Correlation between biochemical findings, structural and enzymatic abnormalities in mutated HMBS identified in six Israeli families with acute intermittent porphyria.

Mutations in the hydroxymethylbilane synthase (HMBS) gene are responsible for the inherited disorder of acute intermittent porphyria (AIP). AIP is diagnosed on the basis of characteristic clinical symptoms, elevated levels of urinary porphyrin precursors aminolevulinic acid (ALA) and porphobilinogen (PBG) and a decreased erythrocytic HMBS activity, although an identifiable HMBS mutation provides the ultimate proof for AIP. Six Israeli AIP families underwent biochemical and mutation analysis in order to establish an AIP diagnosis. Variability with respect to the ALA/PBG levels and HBMS activity was found among the index patients. Indeed, each family carried a unique mutation in the HMBS gene. A novel missense c.95G>C (p.R32P) was shown to be a de novo mutation in one family, along with five known mutations p.T59I, p.D178N, p.V215M, c.730_731delCT and c.982_983delCA identified in the rest of the families. Both R32P and D178N were expressed in a prokaryotic system. Recombinant p.R32P was enzymatically inactive as demonstrated by a <1% residual activity, whereas p.D178N possessed 81% of the activity of the wild type enzyme. However, the p.D178N mutant did display a shift in optimal pH and was thermo labile compared to the wild type. Among the four missense mutations, p.R32P and p.V215M had not only harmful effects on the enzyme in vitro but also were associated with high levels of ALA/PBG in patients. On the other hand, the in vitro effect of both p.T59I and p.D178N, and the impact of these mutations on the enzyme structure and function as interpreted by the 3-D structure of the Escherichia coli enzyme, were weaker than that of p.R32P and p.V215M. Concomitantly, patients carrying the p.T59I or p.D178N had normal or borderline increases in ALA/PBG concentrations although they presented characteristic clinical symptoms. These findings provided further insights into the causal relationship between HMBS mutations and AIP.

Characterization of two missense variants in the hydroxymethylbilane synthase gene in the Israeli population, which differ in their associations with acute intermittent porphyria.

Acute intermittent porphyria (AIP) is an autosomal dominant disorder of heme biosynthesis caused by molecular defects in the hydroxymethylbilane synthase (HMBS) gene. In this study, we report two novel missense sequence variations in the HMBS gene, T59I (C176T) and V215M (G643A), in two patients with clinical symptoms compatible with acute attacks of porphyria. However, only the patient who carried V215M presented with full AIP-affirming biochemical evidence. Both variant proteins were expressed in a prokaryotic system and characterized in vitro. Recombinant T59I and V215M had residual activity of 80.6% and 19.4%, respectively, of that of the wild type enzyme. Moreover, changes in K(m), V(max) and thermostability observed in the recombinant V215M suggest a causal relationship between V215M and AIP. The association between the T59I substitution and AIP is less obvious. Based on our investigation, substitution T59I is more likely to be a mutation with a weak effect than a rare form of polymorphism. This study demonstrates that in vitro characterization of missense variations in the HMBS gene can provide valuable information for the interpretation of clinical, biochemical and genetic data, for establishing a diagnosis of AIP. It also highlights the fact that there are still many aspects to be investigated concerning AIP and corroborates the need to report new data that can help to clarify the genotype-phenotype relationship.

Acute intermittent porphyria, Rasmussen encephalitis, or both?

A case of a young woman who suffers from refractory epilepsy in the form of Rasmussen encephalitis and acute intermittent porphyria is presented. The patient developed refractory partial seizures with progressive hemispheric atrophy in the first decade. Both her serum and cerebrospinal fluid contained significantly elevated levels of anti-GluR3B antibodies. Her serum also contained anti-NR2A antibodies (directed against the N-methyl-D-aspartate receptor). Seven years later, acute intermittent porphyria was diagnosed as she developed an acute episode of abdominal pain, dark urine, and hyponatremia. For several years, all attempts to discontinue porphyrinogenic antiepileptic drugs such as phenobarbital and valproate resulted in seizure worsening. During a major acute intermittent porphyria crisis, brain edema and coma developed, allowing the discontinuation of phenobarbital. On recovery, atrophy of the right hemisphere ensued. Several etiologic hypotheses are presented. Double insults, porphyria, and an autoimmune process are suggested for the development of Rasmussen encephalitis in this patient. The authors recommend testing for porphyria in cases of Rasmussen encephalitis and other intractable seizures.

Acute intermittent porphyria: psychosis as the only clinical manifestation.

Acute intermittent porphyria (AIP) is the most common of the four forms of neuroporphyria. AIP mimics a variety of disorders and thus poses a diagnostic quagmire. Abdominal pain occurs in 90-95% of the attacks. Some patients develop psychiatric symptoms such as psychosis similar to schizophrenia. The diagnostic difficulty may lead to under-diagnosis of patients who present with strictly psychiatric symptoms. This assumption is supported by a high prevalence of AIP in psychiatric hospitals. Therefore, we encourage a high index of suspicion for AIP in psychiatric patients in order to prevent false psychiatric diagnosis. In addition we discuss psychotropic drugs that may exacerbate acute attacks in undiagnosed patients. We report a case in which the diagnosis of AIP was clouded by the presence of only psychiatric symptoms. The clue for diagnosis was an anamnestic detail of the use of a porphyrogenic drug prior to the admission. The diagnosis of AIP was supported by excess of alpha aminolevulinic acid (ALA) and porphobilinogen (PBG) in urine concomitantly with a decrease in porphobilinogen deaminase (PBGD) activity in erythrocytes. The diagnosis was further strengthened by the fact that the patient's father was identified as an AIP carrier. However, in the absence of typical organic symptoms of porphyria, one cannot definitely rule out the presence of schizophrenia in this patient in addition to AIR

Acute neuropathy mimicking porphyria induced by aminolevulinic acid during photodynamic therapy.

An 82-year-old man developed severe, acute, predominantly motor polyneuropathy, signs of autonomic involvement, and skin changes following aminolevulinic acid (ALA) administration. The compound was used as a prodrug for photodynamic therapy of Barrett's esophagitis. Changes were observed in various parameters of the heme pathway. The case reported represents a rare response to ALA treatment, resembling an acute attack of hepatic porphyria with neurological features.

A "null allele" mutation is responsible for erythropoietic protoporphyria in an Israeli patient who underwent liver transplantation: relationships among biochemical, clinical, and genetic parameters.

Mutations in the human ferrochelatase gene (FECH) are the primary cause of the inborn disorder erythropoietic protoporphyria (EPP). While the majority of the EPP patients exhibit only photosensitivity, a small percentage of patients (approximately 2%) develop liver complications in addition to the cutaneous symptoms. In this study, the FECH gene of an Israeli EPP patient who suffered from EPP-related liver complications was sequenced. A splicing defect IVS10+1, g-->t, which is known to cause the deletion of exon 10, was identified in the index patient as well as in his symptomatic older sister and his asymptomatic mother. Like the other 12 known FECH mutations associated with liver complications, IVS10+1, g-->t is a "null-allele" mutation. Although the two siblings with overt EPP share an identical genotype with respect to both the mutation on one FECH allele and three intragenic single nucleotide polymorphisms, -251G, IVS1-23T, and IVS3-48C on the other allele, the sister of the index patient has so far shown no signs of liver involvement, suggesting that additional factors might account for the liver disease in EPP.