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New Missense Mutation in the Human Ferrochelatase Gene in a Family with Erythropoietic Protoporphyria: Functional Studies and Correlation of Genotype and Phenotype

¹ Zentrallabor, Stadtspital Triemli, Birmensdorferstrasse 497, CH-8063 Zurich, Switzerland

² Porphyria Center, Institute of Hematology and Blood Transfusion, Chocimska 5, 00-957 Warsaw, Poland

³ Centre Francais des Porphyries, INSERM U 409, Hopital Louis Mourier, F-92701 Colombes, France

^aauthor for correspondence: e-mail xiaoye.schneider{at}triemli.stzh.ch

Erythropoietic protoporphyria (EPP) is an inherited disorder caused by a partial deficiency of the enzyme ferrochelatase. Ferrochelatase catalyzes the insertion of ferrous ions into protoporphyrin IX, the last step in heme biosynthesis. As a result of ferrochelatase deficiency, protoporphyrin is accumulated in various tissues; this accumulation is responsible for the clinical symptoms of light sensitivity and, in rare cases, liver damage (1). Several mutations have been identified in the human ferrochelatase (FECH) gene among EPP patients (2). The results indicate a possible link between the "null-allele" mutations (i.e., mutations that lead to the formation of a truncated enzyme) in the FECH gene and liver complications in EPP (3). Although EPP is considered an autosomal dominant disorder, only 10% of individuals with a defective enzyme develop clinical symptoms. A recent study suggested that symptomatic patients differ from asymptomatic gene carriers by the amount of mRNA output from the nonmutated allele. This so-called "low expressed" wild-type FECH allele, identified in EPP patients, is highly associated with a specific haplotype at two single nucleotide polymorphism (SNP) sites in the FECH gene namely, a G at the -251 position in the promoter region and a T at IVS1-23 (4). These latest developments in the pathogenesis of EPP allow prediction of the clinical course of the disease. We report here the first study conducted in an EPP family from Poland.

The proband was a 15-year-old female patient from Masuria in the northern part of Poland who had been suffering from photosensitivity since early childhood. The diagnosis of EPP was established based on the clinical symptom and laboratory analyses (Table 1 ). Ferrochelatase activity in the proband was reduced to 25% of the mean value, as is typical for EPP patients (5). A massive increase of protoporphyrin concentration was measured in both the red cells and feces. The patient had normal liver function. Although asymptomatic, the proband’s father exhibited a >50% reduction in ferrochelatase activity accompanied by a moderate increase of protoporphyrin concentration in the red cells. Neither clinical nor laboratory abnormalities were observed in the other two members of the family.

Peripheral blood samples were collected from all members of the family for isolation of genomic DNA. All 11 coding exons as well as the flanking intronic regions of the FECH gene were analyzed in the genomic DNA from the proband by denaturing gradient gel electrophoresis (DGGE) according to a method described previously (2). An abnormal DGGE pattern was observed in exon 5 of the FECH gene (Fig. 1A ). Direct sequencing of the PCR-amplified fragment containing exon 5 revealed a missense mutation, T545G, which led to the conversion of Leu-182 to Arg in ferrochelatase.

View larger version (26K): [in this window] [in a new window]   Figure 1. Molecular analysis of the FECH gene among members of a Polish EPP family. In the pedigree, the patient and the asymptomatic gene carrier are indicated by • and , respectively. (A), DGGE analysis of exon 5 of the FECH gene showing abnormalities in samples from both the proband and her father. N, control sample. (B), genotypic analysis using two SNPs (-251A/G in the promoter region and IVS1-23C/T). The mutation-bearing allele features the haplotype (-251A; IVS1-23C) and is indicated by the boxed AC. The allele that is responsible for the clinical manifestation of EPP featuring the haplotype (-251G; IVS1-23T) is indicated by the bold italic GT.

Because T545G (L182R) was, to our knowledge, a novel missense mutation in the FECH gene, its effect on enzyme activity was examined in vitro. The L182R mutation was introduced into a wild-type FECH cDNA cloned into prokaryotic expression vector pGEX-2 (2). Ferrochelatase activity of the mutant in the crude bacterial cell extracts was 0.17 ± 0.02 U (an average of four independent clones), which corresponds to <6% of the activity of 2.85 ± 0.5 U observed with the wild-type FECH cDNA. This result demonstrated that L182R was indeed a causative missense mutation. Because no other sequence abnormalities were found in the FECH gene, L182R was likely the cause of the EPP condition in the patient. Because the patient is a carrier of a missense mutation rather than a null-allele mutation, she is highly unlikely to develop EPP-related liver complications later in life, based on current knowledge (3).

The other three members of the family were screened specifically for the L182R mutation by DGGE. As shown in Fig. 1A , T545G (L182R) was also present in the DNA sample from proband’s father but was absent in samples from both her mother and her brother. The molecular analysis confirmed that the proband’s father was an asymptomatic carrier of mutation L182R.

As discussed earlier, two SNPs in the ferrochelatase gene, namely, -251A/G in the promoter region and -23C/T in intron 1, play a role in the pathogenesis of EPP (4). To verify the latest findings, the two SNPs were studied in all four members of the family, using the method described by Gouya et al. (4). Both the proband and her mother were heterozygous for both SNPs, whereas the proband’s father and brother were homozygous (-251A; IVS1-23C; Fig. 1B ). Mutation L182R resided in one of the (-251A; IVS1-23C) alleles in the father, which was passed to his daughter, the proband. From her mother, the proband inherited a wild-type FECH allele featuring the haplotype (-251G; IVS1-23T). According to the study of Gouya et al. (4), the risk for a carrier of a FECH mutation to develop EPP clinically is 60% if the person bears a wild-type FECH allele featuring the haplotype (-251G; IVS1-23T), which was the case in the proband. At the age of 40, the proband’s father was asymptomatic, and he is likely to remain so throughout his life: the likelihood that he will develop clinical symptoms is <2% because he carries a wild-type FECH allele featuring the haplotype (-251A; IVS1-23C). Our study has shown that molecular analysis of the FECH gene is able not only to detect the genetic defects underlining the EPP condition among patients and thereby enables an accurate diagnosis of asymptomatic gene carriers, but also is able to provide important clues on the clinical prognosis of the affected individuals.

Acknowledgments

This work was supported by the Swiss National Science Foundation (Grant 31-53799.98).

References

1. Cox T. Erythropoietic protoporphyria. J Inherit Metab Dis 1997;20:258-269.[Medline] [Order article via Infotrieve]
2. Rüfenacht U, Gouya L, Schneider-Yin X, Puy H, Schäfer B, Aquaron R. Systematic analysis of molecular defects in the ferrochelatase gene from patients with erythropoietic protoporphyria. Am J Hum Genet 1998;62:1341-1352.[Web of Science][Medline] [Order article via Infotrieve]
3. Schneider-Yin X, Gouya L, Meier-Weinand A, Deybach J, Minder EI. New insights into the pathogenesis of erythropoietic protoporphyria and their impacts on patient care. Eur J Pediatr 2000;159:719-725.[Web of Science][Medline] [Order article via Infotrieve]
4. Gouya L, Puy H, Lamoril J, Da Silva V, Grandchamp B, Nordmann Y, Deybach J. Inheritance in erythropoietic protoporphyria: a common wild-type ferrochelatase allelic variant with low expression accounts for clinical manifestation. Blood 1999;93:2105-2110.[Abstract/Free Full Text]
5. Li FM, Lim CK, Peters J. An HPLC assay for rat liver ferrochelatase activity. Biomed Chromatogr 1987;2:164-168.[Medline] [Order article via Infotrieve]

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