With more than $1,000,000 from FRAXA Research Foundation over 13 years, Drs. William Greenough and Ivan-Jeanne Weiler at the University of Illinois uncovered the role of FMRP at synapses, leading to much of the subsequent research on Fragile X syndrome.
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Altered Cyclic AMP Signaling in Fragile X
With $125,000 grant from FRAXA Research Foundation over 2006-2008, Dr. Anita Bhattacharyya at the University of Wisconsin Waisman Center investigated abnormalities in cyclic AMP signaling in Fragile X syndrome. Results published.
Read moreGlutamate Metabolism in Fragile X Mouse Brain
With a $95,000 grant from FRAXA Research Foundation over 2 years, Mary McKenna at the University of Maryland studied the role of metabotropic glutamate receptors (mGluR) and how they affect other cells and pathways.
Read moreUsing Fenobam to Reduce APP and Abeta in Fragile X Mice
With a $130,000 grant from FRAXA Research Foundation over 2008-2009, Drs. James Malter and Cara Westmark at the University of Wisconsin studied the relationship between the Fragile X protein FMRP and APP, a protein important to the pathology of Alzheimer’s Disease. APP may also contribute to the pathology of Fragile X, and its major metabolite, Aß, may contribute to abnormal protein synthesis via a positive feedback loop. This project sought to restore normal dendritic protein synthesis in Fragile X mice by breaking into this loop.
Read moreIn Vivo Imaging of Synaptic Abnormalities in a Mouse Model of Fragile X Syndrome
With an $85,000 grant from FRAXA Research Foundation over 2007-2008, Dr. Wen-Biao Gan and his team at New York University studied in-vivo protein development using imaging in mouse models to determine when pre- and postsynaptic structural plasticity occurs to target and when it develops abnormally.
Read moreSleep and Circadian Rhythms in Fragile X Mutant Drosophila
With an $80,000 grant from FRAXA Research Foundation over 2 years, Dr. Ravi Allada and his team studied at Northwestern University sleep behaviors in Fragile X fruit flies. These fruit flies are useful for several important reasons; not only do they have a good cognitive phenotype, they also have a clear disturbance of circadian rhythms. This is an important model for human hyperactivity and sleep disorders, and this group studied the underlying mechanisms in an effort to find treatments for the human conditions.
Read moreAMPAkines and BDNF in Fragile X: UCI Researchers Restore Memory Process in Fragile X
With a $104,498 grant from FRAXA Research Foundation from 2003-2008, Dr. Julie Lauterborn at the University of California has done several studies on dentritic spines and finding treatment targets for memory retention in Fragile X mice.
Read moreDevelopment of the Fragile X Brain: Cellular Processes Regulated by FMRP During Development
With a $120,000 grant from FRAXA Research Foundation over 2 years, Dr. Peter Kind and his team at the University of Edinburgh will study the way FMRP affects and is affected by cortical development.
Read moreTargeting the Role of Group 1 Metabotropic Glutamate Receptors
With a $40,000 grant from FRAXA Research Foundation in 2008, Dr. Huibert Mansvelder and his team at the University of Amsterdam studied the role of different receptors and their reactions to drug compounds.
Read moreEffects of Alternative Splicing at FMR1 Exon 15 on Understanding Fragile X Syndrome
With a $118,500 grant from FRAXA Research Foundation from 2007-2008, Dr. Robert Denman and his team at the New York State Institute for Basic Research studied protein splicing, specifically looking at exon 15-encoded residues of of FMPR.
Read moreMolecular Basis of Fragile X Syndrome: Genetic Modeling in Zebrafish
With a $52,500 grant from FRAXA Research Foundation in 2008, Dr. Robert Richards and his team from the University of Adelaide studied zebrafish models and embryo development abnormalities to search for treatment targets.
Read moreIn Vitro Reactivation of the Fragile X Gene
With a $60,000 grant from FRAXA Research Foundation, Dr. Giovanni Neri and his team at Universita Cattolica del S. Cuore explored reactivation of the FMR1 gene and characterization of cell lines with unmethylated full mutation.
Read moreClinical 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 ages 6–25 years with Fragile X. Results were promising, and published: 10 of the 12 participants showed behavioral improvements.
Read moreFMRP-MAP1b RNA Interactions in Fragile X Syndrome
With a $95,000 grant from FRAXA Research Foundation from 2006-2007, Dr. Mihaela Mihailescu and her team at Dusquesne University studied the relationship between FMRP, RNA sequences, and G quartet structure. Results published.
Read moreRegulation of Group I Metabotropic Glutamate Receptor Trafficking in Fragile X
With an $83,500 grant from FRAXA Research Foundation in 2005 and 2007, Dr. Anna Fracesconi at Albert Einstein College studied the patterns and pathways of different receptors related to Fragile X.
Read moreDecreased Excitatory Drive onto Parvalbumin-Positive Neocortical Inhibitory Neurons in a Mouse Model of Fragile X Syndrome
With an $80,000 grant from FRAXA Research Foundation over 2006-7, Drs. Jay Gibson and Kimberly Huber at the University of Texas at Southwestern examined if the defected inhibitory neurotransmission was a primary or secondary symptom of Fragile X to determine where future treatment targets should be focused.
Read moreElectrophysiological, Biochemical and Immunohistochemical Characterization of Kv3.1 in Auditory Brainstem Nuclei in the Fragile X Knockout Mouse
With $80,000 in funding from FRAXA over several years, the Yale University team of Leonard Kaczmarek, PhD showed that loss of FMRP leads to an increased Kv3.1 potassium currents. This change impairs timing of action potentials in auditory neurons (and likely others throughout the brain).
Read moreBaclofen: GABA(B) Receptor Supersensitivity and Normalization of Behavioral Abnormalities by Various GABA(B) Agonists Including Baclofen in FMRP Deficient Mice
With $110,000 in grants from FRAXA Research Foundation over several years, Dr. Miklos Toth from Cornell University discovered increased startle response in Fragile X mice and that baclofen can correct this phenotype.
Read moreHypothalamic Pituitary Adrenal (HPA) Axis Dysregulation in Fragile X Syndrome
The hypothalamic pituitary adrenal (HPA) axis is our central stress response system. FRAXA Research Foundation awarded Dr. Carolyn B. Smith $62,000 in funding in 2005 to explore the HPA axis in Fragile X mice. The results of their study indicate that, in FVB/NJ mice, the hormonal response to and recovery from acute stress is unaltered by the lack of Fragile X mental retardation protein. Results published.
Read moreExperimental Compound FRAX486 Reverses Signs of Fragile X in Mice
With an $81,000 grant from FRAXA Research Foundation from 2005-2006, Dr. Susumu Tonegawa and his team at MIT studied the enzyme PAK to determine how it could be used for a treatment target. Results published.
Read moreProtein Synthesis in Interneurons in Fragile X Mice
With a $100,000 grant from FRAXA Research Foundation from 2004-2006, Dr. Oswald Steward and his team at the University of California studied protein synthesis alterations in Fragile X mice in the brains’ interneurons.
Read moreTherapeutic Interventions in FMR1 Knockout and Transgenic Mice: Role of the FMR1 Gene
With a $229,000 grant from FRAXA Research Foundation in 2006, Drs. Richard Paylor, David Albeck, and Francis Brennan at the Baylor College of Medicine found that, in mice as in humans, the level of Fragile X protein in brain cells plays a prominent role in determining levels of activity and anxiety.
Read moreSplicing Variations of the Fragile X Gene
With an $80,000 grant from FRAXA Research Foundation from 2005-2006, Dr. David Morris and his team at the University of Washington aimed to understand the variation in distribution and function of FMRP isoforms, sought to identify isoforms of FMRP in mouse brain, and define the expression pattern of these versions of the protein.
Read moreExamining the Amygdala in Mouse Models of Fragile X
With a $63,000 grant from FRAXA Research Foundation in 2006, Dr. Joseph LeDoux and his team at New York University studied the role of the amygdala in Fragile X syndrome using mouse models.
Read moreSocial Deficits in Fragile X Syndrome: Do Gene-Gene Interactions Play a Role?
With a $100,000 grant from FRAXA Research Foundation from 2005-2006, Drs. Jean Lauder and Sheryl Moy at the University of North Carolina looked for gene-gene interactions in Fragile X syndrome.
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