Progressive motor weakness in transgenic mice expressing human TDP-43

Familial ALS patients with TDP-43 gene mutations and sporadic ALS patients share common TDP-43 neuronal pathology. To delineate mechanisms underlying TDP-43 proteinopathies, transgenic mice expressing A315T, M337V or wild type human TDP-43 were generated. Multiple TDP-43 founders developed a severe early motor phenotype that correlated with TDP-43 levels in spinal cord. Three A315T TDP-43 lines developed later onset paralysis with cytoplasmic ubiquitin inclusions, gliosis and TDP-43 redistribution and fragmentation. The WT TDP-43 mouse line with highest spinal cord expression levels remains asymptomatic, although these mice show spinal cord pathology. One WT TDP-43 line with high skeletal muscle levels of TDP-43 developed a severe progressive myopathy. Over-expression of TDP-43 in vivo is sufficient to produce progressive motor phenotypes by a toxic gain of function paradigm. Transgenic mouse lines expressing untagged mutant and wild type TDP-43 under the same promoter represent a powerful new model system for studying TDP-43 proteinopathies in vivo.

Research highlights►Generation of transgenic mice expressing human A315T, M337V or wild type TDP-43; ►Early post natal weakness and paralysis in both mutant and wild type founders; ►Propagating A315T TDP-43 lines develop progressive weakness with CNS pathology; ►CNS pathology has cytoplasmic ubiquitin inclusions and TDP-43 fragmentation; and ►Over-expression of wild type TDP-43 in muscle produces a severe myopathy.