Litcius/Paper detail

Ankyrin B promotes developmental spine regulation in the mouse prefrontal cortex

Kelsey E. Murphy, Bryce W. Duncan, Justin E. Sperringer, Erin Y. Zhang, Victoria A. Haberman, Elliott V Wyatt, Patricia F. Maness

2023Cerebral Cortex12 citationsDOIOpen Access PDF

Abstract

Postnatal regulation of dendritic spine formation and refinement in cortical pyramidal neurons is critical for excitatory/inhibitory balance in neocortical networks. Recent studies have identified a selective spine pruning mechanism in the mouse prefrontal cortex mediated by class 3 Semaphorins and the L1 cell adhesion molecules, neuron-glia related cell adhesion molecule, Close Homolog of L1, and L1. L1 cell adhesion molecules bind Ankyrin B, an actin-spectrin adaptor encoded by Ankyrin2, a high-confidence gene for autism spectrum disorder. In a new inducible mouse model (Nex1Cre-ERT2: Ank2flox: RCE), Ankyrin2 deletion in early postnatal pyramidal neurons increased spine density on apical dendrites in prefrontal cortex layer 2/3 of homozygous and heterozygous Ankyrin2-deficient mice. In contrast, Ankyrin2 deletion in adulthood had no effect on spine density. Sema3F-induced spine pruning was impaired in cortical neuron cultures from Ankyrin B-null mice and was rescued by re-expression of the 220 kDa Ankyrin B isoform but not 440 kDa Ankyrin B. Ankyrin B bound to neuron-glia related CAM at a cytoplasmic domain motif (FIGQY1231), and mutation to FIGQH inhibited binding, impairing Sema3F-induced spine pruning in neuronal cultures. Identification of a novel function for Ankyrin B in dendritic spine regulation provides insight into cortical circuit development, as well as potential molecular deficiencies in autism spectrum disorder.

Topics & Concepts

Dendritic spineAnkyrinNeuroscienceBiologyAnkyrin repeatCell biologyNeuronNeural cell adhesion moleculeCell adhesionGeneticsGeneCellHippocampal formationNeurogenesis and neuroplasticity mechanismsAxon Guidance and Neuronal SignalingNeuroscience and Neuropharmacology Research
Ankyrin B promotes developmental spine regulation in the mouse prefrontal cortex | Litcius