Connectivity as a Biomarker for Future Fragile X Clinical Trials

Connectivity as a Biomarker for Future Fragile X Clinical Trials

With a 2017 grant from FRAXA Research Foundation of $90,000, Dr. Andreas Frick’s team at Neurocentre Magendie, in France, will test non-invasive imaging using magnetic resonance imaging (MRI) as a potential biomarker for future fragile X syndrome clinical trials.

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Defining the Subcellular Specificity of Metabotropic Glutamate Receptor (mGluR5) Antagonists

Defining the Subcellular Specificity of Metabotropic Glutamate Receptor (mGluR5) Antagonists

With $217,500 in grants from FRAXA Research Foundation, Dr. Karen O’Malley and team studied the function of mGluR5 when it is inside cells. Many of the symptoms of fragile X Syndrome (FXS) are thought to arise due to overactive metabotropic glutamate receptor 5 (mGluR5) signaling, which is normally opposed by the protein missing in FXS, Fragile X Protein (FMRP).

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Development of a High-Content Synapse Assay to Screen Therapeutics for Fragile X Syndrome

Development of a High-Content Synapse Assay to Screen Therapeutics for Fragile X Syndrome

With a $45,000 grant from FRAXA Research Foundation in 2009, Dr. Mark Bear and Dr. Asha Bhakar used High Content Screening (HCS) to develop an assay sensitive to the effect of the FXS genotype. This project was funded in full by NIH after the first year.

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Clinical Trial of Ganaxolone in Patients with Fragile X Syndrome

Clinical Trial of Ganaxolone in Patients with Fragile X Syndrome

With a $90,000 grant from FRAXA Research Foundation funded during 2014-2015, Dr. Frank Kooy and colleagues at the University of Antwerp are conducting a double blind crossover trial of ganaxolone in patients with fragile X syndrome. Results of this study were mixed (see Marinus: Results from Phase 2 Exploratory Clinical Study Support Continued Development of Ganaxolone in Fragile X Syndrome.

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Clinical Trial of Aripiprazol in Fragile X Syndrome

Clinical Trial of Aripiprazol in Fragile X Syndrome

With a FRAXA Research Foundation grant of $30,000 in 2006, Dr. Erickson conducted a pilot clinical trial of an available medicine, aripiprazole (brand-name Abilify). This was an open-label 12-week trial in 12 people aged 6–25 years with fragile X. Results were promising, and published: 10 of the 12 participants showed behavioral improvements.

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Biomarker Discovery and Validation for Fragile X Syndrome

With a $60,000 grant from FRAXA Research Foundation in 2015 that was renewed in 2016, Dr. Eric Klann of New York University will research biomarkers in fraile X syndrome and how to translate these markers from mouse models to human patients.

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Fragile X Mutant Mouse Facility

Fragile X Mutant Mouse Facility

With $375,000 in grants from the FRAXA Research Foundation since 2009, Dr. David Nelson has developed an impressive array of advanced mouse models of fragile X, at Baylor College of Medicine. These models are available to investigators worldwide on request. This resource has been essential for a broad, rapid distribution of fragile X and related gene mouse models and has increased the pace of fragile X research.

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Fruit Flies to Model and Test Fragile X Treatments

Fruit Flies to Model and Test Fragile X Treatments

Dr. Jongens and his collaborators have found an insulin-like protein in the fly brain that is overexpressed in the Fragile X mutant fly, leading to increased activity of the insulin signaling pathway. Furthermore, they found that certain behavioral patterns in the fragile X flies can be rescued by expressing the FX gene just in insulin producing neurons in the fly brain. In the mutant, there are other changes in the signaling pathways, including a decrease in cAMP and elevation in PI3K, mTOR, Akt and ERK activity. They now propose to study 2 medicines used for diabetes: pioglitazone (increases cAMP and decreases Akt and ERK) and metformin (inhibits mTOR), in flies and mice to validate the potential efficacy of these novel therapeutics for Fragile X.

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