Motor neuropathy in porphobilinogen deaminase–deficient mice imitates the peripheral neuropathy of human acute porphyria
Raija L.P. Lindberg, … , Klaus V. Toyka, Urs A. Meyer
Raija L.P. Lindberg, … , Klaus V. Toyka, Urs A. Meyer
Published April 15, 1999
Citation Information: J Clin Invest. 1999;103(8):1127-1134. https://doi.org/10.1172/JCI5986.
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Article

Motor neuropathy in porphobilinogen deaminase–deficient mice imitates the peripheral neuropathy of human acute porphyria

Abstract

Acute porphyrias are inherited disorders caused by partial deficiency of specific heme biosynthesis enzymes. Clinically, porphyrias are manifested by a neuropsychiatric syndrome that includes peripheral neuropathy. Although much is known about the porphyrias’ enzyme defects and their biochemical consequences, the cause of the neurological manifestations remains unresolved. We have studied porphyric neuropathy in mice with a partial deficiency of porphobilinogen deaminase (PBGD). PBGD-deficient mice (PBGD–/–) imitate acute porphyria through massive induction of hepatic δ-aminolevulinic acid synthase by drugs such as phenobarbital. Here we show that PBGD–/– mice develop impairment of motor coordination and muscle weakness. Histologically femoral nerves of PBGD–/– mice exhibit a marked decrease in large-caliber (>8 μm) axons and ultrastructural changes consistent with primary motor axon degeneration, secondary Schwann cell reactions, and axonal regeneration. These findings resemble those found in studies of affected nerves of patients with acute porphyria and thus provide strong evidence that PBGD deficiency causes degeneration of motor axons without signs of primary demyelination, thereby resolving a long-standing controversy. Interestingly, the neuropathy in PBGD–/– mice developed chronically and progressively and in the presence of normal or only slightly (twofold) increased plasma and urinary levels of the putative neurotoxic heme precursor δ-aminolevulinic acid. These data suggest that heme deficiency and consequent dysfunction of hemeproteins can cause porphyric neuropathy.

Authors

Raija L.P. Lindberg, Rudolf Martini, Matthias Baumgartner, Beat Erne, Jacques Borg, Jürgen Zielasek, Kenneth Ricker, Andreas Steck, Klaus V. Toyka, Urs A. Meyer

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Figure 1

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Light micrographs of semi-thin plastic sections of femoral quadriceps ne...
Light micrographs of semi-thin plastic sections of femoral quadriceps nerves of control (a, c, and e) and PBGD–/– (b, d, and f) mice at two months (a and b), six months (c and d), and 17 months (e and f) of age. (g) Number of axons in quadriceps nerves. Numbers represent mean values from three mice ± SD. Largest axons were thicker than 5 μm in two-month-old mice and thicker than 8 μm in six- and 17-month-old mice. *Significantly different compared with control mice (P < 0.05). **Significantly different compared with control mice (P < 0.01). (a and b) At two months of age, there are no pathological alterations in femoral quadriceps nerves of PBGD–/– mice. (c and d) At six months of age, quadriceps nerves from PBGD–/– mice are characterized by a significant loss of axonal profiles of larger caliber. In addition, abnormal myelin profiles (arrows) and extended regions not occupied by myelinated fibers are typical findings. (e and f) At 17 months of age, the overall diameter of the femoral nerve and the number of axonal profiles of larger caliber is strongly reduced. Scale bar: 10 μm.