Loss of murine TDP-43 disrupts motor function and plays an essential role in embryogenesis

BC Kraemer, T Schuck, JM Wheeler, LC Robinson… - Acta …, 2010 - Springer
BC Kraemer, T Schuck, JM Wheeler, LC Robinson, JQ Trojanowski, VMY Lee
Acta neuropathologica, 2010Springer
Abnormal TDP-43 aggregation is a prominent feature in the neuropathology of amyotrophic
lateral sclerosis (ALS) and frontotemporal lobar degeneration. Mutations in TARDBP, the
gene encoding TDP-43, cause some cases of ALS. The normal function of TDP-43 remains
incompletely understood. To better understand TDP-43 biology, we generated mutant mice
carrying a genetrap disruption of Tardbp. Mice homozygous for loss of TDP-43 are not
viable. TDP-43 deficient embryos die about day 7.5 of embryonic development thereby …
Abstract
Abnormal TDP-43 aggregation is a prominent feature in the neuropathology of amyotrophic lateral sclerosis (ALS) and frontotemporal lobar degeneration. Mutations in TARDBP, the gene encoding TDP-43, cause some cases of ALS. The normal function of TDP-43 remains incompletely understood. To better understand TDP-43 biology, we generated mutant mice carrying a genetrap disruption of Tardbp. Mice homozygous for loss of TDP-43 are not viable. TDP-43 deficient embryos die about day 7.5 of embryonic development thereby demonstrating that TDP-43 protein is essential for normal prenatal development and survival. However, heterozygous Tardbp mutant mice exhibit signs of motor disturbance and muscle weakness. Compared with wild type control littermates, Tardbp +/− animals have significantly decreased forelimb grip strength and display deficits in a standard inverted grid test despite no evidence of pathologic changes in motor neurons. Thus, TDP-43 is essential for viability, and mild reduction in TDP-43 function is sufficient to cause motor deficits without degeneration of motor neurons.
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