RESUMO
Variegate porphyria (VP) results from a hereditary deficiency of protoporphyrinogen oxidase (PPOX) that is transmitted in an autosomal dominan fashion. The diagnosis is based on the clinical symptoms and is confirmed biochemically. Sometimes, however, these diagnostic tools reveal limitations in establishing the definitive diagnosis of the prevailing type of acute porphyria. In these patients, molecular genetic analyses can be useful. We performed molecular genetic studies in 13 Chilean families by PCR amplification of the PPOX gene, conformation sensitive gel electrophoresis, and automated DNA sequencing. In five symptomatic patients from different families, respectively, the biochemical data confirmed the diagnosis of VP. In seven other families, however, the biochemical studies were not conclusive. Furthermore, the original biochemical analysis in one clinically severely affected patient from a further family even suggested the diagnosis of erythropoietic protoporphyria (EPP). Beside the respective index patients, we studied 78 asymptomatic family members and 50 healthy, unrelated individuals for control purposes. In five families, the previous diagnosis of VP could be confirmed genetically. Further, half of the asymptomatic relatives revealed a mutation in the PPOX gene, consisting of three missense mutations and two deletion mutations. Mutation R168H that had been already described previously in German VP families was found in a Chilean family of German origin. Further, two novel missense mutations, designated L74P and G232S, could be detected. In four Chilean families, we found the deletion 1330deICT that had also been previously described in three Swedish VP families. The second deletion, 1239delTACAC, has not been described anywhere else but Chile and could be identified in seven families. One patient who was initially diagnosed with EPP turned out to be a compound heterozygote for mutations on both alleles of the PPOX gene. In conclusion, our molecular genetic analyses unequivocally confirmed the diagnosis of VP in seven families who originally had revealed inconclusive biochemical data. Further, early genetic analysis allows for the identification of asymptomatic mutation carriers, thereby offering the possibility of adequate counselling and the prevention of potentially life-threatening acute porphyric attacks.
Assuntos
Porfiria Variegada/genética , Protoporfirinogênio Oxidase/genética , Chile , Flavoproteínas/genética , Predisposição Genética para Doença , Humanos , Proteínas Mitocondriais/genética , Mutação , Porfiria Variegada/diagnóstico , Porfiria Variegada/enzimologiaRESUMO
Variegate porphyria (VP) results from a hereditary deficiency of protoporphyrinogen oxidase (PPOX) that is transmitted in an autosomal dominan fashion. The diagnosis is based on the clinical symptoms and is confirmed biochemically. Sometimes, however, these diagnostic tools reveal limitations in establishing the definitive diagnosis of the prevailing type of acute porphyria. In these patients, molecular genetic analyses can be useful. We performed molecular genetic studies in 13 Chilean families by PCR amplification of the PPOX gene, conformation sensitive gel electrophoresis, and automated DNA sequencing. In five symptomatic patients from different families, respectively, the biochemical data confirmed the diagnosis of VP. In seven other families, however, the biochemical studies were not conclusive. Furthermore, the original biochemical analysis in one clinically severely affected patient from a further family even suggested the diagnosis of erythropoietic protoporphyria (EPP). Beside the respective index patients, we studied 78 asymptomatic family members and 50 healthy, unrelated individuals for control purposes. In five families, the previous diagnosis of VP could be confirmed genetically. Further, half of the asymptomatic relatives revealed a mutation in the PPOX gene, consisting of three missense mutations and two deletion mutations. Mutation R168H that had been already described previously in German VP families was found in a Chilean family of German origin. Further, two novel missense mutations, designated L74P and G232S, could be detected. In four Chilean families, we found the deletion 1330deICT that had also been previously described in three Swedish VP families. The second deletion, 1239delTACAC, has not been described anywhere else but Chile and could be identified in seven families. One patient who was initially diagnosed with EPP turned out to be a compound heterozygote for mutations on both alíeles of the PPOX gene. In conclusion, our molecular genetic analyses unequivocally confirmed the diagnosis of VP in seven families who originally had revealed inconclusive biochemical data. Further, early genetic analysis allows for the identification of asymptomatic mutation carriers, thereby offering the possibility of adequate counselling and the prevention of potentially life-threatening acute porphyric attacks.
La porfiria variegata (PV), enfermedad de origen genético con forma de herencia autosómica dominante, se debe a deficiencia en la actividad protoporfirinógeno oxidasa (PPOX). Su diagnóstico se basa en antecedentes clínicos y se confirma con análisis bioquímicos. Éstos, en algunos casos, pueden presentar limitaciones para establecer el diagnóstico definitivo de la variedad de porfiria aguda, situación en que el estudio genético molecular puede resultar útil. Se efectuó estudio genético en trece familias chilenas usando amplificación del gen PPOX por PCR, electroforesis conformacional y secuenciación automática de DNA. Cinco de estas familias incluían pacientes índices sintomáticos con diagnóstico bioquímico establecido de PV; otras siete familias incluían pacientes índices con estudio bioquímico no concluyente de la variedad de porfiria aguda y, finalmente, una familia con diagnóstico previo de protoporfiria eritropoyética (PPE). Además, se estudiaron 78 familiares asintomáticos y 50 personas sanas, no relacionadas, como controles. En cinco familias el estudio genético confirmó el diagnóstico bioquímico previo de PV. El 50% de los familiares asintomáticos resultaron ser portadores de una mutación en el gen PPOX. Se identificaron tres mutaciones por sustitución de bases: la R168H, descrita en familias de origen alemán y dos nuevas mutaciones, designadas L74P y G232S. También se identificaron dos mutaciones por deleción de bases designadas 1330delCT y la 1239delTACAC. La primera, que había sido descrita previamente en tres familias suecas, se encontró en cuatro familias chilenas. La segunda se encontró en siete familias y no ha sido descrita previamente. El estudio genético permitió mostrar que un paciente que originalmente fue diagnosticado con PPE correspondía a un heterocigoto compuesto para dos mutaciones en el gen PPOX. En conclusión, los estudios moleculares permitieron confirmar el diagnóstico de PV en cinco familias, efectuar diagnóstico de PV en familias en las cuales los datos bioquímicos no eran concluyentes, corregir el diagnóstico original en una familia e identificar portadores asintomáticos entre los familiares de los pacientes índices. Los estudios genéticos moleculares ayudan a realizar un adecuado consejo genético a pacientes y familiares y hace posible practicar prevención de las crisis agudas de porfiria, las que son potencialmente mortales.
Assuntos
Humanos , Porfiria Variegada/genética , Protoporfirinogênio Oxidase/genética , Chile , Flavoproteínas/genética , Predisposição Genética para Doença , Mutação , Proteínas Mitocondriais/genética , Porfiria Variegada/diagnóstico , Porfiria Variegada/enzimologiaRESUMO
The porphyrias are heterogeneous disorders arising from predominantly inherited catalytic deficiencies of specific enzymes in heme biosynthesis. Porphyria cutanea tarda (PCT) results from a decreased activity of uroporphyrinogen decarboxylase, the fifth enzyme in heme biosynthesis. The disorder represents the only porphyria that is not exclusively inherited monogenetically. In PCT, at least two different types can be distinguished: acquired/sporadic (type I) PCT, in which the enzymatic deficiency is limited to the liver and inherited/familial (type II) PCT, which is inherited as an autosomal dominant trait with a decrease of enzymatic activity in all tissues. In an effort to characterize the molecular basis of PCT in Chile, we identified eight mutations in 18 previously unclassified PCT families by polymerase chain reaction, heteroduplex analysis, and automated sequencing. To study the role of these mutations in disease causality, in vitro expression of all novel missense mutations was studied. Our results indicate that the frequency of familial PCT in Chile is approximately 50%, thus, to our knowledge, representing the highest incidence of familial PCT reported to date. The data further emphasize the molecular heterogeneity in type II PCT and demonstrate the advantages of molecular genetic techniques as a diagnostic tool and in the detection of clinically asymptomatic mutation carriers.