Abstract
Fragile X syndrome (FXS) is the most common inherited form of intellectual disability. Patients with FXS do not only suffer from cognitive problems, but also from abnormalities/deficits in procedural memory formation. It has been proposed that a lack of fragile X mental retardation protein (FMRP) leads to altered long-term plasticity by deregulation of various translational processes at the synapses, and that part of these impairments might be rescued by the inhibition of type I metabotropic glutamate receptors (mGluRs). We recently developed the Erasmus Ladder, which allows us to test, without any invasive approaches, simultaneously, both procedural memory formation and avoidance behavior during unperturbed and perturbed locomotion in mice. Here, we investigated the impact of a potent and selective mGluR5 inhibitor (Fenobam) on the behavior of Fmr1 KO mice during the Erasmus Ladder task. Fmr1 KO mice showed deficits in associative motor learning as well as avoidance behavior, both of which were rescued by intraperitoneal administration of Fenobam. While the Fmr1 KO mice did benefit from the treatment, control littermates suffered from a significant negative side effect in that their motor learning skills, but not their avoidance behavior, were significantly affected. On the basis of these studies in the FXS animal model, it may be worthwhile to investigate the effects of mGluR inhibitors on both the cognitive functions and procedural skills in FXS patients. However, the use of mGluR inhibitors appears to be strongly contraindicated in healthy controls or non-FXS patients with intellectual disability.
Highlights
Fmr1 KO mice show no deficits in motor performance To rule out the potential caveat that possible differences in motor learning or avoidance discrimination are partly due to differences in motor performance, we started out by testing the overall motor performance level on the Erasmus Ladder
The deficits in locomotion conditioning on the Erasmus Ladder agree with the findings by Koekkoek et al (2005) in which it was shown that Fmr1 KO mice and Fragile X syndrome (FXS) patients show deficits in classical delay eyeblink conditioning
As application of vehicle (MC alone) did not significantly affect motor behavior in the Fmr1 KO mice, it is parsimonious to conclude that the therapeutic impact of Fenobam in Fmr1 KO mice on procedural memory formation was not due to the induction of stress or other sham effects that might have been induced by the injection itself
Summary
The FMR1 gene is methylated and cannot be transcribed into mRNA, causing the absence of fragile X mental retardation protein (FMRP) (Oostra & Willemsen 2009). Besides physical characteristics such as macro-orchidism and facial features (Pfeiffer & Huber 2009), the symptoms of FXS include general deficits in cognitive processing (Van der Molen et al 2010), abnormalities in procedural memory formation (Koekkoek et al 2005), social anxiety and autisticlike behavior (Sabaratnam et al 2003). As FXS patients suffer from both motor abnormalities and cognitive deficits (Koekkoek et al 2005; Sabaratnam et al 2003; Van der Molen et al 2010), we
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