Eike Walter

Transient cortical blindness and bioccipital brain lesions in two patients with acute intermittent porphyria.

The most common neurologic manifestations of acute intermittent porphyria are autonomic visceral neuropathy, peripheral motor neuropathy, and central nervous system dysfunctions, including seizures and neuropsychiatric disturbances [1]. In rare instances, however, patients with acute intermittent porphyria have presented with acute cortical blindness [2-5], for which deleterious vasospasm in both posterior cerebral arteries has been inferred [3, 6]. We describe two patients in whom cortical blindness was the first symptom of acute intermittent porphyria. Magnetic resonance imaging showed extensive lesions involving primarily white matter of both occipital lobes consistent with vasospasm-induced ischemic lesions. However, the pathogenesis of the suspected vasospasm in acute intermittent porphyria is unknown. Because the enzyme nitric oxide synthase is a hemoprotein [7] and nitric oxide is a major vascular dilator [8], we hypothesize that severe heme deficiency during acute attacks may cause unopposed cerebral vasoconstriction due to a decrease in cerebral nitric oxide production. Case Reports Patient 1 A 35-year-old woman was hospitalized because of sudden loss of vision. With the exception of a brother with partial porphobilinogen deaminase deficiency, she had no family history of porphyria, and she had no known exposure to porphyrinogenic drugs. At admission, she appeared to be blind, was unable to see or fixate on any target (although she reacted to large moving targets), and could not see colors. The remainder of the neurologic examination was normal. During the patients first day in the hospital, she had two tonic-clonic seizures and was treated with carbamazepine and phenytoin. Computed tomography and magnetic resonance imaging showed multifocal lesions primarily in both occipital lobes (Figure 1). During the next 14 days, her vision was completely restored, but she developed flaccid tetraplegia. Electroneuromyography showed a pure axonal motor neuropathy. Routine biochemical assessments of serum and cerebrospinal fluid were normal. Urinary excretions of (delta-aminolevulinic acid [788 mol/d; normal, less than 50 mol/d], porphobilinogen (1346 mol/d; normal, less than 8 mol/d), uroporphyrin (369 nmol/d; normal, less than 60 nmol/d) and coproporphyrin III (701 nmol/d; normal, less than 200 nmol/d) were markedly increased. A diagnosis of acute intermittent porphyria was made and was confirmed by decreased porphobilinogen deaminase activity in lysed erythrocytes (51 pmol/h per mg protein; normal range, 60 to 150 pmol/h per mg protein). Plasma lead level was not elevated. She was treated with intravenous glucose (500 g/d) and hematin (4 mg/kg body weight per day; three 6-day courses of daily infusions over a 7-week period), and the biochemical and clinical signs of acute intermittent porphyria improved during the following 2 months. However, 6 months after the initial presentation, magnetic resonance imaging showed residual ischemic lesions in the bioccipital white matter. One year after the initial presentation, the patient had completely recovered. Figure 1. T2-weighted axial magnetic resonance images in Patient 1. Patient 2 A 32-year-old woman with no family history of acute intermittent porphyria and with no known exposure to porphyrinogenic drugs had abdominal hysterectomy because of a myoma. No known porphyrinogenic drugs were used for anesthesia. After this surgery, she had severe persisting abdominal pain and developed arterial hypertension (170/100 mm Hg), tachycardia (110 beats/min) and three generalized tonic-clonic seizures, for which she received phenytoin. She suddenly became blind but was unaware of her blindness (Anton syndrome [9]) and could correctly guess the direction of moving lights (Riddoch phenomenon [10]). Axial T1-weighted magnetic resonance images were compatible with cortical swelling, and T2-weighted images showed several, probably ischemic, lesions in the white matter of both occipital lobes and the right frontal lobe (Figure 2). On the basis of increased urinary excretion of delta-aminolevulinic acid (526 mol/d) and porphobilinogen (698 mol/d), a diagnosis of acute intermittent porphyria was made. Plasma lead level was not measured. After the patient received treatment with intravenous glucose (300 g/d) and heme-arginate (3 mg/kg per day; two 6-day courses of daily infusions over a period of 3 weeks), visual disturbances improved, but peripheral motor neuropathy developed, progressing rapidly to flaccid tetraparesis. Urinary excretion of porphyrin precursors returned to normal after 3 weeks of therapy with intravenous heme-arginate and high-dose glucose. However, 4 weeks later, magnetic resonance imaging showed only minimal improvement. Vision returned to normal within 3 weeks, and the tetraparesis improved within 8 months to the point that the patient was able to resume an independent lifestyle. Figure 2. T2-weighted axial magnetic resonance images in Patient 2. right panel Discussion During the last 10 years, we have seen 18 patients with severe attacks of acute intermittent porphyria. Of these, the 2 patients described here were the only ones who presented with transient cortical blindness, repetitive tonic-clonic seizures, and a severe peripheral motor neuropathy. Furthermore, magnetic resonance imaging in both patients showed cerebral abnormalities consistent with bioccipital ischemic brain lesions. These observations support the concept that multifocal ischemia and cerebral microinfarctions, possibly resulting from porphyria-induced vasospasms, may be important causes of cerebral dysfunction during acute attacks of acute intermittent porphyria [3, 5, 6]. That bilateral spreading cerebral hypoperfusion [11] and occipital magnetic resonance imaging [12] are found in patients with migraine-associated visual disturbances supports the idea that the magnetic resonance imaging abnormalities seen in our two patients may have resulted from vasospasm-induced ischemia. However, the pathogenesis of the suspected cerebral vasoconstriction in acute intermittent porphyria is unknown. Interestingly, the recently characterized enzyme nitric oxide synthase is a cytochrome P-450 type hemoprotein [7] whose activity may be reduced in situations of decreased heme production such as acute intermittent porphyria. Because nitric oxide is an established and important vasodilator in the central nervous system [8], decreased cerebral nitric oxide production in patients with acute intermittent porphyria may be associated with unopposed cerebral vasoconstriction, potentially leading to lesions in brain areas that are particularly vulnerable to hypoxia. Dr. Bont: Neurologische Universitatsklinik, Kantonsspital, Petersgraben 4, CH-4031, Basel, Switzerland. Drs. Schnorf and Landis: Hopital Cantoral de Gueve, Service de Neurologie, Rue Hicheli du Crest 24, 1211, Geneve, 14, Switzerland. Dr. Walter: Medizinische Universitatskinik, Abt. Innere Medizin II, Hugstetter Stra e 55, D-79106, Freiburg, Germany. Dr. Peter: Spital Limmattal, 8952 Schlieren, Medizinische Abteilung, Switzerland.

Hepatocellular carcinoma and hepatitis B virus infection: molecular evidence for monoclonal origin and expansion of malignantly transformed hepatocytes

SummaryThe clonality of tumor cells was studied in a patient with metastasizing hepatocellular carcinoma (HCC). Using hepatitis B virus (HBV) DNA as a genetic marker, the pattern of integration of viral DNA into the tumor cell genome was determined by Southern blot analyses of DNAs extracted from different HCC lesions in the liver and both lungs. All tumor tissues examined were found to have viral DNA integrated into the same site(s) of the cellular genome. This finding provides direct molecular evidence for a monoclonal origin and expansion of malignantly transformed hepatocytes during tumor growth and metastasis. This characteristic is similar to other human cancers associated with viral infections, such as adult T-cell leukemia, Burkitts lymphoma, or cervical cancer, and is important für our understanding of viral oncogenesis in man.

Inhibition of duck hepatitis B virus infection by lysosomotropic agents.

The early phases of hepadnaviral infection were studied in primary duck hepatocyte cultures. Incubation of duck hepatocytes in vitro with duck hepatitis B virus (DHBV) resulted in infection with high levels of viral replication. The lysosomotropic agents ammonium chloride and chloroquine effectively inhibited viral infection, indicating that DHBV infection, similar to infection with other enveloped viruses, depends on receptor-mediated endocytosis and involves membrane fusion triggered by low pH.

Duck hepatitis B virus: DNA polymerase and reverse transcriptase activities of replicative complexes isolated from liver and their inhibition in vitro

The duck hepatitis B virus (DHBV)-associated activities of reverse transcriptase and DNA polymerase and their inhibition in vitro were studied. Replicative complexes (RCs) were isolated from DHBV-infected liver by gel chromatography followed by sucrose gradient centrifugation. The RCs were detected by dot blot hybridization, using radiolabeled cloned DHBV DNA as a probe, and by the incorporation of 32P-TTP in the presence of dATP, dCTP, dGTP, and Mg2+ (endogenous DNA polymerase activity). The endogenous DNA polymerase activity associated with RCs was further studied using exogenous templates: reverse transcriptase and DNA polymerase activities were demonstrated using as substrates 32P-TTP and poly(rA) p(dT)12 or poly(dA) p(dT)12-18, respectively. Both activities were biochemically characterized. Their inhibition by various antiviral agents was studied in vitro: actinomycin D, ara-ATP, aphidicolin, suramin, chloroquin, and phosphonoformate. Among these, suramin, chloroquin, phosphonoformate, and ara-ATP were shown to be potent inhibitors of viral reverse transcriptase and DNA polymerase. Studies are now in progress to establish their antiviral activity in vivo.

Duck hepatitis B virus: cloning and subcloning of the viral genome.

In the course of studies on the biology of hepadnavirus infections, duck hepatitis B virus (DHBV) DNA was isolated from the serum of a German Pekin duck. Viral DNA was cloned in E. coli using pBR 322 DNA as a vector. The cloned DHBV DNA F 1-6 was characterised by restriction enzyme analyses. DHBV DNA F 1-6 was subcloned in both orientations in plasmid pSP 65 to produce strand-specific RNA probes. These probes specifically identified asymmetrically replicating nascent minus-strand DHBV DNA species or plus-strand viral RNA transcripts.