ANK2 autism mutation targeting giant ankyrin-B promotes axon branching and ectopic connectivity.
Rui YangKathryn K Walder-ChristensenNamsoo KimDanwei WuDamaris N LorenzoAlexandra BadeaYong-Hui JiangHenry H YinWilliam C WetselVann BennettPublished in: Proceedings of the National Academy of Sciences of the United States of America (2019)
Giant ankyrin-B (ankB) is a neurospecific alternatively spliced variant of ANK2, a high-confidence autism spectrum disorder (ASD) gene. We report that a mouse model for human ASD mutation of giant ankB exhibits increased axonal branching in cultured neurons with ectopic CNS axon connectivity, as well as with a transient increase in excitatory synapses during postnatal development. We elucidate a mechanism normally limiting axon branching, whereby giant ankB localizes to periodic axonal plasma membrane domains through L1 cell-adhesion molecule protein, where it couples microtubules to the plasma membrane and prevents microtubule entry into nascent axon branches. Giant ankB mutation or deficiency results in a dominantly inherited impairment in selected communicative and social behaviors combined with superior executive function. Thus, gain of axon branching due to giant ankB-deficiency/mutation is a candidate cellular mechanism to explain aberrant structural connectivity and penetrant behavioral consequences in mice as well as humans bearing ASD-related ANK2 mutations.
Keyphrases
- autism spectrum disorder
- optic nerve
- intellectual disability
- attention deficit hyperactivity disorder
- mouse model
- endothelial cells
- rare case
- resting state
- cell adhesion
- functional connectivity
- white matter
- healthcare
- spinal cord
- preterm infants
- metabolic syndrome
- type diabetes
- blood brain barrier
- replacement therapy
- gene expression
- copy number
- dna methylation
- optical coherence tomography
- adipose tissue
- brain injury
- binding protein
- induced pluripotent stem cells
- small molecule