The porphyrias: an example of pharmacogenetic disease

HPLC methods for analysis of porphyrins in biological media

Changes in porphyrin concentrations in biological media may serve as biological indicators of exposure and toxicity from a wide variety of drugs and chemical agents. This unit describes procedures for quantitative extraction of porphyrins from urine, feces, blood, and biological tissues as well as their separation and analysis by HAPLY spectrofluorometrc techniques.

Plasmapheresis combined with somatostatin is a successful treatment of porphyrias

During acute attacks of hepatic porphyria, levels of polypeptides, vasoactive intestinal peptides, neurotensin, substance P, pancreatic polypeptide, gastrin releasing polypeptide, gastrin, and motilin increased in the circulation while the clinical symptoms were evident. However, somatostatin decrease was not detected. Somatostatin belongs to a group of regulatory peptides that antagonize the action of endogenous steroid hormones, and decreasing their bioavailability decreases the rate of synthesis of delta-aminolevulinate synthase, alpha-aminolevunilic acid (ALA), and polypeptides. Plasma exchange was conducted in courses for 2 consecutive days every 28 days (total of 6 courses), removing more than 100% of the patient plasma each time. Between the 2 courses of plasmapheresis, subcutaneous injections of somatostatin (100-500 mcg) were administered. A lasting disappearance of pain and complete remission were obtained in all 7 patients treated. Plasmapheresis combined with somatostatin may be considered as a treatment of porphyria exacerbation.

Safety of general anaesthesia and surgery in acute hepatic porphyria

Patients with acute hepatic porphyria are denied essential operations because of concern that general anaesthesia and surgery will precipitate a life threatening porphyric crisis. This study assessed the safety of surgery under general anaesthesia in these patients. A combined prospective and retrospective case note study, with a biochemical study, was conducted in 25 patients with acute hepatic porphyria undergoing 38 surgical operations. Clinical outcome measures were survival and occurrence of porphyric crisis after surgery. The biochemical activity of porphyria was assessed by measurement of the perioperative 24 hour excretion of the haem precursors delta amino-laevulinic acid (ALA) and porphobilinogen (PBG). There were no deaths or crises after 29 operations in 19 patients who were known to have porphyria before their surgery, and therefore given only appropriate drugs. These operations include such major procedures as mitral valve replacement, hip replacement, coronary artery grafting, cholecystectomies, and renal transplantation. In eight of these patients the urinary excretion of ALA and PBG were studied, and showed no sustained postoperative increase. Nine operations were performed in eight patients before the diagnosis of porphyria was known and who thus received routine anaesthetic agents. Seven of these patients developed a postoperative porphyric crisis. Two of them died. It is concluded therefore that even the most major surgery can be undertaken safely in patients with porphyria. The risk is for undiagnosed cases.

Urinary porphyrins as biological indicators of oxidative stress in the kidney. Interaction of mercury and cephaloridine

Reduced porphyrins (hexahydroporphyrins, porphyrinogens) are readily oxidized in vitro by free radicals which are known to mediate oxidative stress in tissue cells. To determine if increased urinary porphyrin concentrations may reflect oxidative stress to the kidney in vivo, we measured the urinary porphyrin content of rats treated with mercury as methyl mercury hydroxide (MMH) or cephaloridine, both nephrotoxic, oxidative stress-inducing agents. Rats exposed to MMH at 5 ppm in the drinking water for 4 weeks showed a 4-fold increase in 24-hr total urinary porphyrin content and a 1.3-fold increase in urinary malondialdehyde (MDA), an established measure of oxidative stress in vivo. Treatment with cephaloridine alone (10-500 mg/kg, i.p.) produced a dose-related increase in urinary MDA and total porphyrin levels up to 1.6 and 7 times control values, respectively. Injection of MMH-treated rats with cephaloridine (500 mg/kg) caused a synergistic (20-fold) increase in urinary porphyrin levels, but an additive (1.9-fold) increase in the MDA concentration. Studies in vitro demonstrated that cephaloridine stimulated the iron-catalyzed H2O2-dependent oxidation of porphyrinogens to porphyrins in the absence of either microsomes or mitochondria. Additionally, porphyrinogens were oxidized to porphyrins in an iron-dependent microsomal lipid peroxidation system. Moreover, porphyrinogens served as an effective antioxidant (EC50 approximately 1-2 microM) to lipid peroxidation. These results demonstrate that MMH and cephaloridine synergistically, as well as individually, promote increased oxidation of reduced porphyrins in the kidney and that this action may be mechanistically linked to oxidative stress elicited by these chemicals. Increased urinary porphyrin levels may, therefore, represent a sensitive indicator of oxidative stress in the kidney in vivo.

Studies in laboratory animals to assess the safety of anti-inflammatory agents in acute porphyria

The safety of various anti-inflammatory drugs in acute porphyria was assessed by examining their effect on rat hepatic haem synthesis. Azapropazone, chloroquine, and gold increased delta-aminolaevulinic acid (ALA) synthase activity, indicating that they are liable to precipitate porphyric crises. Aspirin, ibuprofen, indomethacin, ketoprofen, flurbiprofen, phenylbutazone, naproxen, prednisolone, and penicillamine did not increase ALA synthase activity and should be safe in porphyria. Though these animal studies can be used as a guide to prescribing in patients with acute porphyria, some caution is still required as species may vary in their response to inducing agents.

Screening for latent acute intermittent porphyria: the value of measuring both leucocyte delta-aminolaevulinic acid synthase and erythrocyte uroporphyrinogen-1-synthase activities

Acute intermittent porphyria (AIP) is an autosomal dominantly inherited disorder of haem biosynthesis characterised by reduced activity of the enzyme uroporphyrinogen-1-(URO) synthase and compensatory increased activity of the rate controlling enzyme delta-aminolaevulinic acid (ALA) synthase. Subjects with the disorder should be identified as they are at risk of developing severe porphyric attacks if exposed to a variety of drugs or chemicals. We have assessed the value of measuring the activities of ALA synthase and URO synthase in peripheral blood cells as a means of identifying latent cases in affected families. In AIP subjects, ALA synthase activity was increased and URO synthase decreased compared to controls, through there was considerable overlap between the two groups when either enzyme was examined alone. When both enzymes were examined together, all but one of the 19 AIP patients had both increased ALA synthase activity (greater than 250 nmol ALA/g protein/h) and reduced URO synthase activity (less than 25.1 nmol URO/l RBC/h), whereas none of the 62 controls showed this enzyme pattern. Examination of 35 asymptomatic first degree blood relatives of AIP patients showed that 17 (49%) had the porphyric enzyme pattern with no sex bias. The combined study of these two enzymes permits accurate detection of latent cases of AIP and confirms its autosomal dominant inheritance.