Linguistic and psychological theory coupled with empirical studies on the heritability of individual differences in language development and language disorders support the hypothesis that the capacity for language development in humans is genetically influenced. The proposed research will provide for further understanding of this genetic influence on language by studying individuals with specific language impairment (SLI) who have poor language development despite normal linguistic experience, sensory abilities, and nonverbal intelligence. Individuals with SLI provide an excellent means of identifying quantitative trait genetic loci that are likely to contribute to the full range of individual differences in language development and use. The proposed research will use two complementary strategies. First, it will take advantage of two individuals (TB) with severe developmental speech and language impairment, who also have a chromosomal translocation that appears to involve the FOXP2 gene. The FOXP2 gene is known to be a regulatory gene implicated in developmental speech and language disorder. This strategy will contrast the neuroanatomical, neurophysiological, and neuropsychological characteristics of these two individuals with their unaffected family members. This work will emphasize the procedural and declarative learning systems and vocabulary and sentence use. Thus, this strategy moves from gene to language phenotype to understand the neurologic and cognitive pathways between gene and phenotype. The second strategy will use a large epidemiologic sample of young adults with SLI along with their siblings who have participated in a 10-year longitudinal study. The language status, as well as associated conditions of these individuals, has been studied extensively. Furthermore, DNA samples have already been obtained from the SLI probands, siblings, and their parents. Thus, a valuable data bank of Doth tissue and phenotypes is available to identify genes by means of high density genome-wide screens using sib-pair linkage methods and follow-up fine mapping methods using transmission disequilibrium tests (TDT). Additionally, ongoing fine mapping of candidate genes and regions of interest informed by findings from our laboratories and other laboratories will be carried out along with microdeletion studies. Additional phenotyping of the SLI probands and siblings will be conducted to obtain procedural and declarative learning measures and additional language measures that parallel the data to be obtained from the TB family. The learning measures are to serve as endophyenotypes that may be more sensitive and specific to genetic influence. The phenotypes and endophenotypes from these individuals will then be used in conjunction with the existing genotyping for additional genome-wide screens and further follow-up fine mapping studies. ? ?

Agency
National Institute of Health (NIH)
Institute
National Institute on Deafness and Other Communication Disorders (NIDCD)
Type
Research Project (R01)
Project #
5R01DC007643-02
Application #
7113770
Study Section
Language and Communication Study Section (LCOM)
Program Officer
Cooper, Judith
Project Start
2005-09-01
Project End
2010-08-31
Budget Start
2006-09-01
Budget End
2007-08-31
Support Year
2
Fiscal Year
2006
Total Cost
$626,597
Indirect Cost
Name
University of Iowa
Department
Other Health Professions
Type
Schools of Arts and Sciences
DUNS #
062761671
City
Iowa City
State
IA
Country
United States
Zip Code
52242
Lee, Joanna C; Tomblin, J Bruce (2015) Procedural Learning and Individual Differences in Language. Lang Learn Dev 11:215-236
Lee, Joanna C; Nopoulos, Peggy C; Bruce Tomblin, J (2013) Abnormal subcortical components of the corticostriatal system in young adults with DLI: a combined structural MRI and DTI study. Neuropsychologia 51:2154-61
Lee, Joanna C; Tomblin, J Bruce (2012) Reinforcement learning in young adults with developmental language impairment. Brain Lang 123:154-63
Tomblin, J Bruce; O'Brien, Marlea; Shriberg, Lawrence D et al. (2009) Language features in a mother and daughter of a chromosome 7;13 translocation involving FOXP2. J Speech Lang Hear Res 52:1157-74