DCDC2 genetic variants and susceptibility to developmental dyslexia

Objective(s) Developmental dyslexia is a heritable condition, with genetic factors accounting for 44–75% of the variance in performance tests of reading component subphenotypes. Compelling genetic linkage and association evidence supports a quantitative trait locus in the 6p21.3 region that encodes a gene called DCDC2. In this study, we explored the contribution of two DCDC2 markers to dyslexia, related reading and memory phenotypes in nuclear families of Italian origin. Methods The 303 nuclear families recruited on the basis of having a proband with developmental dyslexia have been studied with 6p21.3 markers, BV677278 and rs793862. Marker-trait association was investigated by the quantitative transmission disequilibrium test (version 2.5.1) that allows for the analyses of quantitative traits. Seven phenotypes were used in association analyses, that is, word and nonword reading, word and nonword spelling, orthographic choice, memory, and the affected status based on inclusion criteria. Results Quantitative transmission disequilibrium test analyses yielded evidence for association between reading skills and the BV677278 deletion (empirical P-values=0.025–0.029) and between memory and BV677278 allele 10 (empirical P-value=0.0001). Conclusion Our result adds further evidence in support of DCDC2 contributing to the deficits in developmental dyslexia. More specifically, our data support the view that DCDC2 influences both reading and memory impairments thus shedding further light into the etiologic basis and the phenotypic complexity of developmental dyslexia.

[1]  E. Grigorenko,et al.  Continuing the search for dyslexia genes on 6p , 2003, American Journal of Medical Genetics Part B: Neuropsychiatric Genetics.

[2]  H. Lee Swanson,et al.  Do Different Components of Working Memory Underlie Different Subgroups of Reading Disabilities? , 2006, Journal of learning disabilities.

[3]  S. Purcell,et al.  Association of reading disability on chromosome 6p22 in the Afrikaner population , 2008, American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics.

[4]  T. Whitlock Dyslexia , 1989, The Lancet.

[5]  D W Fulker,et al.  Quantitative trait locus for reading disability: correction. , 1995, Science.

[6]  J. Fletcher,et al.  Specific reading disability (dyslexia): what have we learned in the past four decades? , 2004, Journal of child psychology and psychiatry, and allied disciplines.

[7]  E L Grigorenko,et al.  Susceptibility loci for distinct components of developmental dyslexia on chromosomes 6 and 15. , 1997, American journal of human genetics.

[8]  R. Plomin,et al.  Generalist genes and learning disabilities. , 2005, Psychological bulletin.

[9]  S. Gathercole,et al.  Working memory in children with reading disabilities. , 2006, Journal of experimental child psychology.

[10]  J. Lamb,et al.  A quantitative-trait locus on chromosome 6p influences different aspects of developmental dyslexia. , 1999, American journal of human genetics.

[11]  B. Pennington,et al.  Refinement of the 6p21.3 quantitative trait locus influencing dyslexia: linkage and association analyses , 2004, Human Genetics.

[12]  M C O'Donovan,et al.  Further evidence that the KIAA0319 gene confers susceptibility to developmental dyslexia , 2006, Molecular Psychiatry.

[13]  Ron Dumont,et al.  Test of Memory and Learning , 2008 .

[14]  A. Galaburda,et al.  Postnatal analysis of the effect of embryonic knockdown and overexpression of candidate dyslexia susceptibility gene homolog Dcdc2 in the rat , 2008, Neuroscience.

[15]  M. Nobile,et al.  Association of short‐term memory with a variant within DYX1C1 in developmental dyslexia , 2007, Genes, brain, and behavior.

[16]  P. Skudlarski,et al.  DCDC2 is associated with reading disability and modulates neuronal development in the brain. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[17]  Peter Holmans,et al.  Strong evidence that KIAA0319 on chromosome 6p is a susceptibility gene for developmental dyslexia. , 2005, American journal of human genetics.

[18]  H. Swanson,et al.  Working Memory, Short-Term Memory, and Reading Disabilities , 2009, Journal of learning disabilities.

[19]  B. Müller-Myhsok,et al.  Variation in GRIN2B contributes to weak performance in verbal short‐term memory in children with dyslexia , 2010, American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics.

[20]  Ellen M Wijsman,et al.  Evaluation of candidate genes for DYX1 and DYX2 in families with dyslexia , 2007, American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics.

[21]  D E Kaplan,et al.  Evidence for linkage and association with reading disability on 6p21.3-22. , 2002, American journal of human genetics.

[22]  H. H. Hulshoff Pol,et al.  Genetic Covariance Structure of Reading, Intelligence and Memory in Children , 2009, Behavior genetics.

[23]  L. Field,et al.  Absence of linkage of phonological coding dyslexia to chromosome 6p23-p21.3 in a large family data set. , 1998, American journal of human genetics.

[24]  Bertram Müller-Myhsok,et al.  Further evidence for DYX1C1 as a susceptibility factor for dyslexia , 2009, Psychiatric genetics.

[25]  Grier P Page,et al.  A Dyslexia-Associated Variant in DCDC2 Changes Gene Expression , 2011, Behavior genetics.

[26]  C. Francks,et al.  A 77-kilobase region of chromosome 6p22.2 is associated with dyslexia in families from the United Kingdom and from the United States. , 2004, American journal of human genetics.

[27]  Shimon Sapir,et al.  Deficits in working memory in young adults with reading disabilities. , 2007, Journal of communication disorders.

[28]  Andreas Ziegler,et al.  Strong genetic evidence of DCDC2 as a susceptibility gene for dyslexia. , 2006, American journal of human genetics.

[29]  M. Nöthen,et al.  Investigation of the DCDC2 intron 2 deletion/compound short tandem repeat polymorphism in a large German dyslexia sample , 2008, Psychiatric genetics.

[30]  M. Hamshere,et al.  Linkage disequilibrium mapping provides further evidence of a gene for reading disability on chromosome 6p21.3–22 , 2003, Molecular Psychiatry.

[31]  E. Grigorenko,et al.  Chromosome 6p influences on different dyslexia-related cognitive processes: further confirmation. , 2000, American journal of human genetics.

[32]  H. Swanson,et al.  The influence of working memory on reading growth in subgroups of children with reading disabilities. , 2007, Journal of experimental child psychology.

[33]  P. Ahnert,et al.  The role of gene DCDC2 in German dyslexics , 2009, Annals of dyslexia.

[34]  Maria Luisa Lorusso,et al.  A family-based association study does not support DYX1C1 on 15q21.3 as a candidate gene in developmental dyslexia , 2005, European Journal of Human Genetics.

[35]  L. Cardon,et al.  Quantitative-trait locus for specific language and reading deficits on chromosome 6p. , 1999, American journal of human genetics.

[36]  E. Renzi,et al.  Cross-national comparisons of developmental dyslexia in Italy and the United States. , 1985, Child development.

[37]  M. Nobile,et al.  A locus on 15q15-15qter influences dyslexia: further support from a transmission/disequilibrium study in an Italian speaking population , 2004, Journal of Medical Genetics.

[38]  G. Abecasis,et al.  Pedigree tests of transmission disequilibrium , 2000, European Journal of Human Genetics.

[39]  D W Fulker,et al.  Quantitative trait locus for reading disability on chromosome 6. , 1994, Science.

[40]  T. Petryshen,et al.  Absence of significant linkage between phonological coding dyslexia and chromosome 6p23-21.3, as determined by use of quantitative-trait methods: confirmation of qualitative analyses. , 2000, American journal of human genetics.