excretion parameters and because of reduced coproporphyrinogen oxidase activity up to 50%. The father was normal with respect to his genotype. Molecular analysis revealed a hitherto unknown mutation with the transversion of a cytosine to thymine at nucleotide position 854 in exon 4 of the coproporphyrinogen oxidase gene. The gene defect was confirmed by DGGE in the mother and her three daughters. The investigation of the immunological nature of the defective coproporphyrinogen oxidase gene from the whole family revealed decreased concentrations of coproporphyrinogen oxidase protein in the patient, her mother and her two sisters.

Congenital erythropoietic porphyria: prenatal diagnosis and autopsy findings in two sibling fetuses

Congenital erythropoietic porphyria is an autosomal recessive disease characterized by a deficiency of uroporphyrinogen III cosynthetase activity, with diffuse tissue accumulation of specific type I porphyrins. The diagnosis of this disease was made in two fetuses, who were siblings, and from a Caucasian nonconsanguinous family. The first fetus died in utero with hydrops fetalis and anemia, but without an etiopathogenic diagnosis. In the second case, the diagnosis was based on pink fluorescence of the amniotic fluid examined fortuitously in sunlight. DNA analysis showed that the fetus was heteroallelic for the mutation C73R. The autopsy showed brown skin, and at histological examination, porphyrin pigment was deposited in many tissues. Retrospectively, similar deposits were found in the tissues of the first fetus.

Early manifestations of Prader-Willi syndrome: influence of growth hormone

Pediatricians and neonatologists now understand the clinical picture of Prader-Willi syndrome (PWS) in infants as genetic tools are available to confirm this diagnosis. Hence, an increasing number of very young, still underweight children are being diagnosed with PWS. Some features, such as low prenatal weight and below-average height, subsequent poor growth velocity and increased body fat, possibly in infancy, may be interpreted as a consequence of early growth hormone (GH) deficiency. This raises the question of when is the best time for the initiation of GH treatment. This article presents the results of a study in which ten very young children with PWS (mean age 1.0 year) were treated with exogenous GH. We conclude that GH treatment in young, underweight children, as well as in older children with PWS: (1) normalizes growth and body proportions; (2) probably reduces fat mass and increases muscle mass; (3) may enhance motor development; and (4) is necessary, but obviously not sufficient, to normalize body composition and fat distribution. Whether there is a benefit in treating children with PWS from such an early age requires longer-term studies.

Porphobilinogen deaminase gene in African and Afro-Caribbean ethnic groups: mutations causing acute intermittent porphyria and specific intragenic polymorphisms

Acute intermittent porphyria (AIP), the most common acute hepatic porphyria, is a low-penetrant autosomal dominant disorder caused by mutations in the porphobilinogen deaminase (PBGD) or hydroxymethylbilane synthase (HMBS) gene. Although AIP has been identified in all the main ethnic groups, little is known about PBGD gene defects in Africans, Afro-Caribbean and Afro-Americans. We have carried out PBGD gene screening among seven unrelated AIP families and 98 controls belonging to the Afro-Caribbean (French West Indies) and the sub-Saharan African (Morocco, Algeria, Cameroon, Mali, and Burkina Faso) populations. Using denaturing-gradient gel electrophoresis (DGGE) and direct sequencing we characterized six different mutations, including four novel, from the seven AIP families: three splicing defects (IVS 5+2 Ins G; IVS 7+1 G to A in two families; IVS 10-1 G to T); a small deletion (1004 Del G); and two missense mutations (R116 W; A270G). The allele frequencies of the 14 polymorphic sites, previously known in the normal Caucasian population, were similar in Africans and Afro-Caribbean control populations. Interestingly, two common new intragenic polymorphic sites, close to intron/junction boundaries, were identified only in blacks: 1) in intron 2, a single base-pair G deletion at position 3167 (G:0.88; delG:0.12); 2) in intron 10, a A/G dimorphism at position 7052 (A:0.56; G:0.44). These two single nucleotide polymorphisms (SNPs) were never encountered in 750 unrelated Caucasian subjects. The allele frequency distributions of populations within black ethnic groups (Africans and Afro-Caribbean) are similar. This study highlights differences both in PBGD gene mutations causing AIP and in SNPs between white and black peoples; the allele frequencies provided contribute to a better knowledge of the variability of these markers among the major population groups, especially in sub-Saharan West African and Afro-Caribbean populations.

Identification of a prevalent nonsense mutation (W283X) and two novel mutations in the porphobilinogen deaminase gene of Swiss patients with acute intermittent porphyria

Acute intermittent porphyria (AIP) is an autosomal dominant disorder caused by decreased activity of porphobilinogen deaminase (PBGD), the third enzyme in the heme biosynthetic pathway. We report the first molecular analysis of PBGD gene mutations in AIP patients of Swiss origin. The PBGD gene of 18 Swiss AIP patients was analyzed by denaturing gradient gel electrophoresis screening of the genomic DNA and direct sequencing. Thirteen of the 18 patients (72%) carried a nonsense mutation G(849)-->A, W283X. In addition, 4 different mutations including 2 novel mutations (Q217L and Q292X), were identified in the 5 remaining AIP patients originating from both German- and Italian-speaking regions of Switzerland.

Systematic analysis of coproporphyrinogen oxidase gene defects in hereditary coproporphyria and mutation update

Hereditary coproporphyria (HC) is an acute hepatic porphyria with autosomal dominant inheritance caused by deficient activity of coproporphyrinogen III oxidase (CPO). Clinical manifestations of the disease are characterized by acute attacks of neurological dysfunction often precipitated by drugs, fasting, cyclical hormonal changes, or infectious diseases. Skin photosensitivity may also be present. The seven exons, the exon/intron boundaries and part of 3' noncoding sequence of the CPO gene were systematically analyzed by an exon-by-exon denaturing gradient gel electrophoresis (DGGE) strategy followed by direct sequencing in seven unrelated heterozygous HC patients from France, Holland, and Czech Republic. Seven novel mutations and two new polymorphisms were detected. Among these mutations: two are missense (G197W, W427R), two are nonsense (Q306X, Q385X), two are small deletions (662de14bp; 1168del3bp removing a glycine at position 390), and one is a splicing mutation (IVS1-15c-->g) which creates a new acceptor splice site. The pathological significance of the point mutations G197W, W427R, and the in-frame deletion 390delGly were assessed by their respective expression in a prokaryotic system using site-directed mutagenesis. These mutations resulted in the absence or a dramatic decrease of CPO activity. The two polymorphisms were localized in noncoding part of the gene: 1) a C/G polymorphism in the promotor region, 142 bp upstream from the transcriptional initiation site (-142C/G), and 2) a 6 bp deletion polymorphism in the 3' noncoding part of the CPO gene, 574 bp downstream of the last base of the normal termination codon (+574 delATTCTT). Five intragenic dimorphisms are now well characterized and the high degree of allelic heterogeneity in HC is demonstrated with seven new different mutations making a total of nineteen CPO gene defects reported so far.

Hepatocellular carcinoma in patients with acute hepatic porphyria: frequency of occurrence and related factors

BACKGROUND/AIMS

Previous retrospective studies have suggested an association between hepatocellular carcinoma and acute hepatic porphyrias. The incidence, the relative risk, the characteristics and the outcome of primary liver cancer were prospectively evaluated in patients with acute hepatic porphyrias; the molecular mechanism of carcinogenesis in these patients was also pointed out.

METHODS

A cohort of 650 patients with acute hepatic porphyria was followed over 7 years. Standardized rate ratio was used to measure the relative risk of primary liver cancer after indirect standardization. Morphological and clinical aspects of primary liver cancer were investigated, and survival rates were calculated using the Kaplan-Meier method. Common etiological factors involved in liver carcinogenesis were screened. Excretion rates of porphyrin precursors, serum melatonin levels and mutations in the genes encoding for heme biosynthetic enzymes were studied.

RESULTS

Hepatocellular carcinoma was found in four symptomatic and three asymptomatic patients (four female, three male). The overall standardized rate ratio was 36 (95% CI: 14-74). The 5-year disease-free survival was 43% in patients with hepatocellular carcinoma. Usual risk factors for primary liver cancer were not confounding factors. Hepatocellular carcinoma was not related to specific heme biosynthesis gene mutations. Heme precursors were significantly increased in porphyric patients with hepatocellular carcinoma, and serum melatonin levels were low.

CONCLUSIONS

Acute hepatic porphyrias are risk factors for hepatocellular carcinoma. Hepatic porphyrias should be sought in patients with hepatocellular cancer without obvious etiology, and a periodic screening for hepatocellular carcinoma should be evaluated in these patients. Genes encoding for heme biosynthetic pathway may not act as tumor suppressor genes. Chronic increased levels of delta aminolevulinic acid could lead to the generation of free radicals and subsequently to hepatic carcinogenesis.

New mutations of the hydroxymethylbilane synthase gene in German patients with acute intermittent porphyria

Acute intermittent porphyria (AIP) is a low-penetrant, autosomal dominant disorder caused by decreased activity of hydroxymethylbilane synthase (HMBS; MIM 176 000), the third enzyme in the heme biosynthetic pathway. We report the first molecular analysis of HMBS gene mutations in classical AIP patients of German origin. The HMBS gene of 5 German AIP patients was analysed by DGGE-screening and direct sequencing of amplified genomic DNA. Five different mutations including four novel mutations were found. Three of them are single base substitutions that affected exon 3 (R16C), exon 10 (V202L), and intron 13 (T to A, IVS13+2) The two remaining mutations are frameshifts which produce a stop codon (del GA in exon 6 and insA in exon 14). These mutations are likely to be responsible for the decrease in HMBS activity found in both erythrocytes and non-erythroid cell lines (lymphocytes). Our results demonstrate the allelic heterogeneity of HMBS mutations in AIP patients of German origin.

Variegate porphyria in Western Europe: identification of PPOX gene mutations in 104 families, extent of allelic heterogeneity, and absence of correlation between phenotype and type of mutation

Variegate porphyria (VP) is a low-penetrance, autosomal dominant disorder characterized clinically by skin lesions and acute neurovisceral attacks that occur separately or together. It results from partial deficiency of protoporphyrinogen oxidase encoded by the PPOX gene. VP is relatively common in South Africa, where most patients have inherited the same mutation in the PPOX gene from a common ancestor, but few families from elsewhere have been studied. Here we describe the molecular basis and clinical features of 108 unrelated patients from France and the United Kingdom. Mutations in the PPOX gene were identified by a combination of screening (denaturing gradient gel electrophoresis, heteroduplex analysis, or denaturing high-performance liquid chromatography) and direct automated sequencing of amplified genomic DNA. A total of 60 novel and 6 previously reported mutations (25 missense, 24 frameshift, 10 splice site, and 7 nonsense) were identified in 104 (96%) of these unrelated patients, together with 3 previously unrecognized single-nucleotide polymorphisms. VP is less heterogeneous than other acute porphyrias; 5 mutations were present in 28 (26%) of the families, whereas 47 mutations were restricted to 1 family; only 2 mutations were found in both countries. The pattern of clinical presentation was identical to that reported from South Africa and was not influenced by type of mutation. Our results define the molecular genetics of VP in western Europe, demonstrate its allelic heterogeneity outside South Africa, and show that genotype is not a significant determinant of mode of presentation.

Porphyria cutanea tarda affecting a rheumatoid arthritis patient treated with methotrexate: association or coincidence?

We describe the case of a 44-yr-old woman, suffering from rheumatoid arthritis for 15 yr, who developed porphyria cutanea tarda while being treated with methotrexate. The cutaneous lesions healed and the metabolic anomalies improved after a few months, despite continuing the treatment.

Heme and acute inflammation role in vivo of heme in the hepatic expression of positive acute-phase reactants in rats

Acute-phase protein synthesis in the liver during inflammation is regulated via cytokines and glucocorticoids. Using quantitative reverse transcription (RT)-PCR analysis and immunoassay, we explored, in the rat, the response of the acute-phase protein, alpha-2 macroglobulin (A2M), after systemic inflammation induced by lipopolysaccharide (LPS) or localized inflammation induced by turpentine oil (TO). The results indicate that synthesis of A2M is higher following TO-induced inflammation than LPS-induced inflammation and is not correlated with interleukin (IL)-6 or glucocorticoid levels. We studied the putative role of heme in this differential A2M expression following localized vs. systemic inflammation; addition of heme during LPS-induced inflammation can boost the expression of A2M, whereas blocking heme synthesis (by succinyl acetone) or enhancing its consumption in parallel biosynthetic pathways (cytochrome P450 induction by phenobarbital) decreases A2M expression. This decrease was abolished by exogenous heme supplementation. Finally, we demonstrate that heme supplementation is also able to increase the A2M response in female rats to a level similar to that in male rats providing a new insight into the puzzling sexual dimorphism observed previously during localized inflammation. We propose that heme should be considered a new regulatory element in controlling liver A2M expression during inflammation.

[Hepatic porphyria]

INTRODUCTION

This review is aimed at presenting classification and diagnosis criteria of hepatic porphyrias and at proposing guidelines for diagnosis and management of these diseases.

CURRENT KNOWLEDGE AND KEY POINTS

Porphyrias are inherited disorders: each type of porphyria is the result of a specific decrease in the activity of one of the enzymes of heme biosynthesis. Porphyrias are presently classified as erythropoietic or hepatic, depending on the primary organ in which excess production of porphyrins or precursors takes place. From 1970 to 1998, there have been important advances in the understanding of these diseases: specific enzyme deficiencies have been demonstrated, and genes have been isolated and located. These advances have been followed rapidly by identification of mutations.

PERSPECTIVES AND PROJECTS

Treatment of acute attacks by hematin completely changed the disease prognosis. Relationships between porphyria cutanea tarda and hepatitis C virus or hemochromatosis have also been clarified. However, several important issues are still not solved: for instance, pathogenesis of neuronal dysfunction that produces the acute attacks is poorly understood. Differences related to susceptibility to develop acute attacks are not known.

Inheritance in erythropoietic protoporphyria: a common wild-type ferrochelatase allelic variant with low expression accounts for clinical manifestation

Erythropoietic protoporphyria (EPP) is a rare autosomal dominant disorder of heme biosynthesis characterized by partial decrease in ferrochelatase (FECH; EC 4.99.1.1) activity with protoporphyrin overproduction and consequent painful skin photosensitivity and rarely liver disease. EPP is normally inherited in an autosomal dominant pattern with low clinical penetrance; the many different mutations that have been identified are restricted to one FECH allele, with the other one being free of any mutations. However, clinical manifestations of dominant EPP cannot be simply a matter of FECH haploinsufficiency, because patients have enzyme levels that are lower than the expected 50%. From RNA analysis in one family with dominant EPP, we recently suggested that clinical expression required coinheritance of a normal FECH allele with low expression and a mutant FECH allele. We now show that (1) coinheritance of a FECH gene defect and a wild-type low-expressed allele is generally involved in the clinical expression of EPP; (2) the low-expressed allelic variant was strongly associated with a partial 5' haplotype [-251G IVS1-23T IVS2microsatA9] that may be ancestral and was present in an estimated 10% of a control group of Caucasian origin; and (3) haplotyping allows the absolute risk of developing the disease to be predicted for those inheriting FECH EPP mutations. EPP may thus be considered as an inherited disorder that does not strictly follow recessive or dominant rules. It may represent a model for phenotype modulation by mild variation in expression of the wild-type allele in autosomal dominant diseases.

Evaluation of mutation screening by heteroduplex analysis in acute intermittent porphyria: comparison with denaturing gradient gel electrophoresis

Acute intermittent porphyria is the major autosomal dominant form of acute hepatic porphyrias. The disease is due to mutations in the gene encoding for porphobilinogen deaminase (PBGD). Many different strategies have been developed to screen for mutations. However the high prevalence (0.6 per thousand) of PBGD gene defect, the large allelic heterogeneity of mutations (n = 130), and the limitations of the PBGD enzymatic assay for asymptomatic patients' detection, require for diagnosis an efficient and easy to handle strategy for locating mutations within the PBGD gene. In a recent study the sensitivity of the denaturing gradient gel electrophoresis (DGGE) technique was 100%. However DGGE requires the preparation of gradient gels and the use of primers with long GC-clamps; thus alternative methods should be preferable in the clinical laboratory. We have compared the detection rate of DGGE with heteroduplex analysis (HA) using 16 characterized PBGD gene mutations. Six different HA conditions were used to determine the efficiency of the method, including: (1) MDE (mutation detection enhancement) gel concentration; (2) addition of urea and sodium dodecyl sulfate (SDS); (3) radioactive labelling. The sensitivity of each HA condition varied from 31 to 81% vs. 100% in DGGE analysis. HA using 1 x MDE with 15% urea with or without 0.55% SDS was the most sensitive condition. This first comparative study of DGGE and HA mutation screening methods suggests that DGGE is a more sensitive screening assay than optimized HA. However, because of its simplicity HA should be considered as an efficient alternative mutation screening method.

Molecular characterization of homozygous variegate porphyria

Variegate porphyria (VP) is a low penetrance, autosomal dominant disorder that results from partial deficiency of protoporphyrinogen oxidase (PPOX) activity caused by mutation in the PPOX gene. The rare homozygous variant of VP is characterized by severe PPOX deficiency, onset of photosensitization by porphyrins in early childhood, skeletal abnormalities of the hand and, less constantly, short stature, mental retardation and convulsions. We have identified PPOX mutations on both alleles of five of the 11 unrelated patients with homozygous VP reported to date. Two patients were homoallelic for missense mutations (D349A and A433P), while three were heteroallelic. Functional analysis by prokaryotic expression showed that the D349A and A433P and one missense mutation in each of the three heteroallelic patients (G358R in two patients and A219KANA) preserved some PPOX activity (9.5-25% of wild-type). Mutations on the other allele of the heteroallelic patients abolished or markedly decreased activity. There was no relation between genotype assessed by functional analysis and the presence or severity of non-cutaneous manifestations. The mutations were absent from 104 unrelated patients with autosomal dominant VP. Our findings define the molecular pathology of homozygous VP and suggest that mild PPOX mutations occur in the general population but have very low or no clinical penetrance in heterozygotes.

Exon 1 donor splice site mutations in the porphobilinogen deaminase gene in the non-erythroid variant form of acute intermittent porphyria

Acute intermittent porphyria (AIP) is an autosomal dominant disorder caused by a partial defect of the heme biosynthesis enzyme, porphobilinogen deaminase (PBGD). PBGD is encoded by two distinct mRNA species expressed in a tissue-specific manner from a single gene. One transcript is expressed in erythroid tissues, while the housekeeping transcript is expressed in all tissues. In classical AIP (95% of cases) the housekeeping and the erythroid-specific enzymes both have half-normal activity in erythroid and non-erythroid tissues, whereas in the variant non-erythroid form of the disease the enzymatic defect is present only in non-erythroid cells. A large allelic heterogeneity of mutations (n>135) has been demonstrated in classical AIP, but to date only three different mutations have been characterized in the non-erythroid variant form of AIP. We describe the molecular abnormalities responsible for the non-erythroid variant form of AIP in two French and two German unrelated AIP patients with normal PBGD activity in the erythrocytes. Three different splicing defects located in the intron 1 donor splice site were identified: a 33+1 g-->a mutation, previously described in a Dutch family, was found in two patients; two novel mutations (33+2 t-->a, 33+5 c-->g) affected the two remaining patients. All the mutations resulted in the activation of a cryptic splice site 67 bp downstream in intron 1, leading to a frameshift and a premature stop codon in exon 4. Mutations in the exon 1 donor splice site are involved in eight of the nine non-erythroid variant AIP families reported in the literature. These data show that most mutations causing the non-erythroid variant AIP are exon 1 splice defects, in contrast with classical AIP, where missense mutations are chiefly involved. Moreover, the allelic heterogeneity of PBGD gene defects causing the non-erythroid variant AIP is demonstrated, with five different mutations identified. These mutations could be easily detected by a single denaturing gradient gel electrophoresis which also allows the presymptomatic detection of gene carriers in the affected families.

Nitric oxide synthase inhibition and the induction of cytochrome P-450 affect heme oxygenase-1 messenger RNA expression after partial hepatectomy and acute inflammation in rats

OBJECTIVES

a) To evaluate in vivo, in rat liver, heme oxygenase-1 (HO-1) messenger RNA (mRNA) expression level and the regulation of 3',5'-cyclic guanosine monophosphate (cGMP) production during hepatic regeneration, localized inflammation, and systemic inflammation; and b) to investigate the effect of the induction of cytochrome P-450 and nitric oxide synthase (NOS) inhibition on HO-1 mRNA level and cGMP production in the liver.

DESIGN

Experimental, comparative study.

SETTING

Biochemical and molecular biology laboratory.

SUBJECTS

Six-wk-old male Sprague-Dawley rats (n = 60).

INTERVENTIONS

We randomly divided the rats into four groups: a) saline controls; b) animals receiving lipopolysaccharide (600 microg/kg) for systemic inflammation; c) animals receiving turpentine oil (5 mL/kg) for localized inflammation obtained by sterile abscess; and d) partially hepatectomized animals (two-thirds removal of the parenchyma) for hepatic regeneration.

MEASUREMENTS AND MAIN RESULTS

Hepatic regeneration induced HO-1 mRNA expression, as shown by quantitative reverse transcription-polymerase chain reaction analysis. The time course of liver HO-1 mRNA induction after partial hepatectomy and localized and systemic inflammation showed a similar and gradual increase, with a maximum at 6 hrs and a return to a minimal level 48 hrs after treatments. Liver HO-1 mRNA was overexpressed during localized vs. systemic inflammation. This overexpression was not correlated with either serum IL-6 or corticosterone concentrations, but is related to increased cGMP production. The administration of phenobarbital, a cytochrome P-450 inducer and of nitro-L-arginine methyl ester, a NOS inhibitor, prevented cGMP production and abolished the overexpression of HO-1 mRNA.

CONCLUSIONS

The results of this study indicate that HO-1 mRNA is induced during hepatic regeneration with a similar time course to that observed during acute inflammation. In addition, we demonstrated that: a) HO-1 mRNA is overexpressed during localized vs. systemic inflammation; b) this overexpression is not correlated with IL-6 or corticosterone concentrations but is related to intrahepatic cGMP production; c) induction of cytochromes P-450 and/or inhibition of NOS both reduce liver cGMP production and HO-1 mRNA expression. These results suggest that in rat liver, a cGMP-transducing pathway may control HO-1 mRNA expression. Thus, there may be a role for HO-1 mRNA in the modulation of the hepatic stress response.

5-Aminolevulinic acid dehydratase deficiency porphyria: a twenty-year clinical and biochemical follow-up

5-Aminolevulinic acid dehydratase (ALAD) activity in two patients with compound heterozygous 5-aminolevulinic acid dehydratase deficiency porphyria was studied over the last 20 years. The patients' enzyme activity was <10% from 1977 to 1997. An acute crisis in each patient was successfully treated by infusion of glucose and heme arginate. After this therapy both urinary 5-aminolevulinic acid (ALA) and total porphyrins were diminished to 65% in patient B. In patient H, ALA was decreased to 80%, and total porphyrins were reduced to 15% after treatment with heme arginate and glucose. The patients remained free of symptoms after this therapy. Family studies of patient B showed cross-reactive immunological material (CRIM), in which the maternal mutation is CRIM(+), whereas the paternal mutation is CRIM(-). Incubation of erythrocyte lysates with ALA decreased porphyrin formation, whereas incubation with porphobilinogen produced porphyrin concentrations within reference values in both patients, confirming that ALAD activity is rate-limiting in these cells.

Systematic analysis of molecular defects in the ferrochelatase gene from patients with erythropoietic protoporphyria

Erythropoietic protoporphyria (EPP; MIM 177000) is an inherited disorder caused by partial deficiency of ferrochelatase (FECH), the last enzyme in the heme biosynthetic pathway. In EPP patients, the FECH deficiency causes accumulation of free protoporphyrin in the erythron, associated with a painful skin photosensitivity. In rare cases, the massive accumulation of protoporphyrin in hepatocytes may lead to a rapidly progressive liver failure. The mode of inheritance in EPP is complex and can be either autosomal dominant with low clinical penetrance, as it is in most cases, or autosomal recessive. To acquire an in-depth knowledge of the genetic basis of EPP, we conducted a systematic mutation analysis of the FECH gene, following a procedure that combines the exon-by-exon denaturing-gradient-gel-electrophoresis screening of the FECH genomic DNA and direct sequencing. Twenty different mutations, 15 of which are newly described here, have been characterized in 26 of 29 EPP patients of Swiss and French origin. All the EPP patients, including those with liver complications, were heterozygous for the mutations identified in the FECH gene. The deleterious effect of all missense mutations has been assessed by bacterial expression of the respective FECH cDNAs generated by site-directed mutagenesis. Mutations leading to a null allele were a common feature among three EPP pedigrees with liver complications. Our systematic molecular study has resulted in a significant enlargement of the mutation repertoire in the FECH gene and has shed new light on the hereditary behavior of EPP.

Epidemiology of hepatitis C and G in sporadic and familial porphyria cutanea tarda

From 1995 to 1997, we prospectively evaluated the prevalence of hepatitis C virus (HCV) RNA in 124 patients with porphyria cutanea tarda (PCT) from Northern France (83 sporadic and 41 familial PCT). Serum samples were analyzed for ferritin, transaminases, HCV antibodies, and HCV RNA. In addition, genotyping of HCV and searches for HCV infection risk factors (blood transfusion, iv drug abuse, and surgical intervention) were performed. Twenty-six of 124 patients (21%; 95% CI: 13.9-28) were positive for serum HCV antibodies. All of them were also positive for HCV RNA. The prevalence of HCV infection was higher in the sporadic PCT group (26.5%, 22 out of 83) than in the familial PCT group (9.7%, 4 out of 41). Risk factors for hepatitis C infection were found to be significantly increased in the HCV-positive group when compared with the HCV-negative PCT group. In all HCV-positive patients with a risk factor, the suspected date of exposure to the virus always preceded the clinical onset of PCT. The HCV genotype pattern in PCT patients was similar to that observed in nonporphyric HCV patients in western European countries. Serum ferritin level was increased in both HCV-positive and HCV-negative porphyric patients. Transaminase levels were significantly higher in HCV-infected PCT patients. Sixty-seven out of 124 patients were retrospectively studied for hepatitis G virus (HGV) infection. Six of these 67 patients (8.9%; 95% CI: 2.1-15.8) were positive for HGV RNA. None of the six HGV-infected patients were positive for HCV RNA. The HGV-infected patients did not differ statistically from those without HGV infection with regard to age, ferritin, transaminase levels, and PCT treatment. These results support the view that sporadic cases of HGV infection may occur frequently. This study of a large cohort of HCV and PCT patients further documents an increasing gradient in HCV prevalence from northern to southern Europe, and shows that HCV infection acts as a triggering factor of PCT. Finally, the HGV prevalence found in the PCT patients was comparable with that found in French blood donors, suggesting that HGV is not a PCT triggering factor.

Neonatal hemolytic anemia due to inherited harderoporphyria: clinical characteristics and molecular basis

Porphyrias, a group of inborn errors of heme synthesis, are classified as hepatic or erythropoietic according to clinical data and the main site of expression of the specific enzymatic defect. Hereditary coproporphyria (HC) is an acute hepatic porphyria with autosomal dominant inheritance caused by deficient activity of coproporphyrinogen III oxidase (COX). Typical clinical manifestations of the disease are acute attacks of neurological dysfunction; skin photosensitivity may also be present. We report a variant form of HC characterized by a unifying syndrome in which hematologic disorders predominate: harderoporphyria. Harderoporphyric patients exhibit jaundice, severe chronic hemolytic anemia of early onset associated with hepatosplenomegaly, and skin photosensitivity. Neither abdominal pain nor neuropsychiatric symptoms are observed. COX activity is markedly decreased. In a first harderoporphyric family, with three affected siblings, a homozygous K404E mutation has been previously characterized. In the present study, molecular investigations in a second family with neonatal hemolytic anemia and harderoporphyria revealed two heterozygous point mutations in the COX gene. One allele bore the missense mutation K404E previously described. The second allele bore an A-->G transition at the third position of the donor splice site in intron 6. This new COX gene mutation resulted in exon 6 skipping and the absence of functional protein production. In contrast with other COX gene defects that produce the classical hepatic porphyria presentation, our data suggest that the K404E substitution (either in the homozygous or compound heterozygous state associated with a mutation leading to the absence of functional mRNA or protein) is responsible for the specific hematologic clinical manifestations of harderoporphyria.

[Allogeneic bone marrow transplantation in congenital erythropoietic porphyria. Gunther's disease]

INTRODUCTION

The congenital erythropoietic porphyria (Günther's disease) (CEP) is a rare autosomal recessively metabolic disease due to the deficit of uroporphyrinogen III cosynthetase, fourth enzyme of the porphyrin-heme biosynthesis. This disease is characterized by severe cutaneous photosensitivity with profound skin lesions, hemolytic anemia and excess of uroporphyrin I excretion. The vital prognosis is very bad and until now, no treatment seems to be efficient. Bone marrow transplantation seems to be able to correct the enzymatic deficit that causes the disease because it is located in the bone marrow.

OBSERVATION

We report the case of a four and a half year old girl who received an allogeneic bone marrow transplantation (BMT) at the age of two. Despite an encouraging result, the first transplantation failed. A second allogeneic transplantation was attempted eight months later with the same HLA identical heterozygous donor and bone marrow engrafment succeeded. Twenty one months after the second bone marrow transplantation, clinical and biological results are still excellent.

DISCUSSION

No classical treatment of CEP really proved its efficiency and no one was curative. CEP resulting from an homozygous deficiency in uroporphyrinogen III cosynthetase, enzyme that takes part in the porphyrin-heme biosynthesis which is principally located in the erythropoietic system of the bone marrow, substitution of this defective lineage by BMT was a very attractive treatment to correct this anomaly. The first bone marrow transplantation attempted on an affected child in 1990 in Manchester failed because the patient died of infections complications. After the failure of the first transplantation, our little patient is now healed twenty one months after the second BMT and biochemical anomalies are corrected. If a long follow up is necessary to appreciate the long-term efficiency of this treatment, allogenic bone marrow transplantation seems to cure Günther's disease and must be proposed as the treatment of this affection.

Acute intermittent porphyria: prevalence of mutations in the porphobilinogen deaminase gene in blood donors in France

OBJECTIVES

Acute intermittent porphyria (AIP) is an autosomal dominant disorder resulting from a 50% deficiency in porphobilinogen deaminase (PBG deaminase). The true prevalence in the general population of mutations in the PBG deaminase gene capable of causing AIP is unknown. However, it is important to identify asymptomatic carriers of AIP mutations because all are at risk to have an acute attack.

DESIGN

We measured erythrocyte PBG deaminase from 3350 healthy blood donors. When a clear cut deficiency (< mean minus 2.5 SD) was found, the PBG deaminase gene was analysed by molecular biology technics.

SUBJECTS

Four subjects with PBG deaminase deficiency were identified. Two had mutations in the PBG deaminase gene which are known to cause AIP.

CONCLUSION

We conclude that, in France, the mutations of the PBG deaminase gene show a high prevalence in the healthy population. If only these two confirmed latent cases are used for the calculation, in France the minimal prevalence of the AIP gene is 1:1675.

Occurrence of hepatocellular carcinoma in a case of hereditary coproporphyria

An association between two types of acute hepatic porphyria (porphyria variegata and acute intermittent porphyria) and hepatocellular carcinoma has previously been reported. In these studies, etiological factors for hepatocellular carcinoma were not completely sought. We report here the first case of an association between hepatocellular carcinoma and hereditary coproporphyria, the third type of acute hepatic porphyria. A 58-yr-old woman with hereditary coproporphyria presented with a 3.5-cm-diameter hepatocellular carcinoma. Results of exhaustive investigation of etiological factors for hepatocellular carcinoma were negative. Results of microscopic histological analysis of the nontumorous liver were normal. Five years after surgical resection, the patient had no evidence of tumor recurrence.

Molecular epidemiology and diagnosis of PBG deaminase gene defects in acute intermittent porphyria

Acute intermittent porphyria (AIP) is the major autosomal dominant form of acute hepatic porphyrias. The disease is due to mutations in the gene encoding for porphobilinogen (PBG) deaminase and is characterized by life-threatening neurovisceral attacks, often precipitated by drugs, fasting, cyclical hormonal changes, or infectious diseases. This report describes a prospective study on the molecular epidemiology of PBG deaminase gene defects in AIP. It uses a sensitive, reliable, and easy-to-handle method for routine AIP molecular diagnosis and family study based on an exon-by-exon denaturing gradient gel electrophoresis (DGGE) strategy followed by direct sequencing. Fifteen genomic DNA fragments, including all the coding sequence and covering 3.35 kb of the PBG deaminase gene, were investigated in 405 subjects from 121 unrelated French Caucasian AIP families who had not been screened previously at the DNA level. PBG deaminase gene mutations were identified in 109 families, but only 78 were of different type, and each of them had a prevalence rate < 5%. Among these mutations, 33 had not been published previously. Sixty percent of these 78 mutations were located in only three exons (exons 10, 12, and 14), 44% were missense, 18% were splice defect, 19% were frameshift, and 16% were nonsense. In addition, two de novo mutational events were characterized. The evaluation of the efficiency of the standard PBG deaminase enzymatic screening method for gene-carrier detection indicated 95% of concordancy with the molecular-based diagnosis.

Molecular analysis of porphobilinogen (PBG) deaminase gene mutations in acute intermittent porphyria: first study in patients of Slavic origin

Acute intermittent porphyria (AIP) is an autosomally dominant inherited metabolic disorders caused by decreased activity of porphobilinogen deaminase, the third enzyme in the human heme biosynthetic pathway. We report here the first mutations in the human porphobilinogen deaminase gene in seven unrelated patients from the Czech and Slovak Republics with acute intermittent porphyria. We used denaturing gradient gel electrophoresis to screen all 15 exons and exon/intron boundaries of the porphobilinogen deaminase gene. Polymerase chain reaction products of abnormal migration patterns were subjected to direct sequencing to identify the causative mutations. Thus we revealed four novel mutations and three which have been previously described. Of the four novel mutations, two were mis-sense (G24S, V267M), one was a single base insertion (158insA) that produced a stop codon 12 codons downstream, and one was a single base substitution in intron 12 (771 + 1) resulting in a splicing defect. The three previously detected mutations were mis-sense mutations (R26C, R26H, G111R). These results suggest a high allelic heterogeneity in Czech and Slovak patients.

Acute intermittent porphyria: rapid molecular diagnosis

Acute intermittent porphyria (AIP) is an autosomal dominant disorder caused by a partial porphobilinogen (PBG) deaminase deficiency. An exon-by-exon denaturing gradient gel electrophoresis (DGGE) analysis followed by direct sequencing of the DNA fragments was performed to investigate molecular defect in 8 unrelated patients living in south of France: one Algerian, two Moroccan and five French patients. We have optimized the DGGE method in order to study at the same time the fifteen exons of the PBG deaminase gene in only one electrophoresis run. Six different mutations were detected by abnormal mobility patterns. After characterization, a C insertion (716 ins C), 2 deletions (589 del 17 bp; 730 del CT), a non-sense mutation (R149X) and 2 missense mutations (A270G; R173W) were found. The R173W missense mutation was found in 3 unrelated patients, and 716 ins C, 589 del 17 bp and A270G were newly described. According to this small AIP samples, sensitivity of the DGGE screening method was 100%.

Review: molecular pathogenesis of hepatic acute porphyrias

The molecular cloning of cDNA and genes encoding enzymes of the haem biosynthetic pathway have permitted the genetic defects underlying acute intermittent porphyria (AIP) and hereditary coproporphyria to be unravelled. In AIP, many different gene abnormalities have been documented since 1989. The prevalence of specific defective alleles among AIP families depends on which human population is studied. Founder effects are likely to account for a high frequency of a single mutation in Finland and, to a lesser extent, in Holland, while many other mutations have only been found once, each of them in a single family. In hereditary coproporphyria several different mutations have already been identified since 1994, suggesting that a large allelic heterogeneity also exists. The search for mutations in variegate porphyria has just started since the recent publication of the human cDNA sequence. Direct detection of the mutations using DNA analysis brings a growing contribution to the detection of asymptomatic carriers among relatives of porphyric patients and will, therefore, improve the prevention of acute attacks.

[Urinary porphyrin excretion in human immunodeficiency virus infection]

OBJECTIVES

Porphyria cutanea tarda has been reported in about 60 patients with human immunodeficiency virus (HIV) since 1987. We looked for porphyrin metabolism disorders in HIV infected patients without patent porphyria cutanea tarda.

METHODS

Urinary porphyrin excretion was measured in 64 patients with an HIV infection.

RESULTS

Excreted levels were abnormal in 23 patients (36%) including 4 (6%) with patterns highly suggestive of porphyria cutanea tarda. One of these patients developed the disease 2 years later. In 15 patients (23%) there was a significant increase in coproporphyrinuria. Minimal alterations in uroporphyrin or its precursors were seen in the other patients. Abnormal excretion was significantly more frequent in patients with hepatopathy and in patients who had progressed to AIDS.

CONCLUSION

Our findings suggest that HIV infection does not play a direct role in altered porphyrin metabolism because of the frequency of liver disorders observed in these patients.

Protoporphyrinogen oxidase: complete genomic sequence and polymorphisms in the human gene

Variegate porphyria (VP) is an autosomal dominant disorder of heme synthesis caused by a partial deficiency of protoporphyrinogen oxidase (PPOX). Human cDNA encoding PPOX has been recently sequenced and the gene has been cloned, assigned to chromosome 1q23, and its exon/intron organization has been characterized. We report here the complete nucleotide sequence of the Human PPOX gene. Including 660 bp of its promotor region, the PPOX gene spans 5.5 kb. Introns vary in size from 84 bp to 507 bp. Two exonic and 3 intronic biallelic sequence variations have been characterized.

Correction of congenital erythropoietic porphyria by bone marrow transplantation

Congenital erythropoietic porphyria (Gunther disease) is a rare metabolic disorder caused by uroporphyrinogen III synthetase deficiency. We report the case of a 2-year-old girl with a severe form of this disease who received HLA-identical bone marrow transplantation from her heterozygous sister. Two transplantations were necessary to obtain full hematopoietic chimerism. Correction of the enzyme deficiency was confirmed by measuring erythrocyte uroporphyrinogen III synthetase activity. The patient's clinical condition improved dramatically, and she is well 1 year after the second transplantation, with no further treatment. Although long-term efficacy remains to be confirmed, we conclude that allogeneic bone marrow transplantation can cure patients with congenital erythropoietic porphyria.

Detection of four novel mutations in the porphobilinogen deaminase gene in French Caucasian patients with acute intermittent porphyria

Acute intermittent porphyria (AIP) is an autosomal dominant disorder characterized by alterations of the gene encoding porphobilinogen deaminase (PBGD: EC 4.3.1.8), the third enzyme of the heme biosynthetic pathway. The molecular heterogeneity of the mutations causing AlP has been demonstrated with a reported predominance of single base substitutions resulting in amino acid changes. The molecular basis of AIP in four French patients was investigated using denaturing gradient gel electrophoresis followed by direct sequencing. We describe four different novel mutations that affected exon 12 (a frameshift and an exon skipping), exon 4 (a stop codon) and exon 15 (a frameshift inducing a stop codon). This study further documents the molecular heterogeneity of mutations in the PBGD gene in the French Caucasian population and reports types of mutations relatively uncommon in AIP.

Mutations in the protoporphyrinogen oxidase gene in patients with variegate porphyria

Variegate porphyria (VP) is an acute hepatic porphyria with autosomal dominant inheritance due to a partial deficiency of protoporphyrinogen oxidase (PPOX) activity. The molecular defect responsible for VP was investigated by sequencing PPOX gene coding sequence from four patients in three unrelated VP families of French Caucasian origin. In a first patient, a point insertion of a G at position 1022 of the cDNA, produced a frameshift resulting in a premature stop codon. In three other patients from two unrelated families we found a missense point mutation leading to glycine to arginine substitution (G232R) in exon 7. This Gly232 appears to be a strictly conserved residue through evolution. In one VP family, we observed the cosegregation of the G232R missense mutation and the deficient PPOX activity. The mutations reported here are the first to be described in patients with VP and support the conclusion that PPOX gene defects are disease causing mutations in human variegate porphyria.

Modulation of the phenotype in dominant erythropoietic protoporphyria by a low expression of the normal ferrochelatase allele

Erythropoietic protoporphyria (EPP) is a monogenic inherited disorder of the heme biosynthetic pathway due to ferrochelatase (FC) deficiency. EPP is generally considered to be transmitted as an autosomal dominant disease with incomplete penetrance, although autosomal recessive inheritance has been documented at the enzymatic and molecular level in some families. In the dominant form of EPP, statistical analysis of FC activities documented a significantly lower mean value in patients than in asymptomatic carriers, suggesting a more complex mode of inheritance. To account for these findings, we tested a multiallelic inheritance model in one EPP family in which the enzymatic data were compatible with this hypothesis. In this EPP family, the specific FC gene mutation was an exon 10 skipping (delta Ex10), resulting from a G deletion within the exon 10 consensus splice donor site. The segregation of all FC alleles within the family was followed using the delta Ex10 mutation and a new intragenic dimorphism (1520 C/T). mRNAs transcribed from each FC allele were then subjected to relative quantification by a primer extension assay and to absolute quantification by a ribonuclease protection assay. The data support the hypothesis that in this family the EPP phenotype results from the coinheritance of a low output normal FC allele and a mutant delta Ex10 allele.

Increased delta aminolevulinic acid and decreased pineal melatonin production. A common event in acute porphyria studies in the rat

Tryptophan (TRP) is the precursor of melatonin, the primary secretory product of the pineal gland. Hepatic heme deficiency decreases the activity of liver tryptophan pyrrolase, leading to increased plasma TRP and serotonin. As a paradox, patients with attacks of acute intermittent porphyria (AIP), exhibit low nocturnal plasma melatonin levels. This study using a rat experimental model was designed to produce a pattern of TRP and melatonin production similar to that in AIP patients. Pineal melatonin production was measured in response to: (a) a heme synthesis inhibitor, succinylacetone, (b) a heme precursor, delta-aminolevulinic acid (Ala), (c) a structural analogue of Ala, gamma-aminobutyric acid. Studies were performed in intact rats, perifused pineal glands, and pinealocyte cultures. Ala, succinylacetone, and gamma-aminobutyric acid significantly decreased plasma melatonin levels independently of blood TRP concentration. In the pineal gland, the key enzyme activities of melatonin synthesis were unchanged for hydroxyindole-O-methyltransferase and decreased for N-acetyltransferase. Our results strongly suggest that Ala overproduced by the liver acts by mimicking the effect of gamma-aminobutyric acid on pineal melatonin in AIP. They also support the view that Ala acts as a toxic element in the pathophysiology of AIP.

Variegate porphyria: diagnostic value of fluorometric scanning of plasma porphyrins

Variegate porphyria (VP) is a dominantly inherited acute hepatic porphyria characterized by a 50% decrease in activity of protoporphyrinogen oxidase (PO) which catalyses the last step of heme biosynthesis. In VP families, most of the gene carriers are asymptomatic but at risk of developing acute attacks if subjected to precipitating factors. Recognition of the carrier status is the first step of an efficient preventive care. This could be achieved by measurement of PO activity which is a sensitive and specific but tedious method. A specific plasma fluorometric emission at 626 nm has been shown in VP patients. Here we show that this simple and inexpensive method is specific but poorly sensitive, especially in detection of asymptomatic carriers. We conclude that this procedure should not replace PO activity measurement in VP family studies.