Scientific Reports (Aug 2017)

Neuroplastin deletion in glutamatergic neurons impairs selective brain functions and calcium regulation: implication for cognitive deterioration

  • Rodrigo Herrera-Molina,
  • Kristina Mlinac-Jerkovic,
  • Katarina Ilic,
  • Franziska Stöber,
  • Sampath Kumar Vemula,
  • Mauricio Sandoval,
  • Natasa Jovanov Milosevic,
  • Goran Simic,
  • Karl-Heinz Smalla,
  • Jürgen Goldschmidt,
  • Svjetlana Kalanj Bognar,
  • Dirk Montag

DOI
https://doi.org/10.1038/s41598-017-07839-9
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 13

Abstract

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Abstract The cell adhesion molecule neuroplastin (Np) is a novel candidate to influence human intelligence. Np-deficient mice display complex cognitive deficits and reduced levels of Plasma Membrane Ca2+ ATPases (PMCAs), an essential regulator of the intracellular Ca2+ concentration ([iCa2+]) and neuronal activity. We show abundant expression and conserved cellular and molecular features of Np in glutamatergic neurons in human hippocampal-cortical pathways as characterized for the rodent brain. In Nptn lox/loxEmx1Cre mice, glutamatergic neuron-selective Np ablation resulted in behavioral deficits indicating hippocampal, striatal, and sensorimotor dysfunction paralleled by highly altered activities in hippocampal CA1 area, sensorimotor cortex layers I-III/IV, and the striatal sensorimotor domain detected by single-photon emission computed tomography. Altered hippocampal and cortical activities correlated with reduction of distinct PMCA paralogs in Nptn lox/loxEmx1Cre mice and increased [iCa2+] in cultured mutant neurons. Human and rodent Np enhanced the post-transcriptional expression of and co-localized with PMCA paralogs in the plasma membrane of transfected cells. Our results indicate Np as essential for PMCA expression in glutamatergic neurons allowing proper [iCa2+] regulation and normal circuit activity. Neuron-type-specific Np ablation empowers the investigation of circuit-coded learning and memory and identification of causal mechanisms leading to cognitive deterioration.