Reelin is a large secreted protein important for brain development and functions. In both humans and mice, the lack of Reelin gene causes cerebellar hypoplasia and ataxia. Treatment against Reelin deficiency is currently unavailable. Here, we show that the injection of recombinant Reelin protein into the cerebellum of Reelin-deficient reeler mice at postnatal day 3 ameliorates the forelimb coordination and mice are noted to stand up along cage wall more frequently. A mutant Reelin protein resistant to proteases has no better effect than the wild-type Reelin. Such ameliorations were not observed when a mutant Reelin protein that does not bind to Reelin receptors was injected and the injection of Reelin protein did not ameliorate the behavior of Dab1-mutant yotari mice, indicating that its effect is dependent on the canonical Reelin receptor-Dab1 pathway. Additionally, a Purkinje cell layer in reeler mice was locally induced by Reelin protein injection. Our results indicate that the reeler mouse cerebellum retains the ability to react to Reelin protein in the postnatal stage and that Reelin protein has the potential to benefit Reelin-deficient patients.
Keywords: Ataxia; Cerebellum; Locomotor; Purkinje cell; Reelin; reeler mice.
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