Challenges in developing therapies in fragile X syndrome: how the FXLEARN trial can guide research

To study the national prevalence of ten developmental disabilities in US children aged 3–17 years and explore changes over time by associated demographic and socioeconomic characteristics using the 2009–2017 National Health Interview Survey (NHIS). Data come from the NHIS, a nationally-representative survey of the civilian noninstitutionalized population. Parents reported physician or other health care professional diagnoses of attention-deficit/hyperactivity disorder (ADHD); autism spectrum disorder (ASD); blindness; cerebral palsy; moderate to profound hearing loss; learning disability (LD); intellectual disability (ID); seizures; stuttering or stammering; and other developmental delays. Weighted percentages for each of the selected developmental disabilities and any developmental disability were calculated between 2009–2017 and stratified by selected demographic/socioeconomic characteristics. From 2009–2011 to 2015–2017, there were overall significant increases in the prevalence of any developmental disability (16.2% to 17.8%, p<.001), ADHD (8.5% to 9.5%, p <.01), ASD (1.1% to 2.5%, p <.001), and ID (0.9% to 1.2%, p <.05), but a significant decrease for any other developmental delay (4.7% to 4.1% , p <.05). The prevalence of any developmental disability increased among boys, children ages 12–17, non-Hispanic white and Hispanic children, children with private insurance only, and children with birthweights ≥2,500 grams. An increase in prevalence of any developmental disability was also seen for children living in urban areas and with less educated mothers. The prevalence of developmental disability among US children aged 3–17 years increased between 2009–2017. Changes by demographic and socioeconomic subgroups may be related to improvements in awareness and access to health care. From the 2009–2017 NHIS, there was a 9.5% increase in the prevalence of developmental disabilities among children aged 3–17.

Neurodevelopmental disorders such as fragile X syndrome (FXS) result in lifelong cognitive and behavioural deficits and represent a major public health burden. FXS is the most frequent monogenic form of intellectual disability and autism, and the underlying pathophysiology linked to its causal gene, FMR1, has been the focus of intense research. Key alterations in synaptic function thought to underlie this neurodevelopmental disorder have been characterized and rescued in animal models of FXS using genetic and pharmacological approaches. These robust preclinical findings have led to the implementation of the most comprehensive drug development programme undertaken thus far for a genetically defined neurodevelopmental disorder, including phase IIb trials of metabotropic glutamate receptor 5 (mGluR5) antagonists and a phase III trial of a GABAB receptor agonist. However, none of the trials has been able to unambiguously demonstrate efficacy, and they have also highlighted the extent of the knowledge gaps in drug development for FXS and other neurodevelopmental disorders. In this Review, we examine potential issues in the previous studies and future directions for preclinical and clinical trials. FXS is at the forefront of efforts to develop drugs for neurodevelopmental disorders, and lessons learned in the process will also be important for such disorders.

Fragile X syndrome (FXS), the most common cause of inherited intellectual disability and autistic spectrum disorder, is typically caused by transcriptional silencing of the X-linked FMR1 gene. Work in animal models has described altered synaptic plasticity, a result of the up-regulation of metabotropic glutamate receptor 5 (mGluR5)-mediated signaling, as a putative downstream effect. Post hoc analysis of a randomized, placebo-controlled, crossover phase 2 trial suggested that the selective mGluR5 antagonist mavoglurant improved behavioral symptoms in FXS patients with completely methylated FMR1 genes. We present the results of two phase 2b, multicenter, randomized, double-blind, placebo-controlled, parallel-group studies of mavoglurant in FXS, designed to confirm this result in adults (n = 175, aged 18 to 45 years) and adolescents (n = 139, aged 12 to 17 years). In both trials, participants were stratified by methylation status and randomized to receive mavoglurant (25, 50, or 100 mg twice daily) or placebo over 12 weeks. Neither of the studies achieved the primary efficacy end point of improvement on behavioral symptoms measured by the Aberrant Behavior Checklist-Community Edition using the FXS-specific algorithm (ABC-C(FX)) after 12 weeks of treatment with mavoglurant. The safety and tolerability profile of mavoglurant was as previously described, with few adverse events. Therefore, under the conditions of our study, we could not confirm the mGluR theory of FXS nor the ability of the methylation state of the FMR1 promoter to predict mavoglurant efficacy. Preclinical results suggest that future clinical trials might profitably explore initiating treatment in a younger population with longer treatment duration and longer placebo run-ins and identifying new markers to better assess behavioral and cognitive benefits.