Axonal degeneration in paraplegin-deficient mice is associated with abnormal mitochondria and impairment of axonal transport
Fatima Ferreirinha, … , Andrea Ballabio, Elena I. Rugarli
Fatima Ferreirinha, … , Andrea Ballabio, Elena I. Rugarli
Published January 15, 2004
Citation Information: J Clin Invest. 2004;113(2):231-242. https://doi.org/10.1172/JCI20138.
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Article Neuroscience

Axonal degeneration in paraplegin-deficient mice is associated with abnormal mitochondria and impairment of axonal transport

Abstract

In several neurodegenerative diseases, axonal degeneration occurs before neuronal death and contributes significantly to patients’ disability. Hereditary spastic paraplegia (HSP) is a genetically heterogeneous condition characterized by selective degeneration of axons of the corticospinal tracts and fasciculus gracilis. HSP may therefore be considered an exemplary disease to study the local programs mediating axonal degeneration. We have developed a mouse model for autosomal recessive HSP due to mutations in the SPG7 gene encoding the mitochondrial ATPase paraplegin. Paraplegin-deficient mice are affected by a distal axonopathy of spinal and peripheral axons, characterized by axonal swelling and degeneration. We found that mitochondrial morphological abnormalities occurred in synaptic terminals and in distal regions of axons long before the first signs of swelling and degeneration and correlated with onset of motor impairment during a rotarod test. Axonal swellings occur through massive accumulation of organelles and neurofilaments, suggesting impairment of anterograde axonal transport. Retrograde axonal transport is delayed in symptomatic mice. We speculate that local failure of mitochondrial function may affect axonal transport and cause axonal degeneration. Our data suggest that a timely therapeutic intervention may prevent the loss of axons.

Authors

Fatima Ferreirinha, Angelo Quattrini, Marinella Pirozzi, Valentina Valsecchi, Giorgia Dina, Vania Broccoli, Alberto Auricchio, Fiorella Piemonte, Giulia Tozzi, Laura Gaeta, Giorgio Casari, Andrea Ballabio, Elena I. Rugarli

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Ultrastructural analyses of axons in the spinal cord and the sciatic ner...
Ultrastructural analyses of axons in the spinal cord and the sciatic nerve of Spg7–/– mice show accumulation of organelles and disorganization of the cytoskeleton. (a) Longitudinal section of a spinal axon of a 15-month-old paraplegin-deficient mouse, showing segmental swellings. Filamentous aggregates and degenerating mitochondria (arrows) accumulate in the axoplasm. (b) Transverse section of the spinal cord in a 15-month-old Spg7–/– mouse shows an axonal swelling with massive accumulation of filamentous aggregates and loss of organelles. (c) Enlargement of the axoplasm of the axon in b showing that neurofilaments have lost their normal orientation and form disorganized bundles. (d and e) Electron microscopy analysis of sciatic nerve of a 22-month-old Spg7–/– mouse. Neurofilamentous accumulations and focal accumulations of enlarged mitochondria with varying degrees of loss of structural integrity, and excessive or disorganized cristae, are observed in myelinated fibers (d). Arrow in d indicates onion-like arrangement of mitochondrial cristae. Abnormal mitochondria are present also in unmyelinated fibers (e). Both myelin-forming and non–myelin-forming Schwann cells show normal mitochondria (arrowhead in d and e). (f and g) Representative cross section of sciatic nerve axons from a Spg7+/+ (f) and an Spg7–/– (g) mouse at 22 months, showing increased neurofilament density in Spg7–/– animals. Bar represents 4 μm in a, 7 μm in b, 0.4 μm in c, f, and g, 5 μm in d, and 3.33 μm in e.