Biological Research (Jun 2024)

Loss of protein tyrosine phosphatase receptor delta PTPRD increases the number of cortical neurons, impairs synaptic function and induces autistic-like behaviors in adult mice

  • Bastián I. Cortés,
  • Rodrigo C. Meza,
  • Carlos Ancatén-González,
  • Nicolás M. Ardiles,
  • María-Ignacia Aránguiz,
  • Hideaki Tomita,
  • David R. Kaplan,
  • Francisca Cornejo,
  • Alexia Nunez-Parra,
  • Pablo R. Moya,
  • Andrés E. Chávez,
  • Gonzalo I. Cancino

DOI
https://doi.org/10.1186/s40659-024-00522-0
Journal volume & issue
Vol. 57, no. 1
pp. 1 – 15

Abstract

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Abstract Background The brain cortex is responsible for many higher-level cognitive functions. Disruptions during cortical development have long-lasting consequences on brain function and are associated with the etiology of brain disorders. We previously found that the protein tyrosine phosphatase receptor delta Ptprd, which is genetically associated with several human neurodevelopmental disorders, is essential to cortical brain development. Loss of Ptprd expression induced an aberrant increase of excitatory neurons in embryonic and neonatal mice by hyper-activating the pro-neurogenic receptors TrkB and PDGFRβ in neural precursor cells. However, whether these alterations have long-lasting consequences in adulthood remains unknown. Results Here, we found that in Ptprd+/- or Ptprd-/- mice, the developmental increase of excitatory neurons persists through adulthood, affecting excitatory synaptic function in the medial prefrontal cortex. Likewise, heterozygosity or homozygosity for Ptprd also induced an increase of inhibitory cortical GABAergic neurons and impaired inhibitory synaptic transmission. Lastly, Ptprd+/- or Ptprd-/- mice displayed autistic-like behaviors and no learning and memory impairments or anxiety. Conclusions These results indicate that loss of Ptprd has long-lasting effects on cortical neuron number and synaptic function that may aberrantly impact ASD-like behaviors.

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