Abstract

The specific causes of dyslexia are not yet known. Recent genetic and neurobiological studies strengthen a working hypothesis that dyslexia is caused by early developmental disruptions that subsequently cause functional impairments in neocortical circuits. Within the past four years, 4 candidate dyslexia susceptibility genes with roles in neuronal development have been proposed (DYX1C1, KIAA0319, DCDC2 and ROBO1). Rodent homologs of three of these, Dyxld, Kiaa0319 and Dcdc2 have been shown by our group to play a role in neuronal migration in'developing neocortex, and Robol was previously shown to be important for axon growth and guidance. The three aims of this project will further define the cellular and developmental roles of Dyxld. The proposed experiments will define the components of neuronal migration and differentiation regulated by Dyxld, and identify functional links between Dyxld and other proteins essential to migration.
The aims will be executed by a combination of in utero RNAi, imaging, protein-protein interaction assays, and cell culture approaches. Novel in vivo conditional RNAi and overexpression methods will be used to explore the temporal dependence of Dyxld function, and potential developmental reversibility of Dyx1c1 dysfunction. Together, these experiments will lead to a comprehensive molecular and cellular understanding of the function of a gene linked to reading and learning disability.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Research Program Projects (P01)
Project #
3P01HD057853-05S1
Application #
8914760
Study Section
Special Emphasis Panel (ZHD1-MRG-C)
Program Officer
Miller, Brett
Project Start
2009-09-15
Project End
2015-03-31
Budget Start
2013-07-01
Budget End
2014-06-30
Support Year
5
Fiscal Year
2014
Total Cost
$29,639
Indirect Cost
$12,605

  Institution

Name
Beth Israel Deaconess Medical Center
Department
Type
DUNS #
071723621
City
Boston
State
MA
Country
United States
Zip Code
02215

  Publications

Rendall, Amanda R; Ford, Aiden L; Perrino, Peter A et al. (2017) Auditory processing enhancements in the TS2-neo mouse model of Timothy Syndrome, a rare genetic disorder associated with autism spectrum disorders. Adv Neurodev Disord 1:176-189
Rendall, Amanda R; Tarkar, Aarti; Contreras-Mora, Hector M et al. (2017) Deficits in learning and memory in mice with a mutation of the candidate dyslexia susceptibility gene Dyx1c1. Brain Lang 172:30-38
Che, Alicia; Truong, Dongnhu T; Fitch, R Holly et al. (2016) Mutation of the Dyslexia-Associated Gene Dcdc2 Enhances Glutamatergic Synaptic Transmission Between Layer 4 Neurons in Mouse Neocortex. Cereb Cortex 26:3705-3718
Chen, Fuyi; Becker, Albert; LoTurco, Joseph (2016) Overview of Transgenic Glioblastoma and Oligoastrocytoma CNS Models and Their Utility in Drug Discovery. Curr Protoc Pharmacol 72:14.37.1-12
Rendall, Amanda R; Truong, Dongnhu T; Fitch, R Holly (2016) Learning delays in a mouse model of Autism Spectrum Disorder. Behav Brain Res 303:201-7
Truong, Dongnhu T; Rendall, Amanda R; Rosen, Glenn D et al. (2015) Morphometric changes in subcortical structures of the central auditory pathway in mice with bilateral nodular heterotopia. Behav Brain Res 282:61-9
Truong, D T; Che, A; Rendall, A R et al. (2014) Mutation of Dcdc2 in mice leads to impairments in auditory processing and memory ability. Genes Brain Behav 13:802-11
Che, Alicia; Girgenti, Matthew J; LoTurco, Joseph (2014) The dyslexia-associated gene DCDC2 is required for spike-timing precision in mouse neocortex. Biol Psychiatry 76:387-96
Centanni, T M; Booker, A B; Sloan, A M et al. (2014) Knockdown of the dyslexia-associated gene Kiaa0319 impairs temporal responses to speech stimuli in rat primary auditory cortex. Cereb Cortex 24:1753-66
Siddiqi, Faez; Chen, Fuyi; Aron, Abraham W et al. (2014) Fate mapping by piggyBac transposase reveals that neocortical GLAST+ progenitors generate more astrocytes than Nestin+ progenitors in rat neocortex. Cereb Cortex 24:508-20

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