A recessive Trim2 mutation causes an axonal neuropathy in mice

We analyzed Trim2A/A mice, generated by CRISPR-Cas9, which have a recessive, null mutation of Trim2. Trim2A/A mice develop ataxia that is associated with a severe loss of cerebellar Purkinje cells and a peripheral neuropathy. Myelinated axons in the CNS, including those in the deep cerebellar nuclei, have focal enlargements that contain mitochondria and neurofilaments. In the PNS, there is a loss of myelinated axons, particularly in the most distal nerves. The pathologically affected neuronal populations – primary sensory and motor neurons as well as cerebellar Purkinje cells – express TRIM2, suggesting that loss of TRIM2 in these neurons results in cell autonomous effects on their axons. In contrast, these pathological findings were not found in a second strain of Trim2 mutant mice (Trim2C/C), which has a partial deletion in the RING domain that is needed for ubiquitin ligase activity. Both the Trim2A and the Trim2C alleles encode mutant TRIM2 proteins with reduced ubiquitination activity. In sum, Trim2A/A mice are a genetically authentic animal model of a recessive axonal neuropathy of humans, apparently for a function that does not depend on the ubiquitin ligase activity.