FOXP2 , verbal dyspraxia, and the evolution of human language

1. FOXP2 , verbal dyspraxia, and the evolution of human language Andrew Tritt

2. Verbal Dyspraxia • Speech disorder affecting individuals ability to correctly pronounce sounds, syllables, and words • Inconsistent speech • Trouble ordering things (not just speech) • Difficulty learning how to read and spell • Difficulties with other motor tasks • Estimated 5-20% affected • Jewel and Brush

3. FOXP2 – forkhead box P2 • 715 AA, 78900.04 Da, located on chromosome 7 • Gene Ontology: • Biological processes • Caudate nucleus development • Putamen development • Molecular function • DNA binding • Protein homodimerization • Cellular component • Nucleus

4. FOXP2 – forkhead box P2 • Member of forkhead box transcription factors • Subgroup of helix-turn-helix class • Forkhead box (a.k.a. winged-helix) • Mutations in FOXP2 linked to verbal dyspraxia • Also thought to play a role in autism • Linked to: • Song in song-birds • Echolocation in bats • Pattern learning in mice

5. Forkhead box proteins • FOXE1, FOXE2, FOXE3 • FOXF1, FOXF2 • FOXG1 • FOXH1 • FOXI1, FOXI2 • FOXJ1, FOXJ2, FOXJ3 • FOXK1, FOXK2 • FOXL1, FOXL2 • FOXM1 • FOXN1, FOXN2, FOXN3, FOXN4 • FOXO1, FOXO2, FOXO3, FOXO4 • FOXP1, FOXP2, FOXP3, FOXP4 • FOXQ1 • FOXR1, FOXR2 • FOXA1, FOXA2, FOXA3 • FOXB1, FOXB2 • FOXC1, FOXC2 • FOXD1, FOXD2, FOXD3, FOXD4, FOXD5, FOXD6 Image from http://www.neuroscience.ox.ac.uk/directory/simon-fisher

6. Protein structure • Leucine-zipper domain • Required for dimerization • Forkhead box domain • Required for DNA recognition • Mutations here linked to disease • Similar in other organisms • Polyglutamine tract Image from SMART

7. Protein Structure • Protein highly conserved given phylogenetic distance Mouse Human Zebra finch Images from SMART

8. Why FOXP2? • KE family • 30 members across three generations • Roughly half of the family members have impairment • Correlation between FOXP2 and impairment • Genetic origins of language Image from http://www.well.ox.ac.uk/~simon/SPCH1/index.shtml

9. Root of Human Language • Two mutations since divergence of chimp and humans • Fixation estimated to be within last 200,000 years • Show signs of natural selection • Some targets show signs of natural selection Image from http://www.imagingnotes.com/go/article_free.php?mp_id=1&Udo

10. Phylogeny • Wooly horseshoe bat and zebra finch ??? • Done using parsimony • Use ML! Image created using PAUP*

11. Future Directions • Make this harder to read! • Identify other TFs that FOXP2 interacts with • TAP-tag • Look into these proteins further • NFATc2 – Down’s Syndrome

12. Future Directions • Look into target genes of FOXP2 • Determine function of targets • Tests for selection • Study other organisms with conspicuous traits • Mouse - pattern-learning and vocalization • Zebra finch – singing • ChIP-chip

13. Questions ???

14. References • Enard W, Przeworski M, Fisher SE, Lai CSL, Kitano WV, et al. (2002) Molecular evolution of FOXP2, a gene involved in speech and language. Nature 418:869–87. • SMART (2009) http://smart.embl-heidelberg.de/ • Spiteri E, Konopka G, Coppola G, Bornar J, Oldham M, Ou J, Vernes S, Fisher SE, Ren B, Geschwind DH (2007) Identification of transcription targets of FOXP2, a gene linked to speech and language in developing human brain. Cell 81:114-1157 • Swofford, D.L. 2002. PAUP*. Phylogenetic Analysis Using Parsimony (*and Other Methods). Version 4. Sinauer Associates, Sunderland, Massachusetts. • Vargha-Khadem F, Gadian DG, Copp A, Mishkin M (2005) FOXP2 and the neuroanatomy of speech and language. Nat Rev Neurosci 6:131–138.